Arhgef10l gene cDNA ORF clone, Mus pahari(shrew mouse)

mRNA	Protein	Name
XM_021199845.1	XP_021055504.1	rho guanine nucleotide exchange factor 10-like protein isoform X8
XM_021199839.1	XP_021055498.1	rho guanine nucleotide exchange factor 10-like protein isoform X2
XM_029539501.1	XP_029395361.1	rho guanine nucleotide exchange factor 10-like protein isoform X3
XM_029539500.1	XP_029395360.1	rho guanine nucleotide exchange factor 10-like protein isoform X1
XM_021199843.1	XP_021055502.1	rho guanine nucleotide exchange factor 10-like protein isoform X4
XM_021199838.1	XP_021055497.1	rho guanine nucleotide exchange factor 10-like protein isoform X1
XM_021199840.1	XP_021055499.1	rho guanine nucleotide exchange factor 10-like protein isoform X3
XM_029539495.1	XP_029395355.1	rho guanine nucleotide exchange factor 10-like protein isoform X1
XM_021199841.1	XP_021055500.1	rho guanine nucleotide exchange factor 10-like protein isoform X4
XM_021199844.1	XP_021055503.1	rho guanine nucleotide exchange factor 10-like protein isoform X7
XM_021199848.1	XP_021055507.1	rho guanine nucleotide exchange factor 10-like protein isoform X10
XM_029539496.1	XP_029395356.1	rho guanine nucleotide exchange factor 10-like protein isoform X1
XM_029539497.1	XP_029395357.1	rho guanine nucleotide exchange factor 10-like protein isoform X1
XM_021199842.1	XP_021055501.1	rho guanine nucleotide exchange factor 10-like protein isoform X5
XM_021199847.1	XP_021055506.1	rho guanine nucleotide exchange factor 10-like protein isoform X9
XM_029539498.1	XP_029395358.1	rho guanine nucleotide exchange factor 10-like protein isoform X1
XM_029539499.1	XP_029395359.1	rho guanine nucleotide exchange factor 10-like protein isoform X1
XM_021199847.2	XP_021055506.1	rho guanine nucleotide exchange factor 10-like protein isoform X5

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OMv15210	XM_021199848.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OMv15201	XM_029539500.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15201	XM_021199838.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15201	XM_029539499.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15201	XM_029539498.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15201	XM_029539496.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15201	XM_029539497.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15201	XM_029539495.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15202	XM_021199839.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15203	XM_021199840.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15204	XM_021199841.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15205	XM_029539501.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15205	XM_021199842.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15206	XM_021199843.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15207	XM_021199844.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15208	XM_021199845.1 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv15209	XM_021199847.2 Latest version!	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
View Old Accession Versions >>
OMv15209	XM_021199847.1	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
Hide Old Accession Versions >>

Arhgef10l ( XM_021199848.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055507.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X10, mRNA.

Price & Availability↑

CloneID	OMv15210
Clone ID Related Accession (Same CDS sequence)	XM_021199848.1
Accession Version	XM_021199848.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2967bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-05-18
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTACCCA GCAGCTCATG GGGGAAGAGG AAGCCACGGA GCCGGCAACT GGGGTGGGTG 
CGCTGTGATG CCCGAGGCAA TATGTGGGCC AGGCAGGAGG ACCTTCGCCA CCCACACCCT 
CACCCCCATG CGCTCATCCG CTGTCCATCC TCCTCCTCCT CCTCTGTGTC CTGCTCAGGT 
GACTCGGAAG AAGAAGATAT GGGGCTCCTG GAGGTTGGTG TGACGGATAT CAAACCTCCC 
GCGCCAGAGC TCGGCCCCAT GCCGGATGGC TTGAGTCCTC AGCAGGTGGT CCGGAGACAC 
ATCCTGGGCT CCATCGTGCA GAGCGAAGGC AGCTATGTGG AGTCACTGAA GAGGATACTC 
CAGGATTATC GTAACCCACT AATGGAGATG GAGCCCAAGG CGCTGAGCGC TCGCAAGTGT 
CAGGTGGTGT TCTTCCGCGT GAAGGAGATT CTACATTGTC ACTCCATGTT CCAGATTGCT 
CTGTCCTCCC GCGTGGCCGA ATGGGACTCC ACAGAGAAGA TTGGAGACCT CTTTGTGGCA 
TCAGACATGC TGAAGAACAC TCCCAGGGGC CACCCTGACA GGCTGTCGCT GCAGTTAGCC 
CTCACGGAGC TGGAGACGCT GGCGGAGAAG CTGAATGAAC AGAAGCGGTT GGCCGATCAG 
GTGGCTGAGA TCCAGCAGCT GACCAAGAGT GTCAGTGACC GCAGCAGCCT CAACAAGCTG 
TTGACCTCTG GCCAGCGGCA GCTGCTTCTG TGTGAGACAC TGACCGAGAC GGTGTATGGA 
GACCGAGGGC AGCTGATCAA GTCCAAGGAG CGCAGGGTCT TCCTGCTCAA TGACATGCTG 
GTCTGCGCCA ACATCAACTT CAAGGGCCAG CTGGAGATCA GCAGCCTGGT GCCTCTGGGG 
CCCAAGTACG TGGTGAAGTG GAACACGGCT CTGCCTCAGG TGCAAGTGGT AGAGGTGGGT 
CAGGACAGCG GTGCCTATGA CAAGGACAAT CTGCTCATCC AGCATGCTGG AGCCAAGAAG 
GCCACCACTG CAGGGCAGGC CCAGAACAAG GTGTACCTGG GCCCCCCACG CCTCTTCCAG 
GAGCTGCAGG ACCTGCAGAA GGACCTGGCA GTGGTGGAAC AGATCACGCT GCTCATCAGC 
ACCTTGCATG GCACTTACCA GAATCTGAAC ATGACTGTGG CCCAAGACTG GTGCCTGGCC 
CTGCAGAGGC TGATGCGCGT GAAGGAGGAG GAGATCCACT CGGCTAACAA GTGCCGCCTG 
AGGCTGCTGC TGCCTGGGAA GCCAGACAAG TCTGGCCGGC CCATCAGTTT CATGGTGGTC 
TTCATCACCC CGAACCCCCT GAGCAAGATT TCCTGGGTCA ACAGATTACA CTTGGCAAAG 
ATCGGACTAA GGGAGGAGAA CCAGCCAGGA TGGCTGTGTC CCGATGAGGA CAAGAAAAGC 
AAAAACCCGT TCTGGTGCCC CATCCTGGCC TGCTGCGTCC CCGCCTTCTC CTCCCGGGCC 
CTCAGCCTGC AGCTTGGCGG TCTGGTCCAC AGTCCTGTTA ACTCTCCCCT GCTGGGCTTC 
TCGGCTGTCA GCACTTCCCT TCCACAGGGC TACCTTTGGG TTGGCGGTGG TCAAGAGGGT 
GCTGGTGGCC AGGTGGACAT CTTCTCCCTG AACCGGCCTT CACCTCGCAC GGTCAAGTCC 
TTCCCAGTGG CAGCCCCTGT GCTTTGCATA GAGTATATTC CAGATCCGGA GGAGGAGGCT 
GAGGGTGGAG AGGAGAGCCG GGCGGCCACC GATCCCTCGG TCACAGTGCA TCCCACTGTC 
TGCCTCGGCT TGCAGGATGG CAGCATCCTG CTCTATGGCA GTGTAGACAC TGGTACCCAG 
TGCCTGGCCA CCTGCAAGAG CCCAGGCCCG CAGCCCGTGC TCTGTCTGCG TCACAGCCCC 
TTCTACCTGC TTGCCGGCCT TCAGGACGGG ACCCTCGCTG CCTATCCTCG GACCAGTGGT 
GACATTCCCT GGGACCTGGA GAGCCCTCCC ATGTGCATAA CTGTGGGCCC AGGGCCGATT 
CGCACGCTGC TGAGCCTGGA GGATGCCGCC TGGGCCAGCT GCGGGCCAAG GGTCACTGTA 
CTAGATGCTG CCACTCTGCA GACTCAGCAA AGCTTCGAGG CGCACCAGGA TGAGGCGGTG 
AGTGTCACTC ACATGGTGAA AGCCGGCAGC GGTGTCTGGA TGGCCTTCTC CTCTGGCTCT 
TCCATCCGTC TCTTCCACAC CGAGACTCTG GAGCACCTTC AGGAGATCAA CATCGCCACC 
AGGACCACCT TCCTCCTGCC AGGCCAAAAG CACCTATGTG TCACCAGCCT CCTCATCTGC 
CAGGGTCTGC TCTGGGTAGG CACTGACCAG GGTGTCATTG TCCTGTTGCC TGTACCCCGA 
CTGGAGGGCA TCCCCAAGAT CACAGGGAAA GGCATGGTGT CTCTCAATGG TCACTGTGGA 
CCTGTGGCCT TCCTGGCTGT GGCCATGAGC ATCCTGGCCC CTGACATCCT GCGGAGTGAC 
CAGGAAGAGG CTGAGGGACC ACAGGCCGAG GAGGACAAGC CGGACGGGCA GGCTCATGAA 
ACTGTGCCTG GGCCTGACAG CCACACGGCT CGGGAGCTGA CCCGCAAGAA AGGCATCTTG 
CTTCAATACC GCCTGCGCTC CACGGCCCAC CTCCCCGGGC CCCTGCTGTC TGTGCGGGAG 
CCAGCTCCTG CCGATGGCTC GGCTCTGGAA CACAGTGAGG AGGACGGGTC CATCTATGAG 
ATGGCCGATG ATCCTGACGT CTGGGTCCGG AGCCGGCCCT GTGCCCGTGA CGCCCACCGC 
AAAGAGATCT GCTCTGTGGC TATCATCTCT GGTGGACAAG GCTATCGCCA TTTCGGCGGT 
GCTCCAGGAG GCCTGAGTGG GCGGCCGGCC CCGTGCAGCG AGACAGACAG CACACTTCTC 
ATCTGGCAGG TGCCCTTGGC TCTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055507.1
CDS	1..2967
Translation	MLPSSSWGKRKPRSRQLGWVRCDARGNMWARQEDLRHPHPHPHALIRCPSSSSSSVSCSGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199848.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X10, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199848.1

ORF Insert Sequence:

ATGTTACCCA GCAGCTCATG GGGGAAGAGG AAGCCACGGA GCCGGCAACT GGGGTGGGTG 
CGCTGTGATG CCCGAGGCAA TATGTGGGCC AGGCAGGAGG ACCTTCGCCA CCCACACCCT 
CACCCCCATG CGCTCATCCG CTGTCCATCC TCCTCCTCCT CCTCTGTGTC CTGCTCAGGT 
GACTCGGAAG AAGAAGATAT GGGGCTCCTG GAGGTTGGTG TGACGGATAT CAAACCTCCC 
GCGCCAGAGC TCGGCCCCAT GCCGGATGGC TTGAGTCCTC AGCAGGTGGT CCGGAGACAC 
ATCCTGGGCT CCATCGTGCA GAGCGAAGGC AGCTATGTGG AGTCACTGAA GAGGATACTC 
CAGGATTATC GTAACCCACT AATGGAGATG GAGCCCAAGG CGCTGAGCGC TCGCAAGTGT 
CAGGTGGTGT TCTTCCGCGT GAAGGAGATT CTACATTGTC ACTCCATGTT CCAGATTGCT 
CTGTCCTCCC GCGTGGCCGA ATGGGACTCC ACAGAGAAGA TTGGAGACCT CTTTGTGGCA 
TCAGACATGC TGAAGAACAC TCCCAGGGGC CACCCTGACA GGCTGTCGCT GCAGTTAGCC 
CTCACGGAGC TGGAGACGCT GGCGGAGAAG CTGAATGAAC AGAAGCGGTT GGCCGATCAG 
GTGGCTGAGA TCCAGCAGCT GACCAAGAGT GTCAGTGACC GCAGCAGCCT CAACAAGCTG 
TTGACCTCTG GCCAGCGGCA GCTGCTTCTG TGTGAGACAC TGACCGAGAC GGTGTATGGA 
GACCGAGGGC AGCTGATCAA GTCCAAGGAG CGCAGGGTCT TCCTGCTCAA TGACATGCTG 
GTCTGCGCCA ACATCAACTT CAAGGGCCAG CTGGAGATCA GCAGCCTGGT GCCTCTGGGG 
CCCAAGTACG TGGTGAAGTG GAACACGGCT CTGCCTCAGG TGCAAGTGGT AGAGGTGGGT 
CAGGACAGCG GTGCCTATGA CAAGGACAAT CTGCTCATCC AGCATGCTGG AGCCAAGAAG 
GCCACCACTG CAGGGCAGGC CCAGAACAAG GTGTACCTGG GCCCCCCACG CCTCTTCCAG 
GAGCTGCAGG ACCTGCAGAA GGACCTGGCA GTGGTGGAAC AGATCACGCT GCTCATCAGC 
ACCTTGCATG GCACTTACCA GAATCTGAAC ATGACTGTGG CCCAAGACTG GTGCCTGGCC 
CTGCAGAGGC TGATGCGCGT GAAGGAGGAG GAGATCCACT CGGCTAACAA GTGCCGCCTG 
AGGCTGCTGC TGCCTGGGAA GCCAGACAAG TCTGGCCGGC CCATCAGTTT CATGGTGGTC 
TTCATCACCC CGAACCCCCT GAGCAAGATT TCCTGGGTCA ACAGATTACA CTTGGCAAAG 
ATCGGACTAA GGGAGGAGAA CCAGCCAGGA TGGCTGTGTC CCGATGAGGA CAAGAAAAGC 
AAAAACCCGT TCTGGTGCCC CATCCTGGCC TGCTGCGTCC CCGCCTTCTC CTCCCGGGCC 
CTCAGCCTGC AGCTTGGCGG TCTGGTCCAC AGTCCTGTTA ACTCTCCCCT GCTGGGCTTC 
TCGGCTGTCA GCACTTCCCT TCCACAGGGC TACCTTTGGG TTGGCGGTGG TCAAGAGGGT 
GCTGGTGGCC AGGTGGACAT CTTCTCCCTG AACCGGCCTT CACCTCGCAC GGTCAAGTCC 
TTCCCAGTGG CAGCCCCTGT GCTTTGCATA GAGTATATTC CAGATCCGGA GGAGGAGGCT 
GAGGGTGGAG AGGAGAGCCG GGCGGCCACC GATCCCTCGG TCACAGTGCA TCCCACTGTC 
TGCCTCGGCT TGCAGGATGG CAGCATCCTG CTCTATGGCA GTGTAGACAC TGGTACCCAG 
TGCCTGGCCA CCTGCAAGAG CCCAGGCCCG CAGCCCGTGC TCTGTCTGCG TCACAGCCCC 
TTCTACCTGC TTGCCGGCCT TCAGGACGGG ACCCTCGCTG CCTATCCTCG GACCAGTGGT 
GACATTCCCT GGGACCTGGA GAGCCCTCCC ATGTGCATAA CTGTGGGCCC AGGGCCGATT 
CGCACGCTGC TGAGCCTGGA GGATGCCGCC TGGGCCAGCT GCGGGCCAAG GGTCACTGTA 
CTAGATGCTG CCACTCTGCA GACTCAGCAA AGCTTCGAGG CGCACCAGGA TGAGGCGGTG 
AGTGTCACTC ACATGGTGAA AGCCGGCAGC GGTGTCTGGA TGGCCTTCTC CTCTGGCTCT 
TCCATCCGTC TCTTCCACAC CGAGACTCTG GAGCACCTTC AGGAGATCAA CATCGCCACC 
AGGACCACCT TCCTCCTGCC AGGCCAAAAG CACCTATGTG TCACCAGCCT CCTCATCTGC 
CAGGGTCTGC TCTGGGTAGG CACTGACCAG GGTGTCATTG TCCTGTTGCC TGTACCCCGA 
CTGGAGGGCA TCCCCAAGAT CACAGGGAAA GGCATGGTGT CTCTCAATGG TCACTGTGGA 
CCTGTGGCCT TCCTGGCTGT GGCCATGAGC ATCCTGGCCC CTGACATCCT GCGGAGTGAC 
CAGGAAGAGG CTGAGGGACC ACAGGCCGAG GAGGACAAGC CGGACGGGCA GGCTCATGAA 
ACTGTGCCTG GGCCTGACAG CCACACGGCT CGGGAGCTGA CCCGCAAGAA AGGCATCTTG 
CTTCAATACC GCCTGCGCTC CACGGCCCAC CTCCCCGGGC CCCTGCTGTC TGTGCGGGAG 
CCAGCTCCTG CCGATGGCTC GGCTCTGGAA CACAGTGAGG AGGACGGGTC CATCTATGAG 
ATGGCCGATG ATCCTGACGT CTGGGTCCGG AGCCGGCCCT GTGCCCGTGA CGCCCACCGC 
AAAGAGATCT GCTCTGTGGC TATCATCTCT GGTGGACAAG GCTATCGCCA TTTCGGCGGT 
GCTCCAGGAG GCCTGAGTGG GCGGCCGGCC CCGTGCAGCG AGACAGACAG CACACTTCTC 
ATCTGGCAGG TGCCCTTGGC TCTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_029539500.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_029395360.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OMv15201
Clone ID Related Accession (Same CDS sequence)	XM_029539500.1 , XM_021199838.1 , XM_029539495.1 , XM_029539496.1 , XM_029539497.1 , XM_029539498.1 , XM_029539499.1
Accession Version	XM_029539500.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3843bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_029395360.1
CDS	63..3905
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKLSPDLTRLKERYVRTKRDILALRVGGRDMQELKLKCDCKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_029539500.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X6, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_029539500.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_021199838.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055497.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X1, mRNA.

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CloneID	OMv15201
Clone ID Related Accession (Same CDS sequence)	XM_029539500.1 , XM_021199838.1 , XM_029539495.1 , XM_029539496.1 , XM_029539497.1 , XM_029539498.1 , XM_029539499.1
Accession Version	XM_021199838.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3843bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-05-18
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055497.1
CDS	158..4000
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKLSPDLTRLKERYVRTKRDILALRVGGRDMQELKLKCDCKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199838.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199838.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_029539495.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_029395355.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMv15201
Clone ID Related Accession (Same CDS sequence)	XM_029539500.1 , XM_021199838.1 , XM_029539495.1 , XM_029539496.1 , XM_029539497.1 , XM_029539498.1 , XM_029539499.1
Accession Version	XM_029539495.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3843bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_029395355.1
CDS	191..4033
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKLSPDLTRLKERYVRTKRDILALRVGGRDMQELKLKCDCKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_029539495.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_029539495.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_029539496.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_029395356.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMv15201
Clone ID Related Accession (Same CDS sequence)	XM_029539500.1 , XM_021199838.1 , XM_029539495.1 , XM_029539496.1 , XM_029539497.1 , XM_029539498.1 , XM_029539499.1
Accession Version	XM_029539496.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3843bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_029395356.1
CDS	139..3981
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKLSPDLTRLKERYVRTKRDILALRVGGRDMQELKLKCDCKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_029539496.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_029539496.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_029539497.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_029395357.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X3, mRNA.

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CloneID	OMv15201
Clone ID Related Accession (Same CDS sequence)	XM_029539500.1 , XM_021199838.1 , XM_029539495.1 , XM_029539496.1 , XM_029539497.1 , XM_029539498.1 , XM_029539499.1
Accession Version	XM_029539497.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3843bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_029395357.1
CDS	167..4009
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKLSPDLTRLKERYVRTKRDILALRVGGRDMQELKLKCDCKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_029539497.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_029539497.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_029539498.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_029395358.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OMv15201
Clone ID Related Accession (Same CDS sequence)	XM_029539500.1 , XM_021199838.1 , XM_029539495.1 , XM_029539496.1 , XM_029539497.1 , XM_029539498.1 , XM_029539499.1
Accession Version	XM_029539498.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3843bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_029395358.1
CDS	63..3905
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKLSPDLTRLKERYVRTKRDILALRVGGRDMQELKLKCDCKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_029539498.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_029539498.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_029539499.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_029395359.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OMv15201
Clone ID Related Accession (Same CDS sequence)	XM_029539500.1 , XM_021199838.1 , XM_029539495.1 , XM_029539496.1 , XM_029539497.1 , XM_029539498.1 , XM_029539499.1
Accession Version	XM_029539499.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3843bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_029395359.1
CDS	305..4147
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKLSPDLTRLKERYVRTKRDILALRVGGRDMQELKLKCDCKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_029539499.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X5, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_029539499.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_021199839.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055498.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X7, mRNA.

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CloneID	OMv15202
Clone ID Related Accession (Same CDS sequence)	XM_021199839.1
Accession Version	XM_021199839.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3828bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGGGCCA GCTGGAGATC 
AGCAGCCTGG TGCCTCTGGG GCCCAAGTAC GTGGTGAAGT GGAACACGGC TCTGCCTCAG 
GTGCAAGTGG TAGAGGTGGG TCAGGACAGC GGTGCCTATG ACAAGGACAA TCTGCTCATC 
CAGCATGCTG GAGCCAAGAA GGCCACCACT GCAGGGCAGG CCCAGAACAA GGTGTACCTG 
GGCCCCCCAC GCCTCTTCCA GGAGCTGCAG GACCTGCAGA AGGACCTGGC AGTGGTGGAA 
CAGATCACGC TGCTCATCAG CACCTTGCAT GGCACTTACC AGAATCTGAA CATGACTGTG 
GCCCAAGACT GGTGCCTGGC CCTGCAGAGG CTGATGCGCG TGAAGGAGGA GGAGATCCAC 
TCGGCTAACA AGTGCCGCCT GAGGCTGCTG CTGCCTGGGA AGCCAGACAA GTCTGGCCGG 
CCCATCAGTT TCATGGTGGT CTTCATCACC CCGAACCCCC TGAGCAAGAT TTCCTGGGTC 
AACAGATTAC ACTTGGCAAA GATCGGACTA AGGGAGGAGA ACCAGCCAGG ATGGCTGTGT 
CCCGATGAGG ACAAGAAAAG CAAAAACCCG TTCTGGTGCC CCATCCTGGC CTGCTGCGTC 
CCCGCCTTCT CCTCCCGGGC CCTCAGCCTG CAGCTTGGCG GTCTGGTCCA CAGTCCTGTT 
AACTCTCCCC TGCTGGGCTT CTCGGCTGTC AGCACTTCCC TTCCACAGGG CTACCTTTGG 
GTTGGCGGTG GTCAAGAGGG TGCTGGTGGC CAGGTGGACA TCTTCTCCCT GAACCGGCCT 
TCACCTCGCA CGGTCAAGTC CTTCCCAGTG GCAGCCCCTG TGCTTTGCAT AGAGTATATT 
CCAGATCCGG AGGAGGAGGC TGAGGGTGGA GAGGAGAGCC GGGCGGCCAC CGATCCCTCG 
GTCACAGTGC ATCCCACTGT CTGCCTCGGC TTGCAGGATG GCAGCATCCT GCTCTATGGC 
AGTGTAGACA CTGGTACCCA GTGCCTGGCC ACCTGCAAGA GCCCAGGCCC GCAGCCCGTG 
CTCTGTCTGC GTCACAGCCC CTTCTACCTG CTTGCCGGCC TTCAGGACGG GACCCTCGCT 
GCCTATCCTC GGACCAGTGG TGACATTCCC TGGGACCTGG AGAGCCCTCC CATGTGCATA 
ACTGTGGGCC CAGGGCCGAT TCGCACGCTG CTGAGCCTGG AGGATGCCGC CTGGGCCAGC 
TGCGGGCCAA GGGTCACTGT ACTAGATGCT GCCACTCTGC AGACTCAGCA AAGCTTCGAG 
GCGCACCAGG ATGAGGCGGT GAGTGTCACT CACATGGTGA AAGCCGGCAG CGGTGTCTGG 
ATGGCCTTCT CCTCTGGCTC TTCCATCCGT CTCTTCCACA CCGAGACTCT GGAGCACCTT 
CAGGAGATCA ACATCGCCAC CAGGACCACC TTCCTCCTGC CAGGCCAAAA GCACCTATGT 
GTCACCAGCC TCCTCATCTG CCAGGGTCTG CTCTGGGTAG GCACTGACCA GGGTGTCATT 
GTCCTGTTGC CTGTACCCCG ACTGGAGGGC ATCCCCAAGA TCACAGGGAA AGGCATGGTG 
TCTCTCAATG GTCACTGTGG ACCTGTGGCC TTCCTGGCTG TGGCCATGAG CATCCTGGCC 
CCTGACATCC TGCGGAGTGA CCAGGAAGAG GCTGAGGGAC CACAGGCCGA GGAGGACAAG 
CCGGACGGGC AGGCTCATGA AACTGTGCCT GGGCCTGACA GCCACACGGC TCGGGAGCTG 
ACCCGCAAGA AAGGCATCTT GCTTCAATAC CGCCTGCGCT CCACGGCCCA CCTCCCCGGG 
CCCCTGCTGT CTGTGCGGGA GCCAGCTCCT GCCGATGGCT CGGCTCTGGA ACACAGTGAG 
GAGGACGGGT CCATCTATGA GATGGCCGAT GATCCTGACG TCTGGGTCCG GAGCCGGCCC 
TGTGCCCGTG ACGCCCACCG CAAAGAGATC TGCTCTGTGG CTATCATCTC TGGTGGACAA 
GGCTATCGCC ATTTCGGCGG TGCTCCAGGA GGCCTGAGTG GGCGGCCGGC CCCGTGCAGC 
GAGACAGACA GCACACTTCT CATCTGGCAG GTGCCCTTGG CTCTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055498.1
CDS	167..3994
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKLSPDLTRLKERYVRTKRDILALRVGGRDMQELKLKCDCKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199839.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X7, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199839.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGGGCCA GCTGGAGATC 
AGCAGCCTGG TGCCTCTGGG GCCCAAGTAC GTGGTGAAGT GGAACACGGC TCTGCCTCAG 
GTGCAAGTGG TAGAGGTGGG TCAGGACAGC GGTGCCTATG ACAAGGACAA TCTGCTCATC 
CAGCATGCTG GAGCCAAGAA GGCCACCACT GCAGGGCAGG CCCAGAACAA GGTGTACCTG 
GGCCCCCCAC GCCTCTTCCA GGAGCTGCAG GACCTGCAGA AGGACCTGGC AGTGGTGGAA 
CAGATCACGC TGCTCATCAG CACCTTGCAT GGCACTTACC AGAATCTGAA CATGACTGTG 
GCCCAAGACT GGTGCCTGGC CCTGCAGAGG CTGATGCGCG TGAAGGAGGA GGAGATCCAC 
TCGGCTAACA AGTGCCGCCT GAGGCTGCTG CTGCCTGGGA AGCCAGACAA GTCTGGCCGG 
CCCATCAGTT TCATGGTGGT CTTCATCACC CCGAACCCCC TGAGCAAGAT TTCCTGGGTC 
AACAGATTAC ACTTGGCAAA GATCGGACTA AGGGAGGAGA ACCAGCCAGG ATGGCTGTGT 
CCCGATGAGG ACAAGAAAAG CAAAAACCCG TTCTGGTGCC CCATCCTGGC CTGCTGCGTC 
CCCGCCTTCT CCTCCCGGGC CCTCAGCCTG CAGCTTGGCG GTCTGGTCCA CAGTCCTGTT 
AACTCTCCCC TGCTGGGCTT CTCGGCTGTC AGCACTTCCC TTCCACAGGG CTACCTTTGG 
GTTGGCGGTG GTCAAGAGGG TGCTGGTGGC CAGGTGGACA TCTTCTCCCT GAACCGGCCT 
TCACCTCGCA CGGTCAAGTC CTTCCCAGTG GCAGCCCCTG TGCTTTGCAT AGAGTATATT 
CCAGATCCGG AGGAGGAGGC TGAGGGTGGA GAGGAGAGCC GGGCGGCCAC CGATCCCTCG 
GTCACAGTGC ATCCCACTGT CTGCCTCGGC TTGCAGGATG GCAGCATCCT GCTCTATGGC 
AGTGTAGACA CTGGTACCCA GTGCCTGGCC ACCTGCAAGA GCCCAGGCCC GCAGCCCGTG 
CTCTGTCTGC GTCACAGCCC CTTCTACCTG CTTGCCGGCC TTCAGGACGG GACCCTCGCT 
GCCTATCCTC GGACCAGTGG TGACATTCCC TGGGACCTGG AGAGCCCTCC CATGTGCATA 
ACTGTGGGCC CAGGGCCGAT TCGCACGCTG CTGAGCCTGG AGGATGCCGC CTGGGCCAGC 
TGCGGGCCAA GGGTCACTGT ACTAGATGCT GCCACTCTGC AGACTCAGCA AAGCTTCGAG 
GCGCACCAGG ATGAGGCGGT GAGTGTCACT CACATGGTGA AAGCCGGCAG CGGTGTCTGG 
ATGGCCTTCT CCTCTGGCTC TTCCATCCGT CTCTTCCACA CCGAGACTCT GGAGCACCTT 
CAGGAGATCA ACATCGCCAC CAGGACCACC TTCCTCCTGC CAGGCCAAAA GCACCTATGT 
GTCACCAGCC TCCTCATCTG CCAGGGTCTG CTCTGGGTAG GCACTGACCA GGGTGTCATT 
GTCCTGTTGC CTGTACCCCG ACTGGAGGGC ATCCCCAAGA TCACAGGGAA AGGCATGGTG 
TCTCTCAATG GTCACTGTGG ACCTGTGGCC TTCCTGGCTG TGGCCATGAG CATCCTGGCC 
CCTGACATCC TGCGGAGTGA CCAGGAAGAG GCTGAGGGAC CACAGGCCGA GGAGGACAAG 
CCGGACGGGC AGGCTCATGA AACTGTGCCT GGGCCTGACA GCCACACGGC TCGGGAGCTG 
ACCCGCAAGA AAGGCATCTT GCTTCAATAC CGCCTGCGCT CCACGGCCCA CCTCCCCGGG 
CCCCTGCTGT CTGTGCGGGA GCCAGCTCCT GCCGATGGCT CGGCTCTGGA ACACAGTGAG 
GAGGACGGGT CCATCTATGA GATGGCCGAT GATCCTGACG TCTGGGTCCG GAGCCGGCCC 
TGTGCCCGTG ACGCCCACCG CAAAGAGATC TGCTCTGTGG CTATCATCTC TGGTGGACAA 
GGCTATCGCC ATTTCGGCGG TGCTCCAGGA GGCCTGAGTG GGCGGCCGGC CCCGTGCAGC 
GAGACAGACA GCACACTTCT CATCTGGCAG GTGCCCTTGG CTCTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_021199840.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055499.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OMv15203
Clone ID Related Accession (Same CDS sequence)	XM_021199840.1
Accession Version	XM_021199840.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3843bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-05-18
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGTA CTTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055499.1
CDS	39..3881
Translation	MASSNPPPQPAIGTSLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKLSPDLTRLKERYVRTKRDILALRVGGRDMQELKLKCDCKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199840.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199840.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGTA CTTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGCCCTC CAACCACAGG 
GGCCAGCTGG AGATCAGCAG CCTGGTGCCT CTGGGGCCCA AGTACGTGGT GAAGTGGAAC 
ACGGCTCTGC CTCAGGTGCA AGTGGTAGAG GTGGGTCAGG ACAGCGGTGC CTATGACAAG 
GACAATCTGC TCATCCAGCA TGCTGGAGCC AAGAAGGCCA CCACTGCAGG GCAGGCCCAG 
AACAAGGTGT ACCTGGGCCC CCCACGCCTC TTCCAGGAGC TGCAGGACCT GCAGAAGGAC 
CTGGCAGTGG TGGAACAGAT CACGCTGCTC ATCAGCACCT TGCATGGCAC TTACCAGAAT 
CTGAACATGA CTGTGGCCCA AGACTGGTGC CTGGCCCTGC AGAGGCTGAT GCGCGTGAAG 
GAGGAGGAGA TCCACTCGGC TAACAAGTGC CGCCTGAGGC TGCTGCTGCC TGGGAAGCCA 
GACAAGTCTG GCCGGCCCAT CAGTTTCATG GTGGTCTTCA TCACCCCGAA CCCCCTGAGC 
AAGATTTCCT GGGTCAACAG ATTACACTTG GCAAAGATCG GACTAAGGGA GGAGAACCAG 
CCAGGATGGC TGTGTCCCGA TGAGGACAAG AAAAGCAAAA ACCCGTTCTG GTGCCCCATC 
CTGGCCTGCT GCGTCCCCGC CTTCTCCTCC CGGGCCCTCA GCCTGCAGCT TGGCGGTCTG 
GTCCACAGTC CTGTTAACTC TCCCCTGCTG GGCTTCTCGG CTGTCAGCAC TTCCCTTCCA 
CAGGGCTACC TTTGGGTTGG CGGTGGTCAA GAGGGTGCTG GTGGCCAGGT GGACATCTTC 
TCCCTGAACC GGCCTTCACC TCGCACGGTC AAGTCCTTCC CAGTGGCAGC CCCTGTGCTT 
TGCATAGAGT ATATTCCAGA TCCGGAGGAG GAGGCTGAGG GTGGAGAGGA GAGCCGGGCG 
GCCACCGATC CCTCGGTCAC AGTGCATCCC ACTGTCTGCC TCGGCTTGCA GGATGGCAGC 
ATCCTGCTCT ATGGCAGTGT AGACACTGGT ACCCAGTGCC TGGCCACCTG CAAGAGCCCA 
GGCCCGCAGC CCGTGCTCTG TCTGCGTCAC AGCCCCTTCT ACCTGCTTGC CGGCCTTCAG 
GACGGGACCC TCGCTGCCTA TCCTCGGACC AGTGGTGACA TTCCCTGGGA CCTGGAGAGC 
CCTCCCATGT GCATAACTGT GGGCCCAGGG CCGATTCGCA CGCTGCTGAG CCTGGAGGAT 
GCCGCCTGGG CCAGCTGCGG GCCAAGGGTC ACTGTACTAG ATGCTGCCAC TCTGCAGACT 
CAGCAAAGCT TCGAGGCGCA CCAGGATGAG GCGGTGAGTG TCACTCACAT GGTGAAAGCC 
GGCAGCGGTG TCTGGATGGC CTTCTCCTCT GGCTCTTCCA TCCGTCTCTT CCACACCGAG 
ACTCTGGAGC ACCTTCAGGA GATCAACATC GCCACCAGGA CCACCTTCCT CCTGCCAGGC 
CAAAAGCACC TATGTGTCAC CAGCCTCCTC ATCTGCCAGG GTCTGCTCTG GGTAGGCACT 
GACCAGGGTG TCATTGTCCT GTTGCCTGTA CCCCGACTGG AGGGCATCCC CAAGATCACA 
GGGAAAGGCA TGGTGTCTCT CAATGGTCAC TGTGGACCTG TGGCCTTCCT GGCTGTGGCC 
ATGAGCATCC TGGCCCCTGA CATCCTGCGG AGTGACCAGG AAGAGGCTGA GGGACCACAG 
GCCGAGGAGG ACAAGCCGGA CGGGCAGGCT CATGAAACTG TGCCTGGGCC TGACAGCCAC 
ACGGCTCGGG AGCTGACCCG CAAGAAAGGC ATCTTGCTTC AATACCGCCT GCGCTCCACG 
GCCCACCTCC CCGGGCCCCT GCTGTCTGTG CGGGAGCCAG CTCCTGCCGA TGGCTCGGCT 
CTGGAACACA GTGAGGAGGA CGGGTCCATC TATGAGATGG CCGATGATCC TGACGTCTGG 
GTCCGGAGCC GGCCCTGTGC CCGTGACGCC CACCGCAAAG AGATCTGCTC TGTGGCTATC 
ATCTCTGGTG GACAAGGCTA TCGCCATTTC GGCGGTGCTC CAGGAGGCCT GAGTGGGCGG 
CCGGCCCCGT GCAGCGAGAC AGACAGCACA CTTCTCATCT GGCAGGTGCC CTTGGCTCTA 
TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_021199841.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055500.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OMv15204
Clone ID Related Accession (Same CDS sequence)	XM_021199841.1
Accession Version	XM_021199841.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3828bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-05-18
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGTA CTTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGGGCCA GCTGGAGATC 
AGCAGCCTGG TGCCTCTGGG GCCCAAGTAC GTGGTGAAGT GGAACACGGC TCTGCCTCAG 
GTGCAAGTGG TAGAGGTGGG TCAGGACAGC GGTGCCTATG ACAAGGACAA TCTGCTCATC 
CAGCATGCTG GAGCCAAGAA GGCCACCACT GCAGGGCAGG CCCAGAACAA GGTGTACCTG 
GGCCCCCCAC GCCTCTTCCA GGAGCTGCAG GACCTGCAGA AGGACCTGGC AGTGGTGGAA 
CAGATCACGC TGCTCATCAG CACCTTGCAT GGCACTTACC AGAATCTGAA CATGACTGTG 
GCCCAAGACT GGTGCCTGGC CCTGCAGAGG CTGATGCGCG TGAAGGAGGA GGAGATCCAC 
TCGGCTAACA AGTGCCGCCT GAGGCTGCTG CTGCCTGGGA AGCCAGACAA GTCTGGCCGG 
CCCATCAGTT TCATGGTGGT CTTCATCACC CCGAACCCCC TGAGCAAGAT TTCCTGGGTC 
AACAGATTAC ACTTGGCAAA GATCGGACTA AGGGAGGAGA ACCAGCCAGG ATGGCTGTGT 
CCCGATGAGG ACAAGAAAAG CAAAAACCCG TTCTGGTGCC CCATCCTGGC CTGCTGCGTC 
CCCGCCTTCT CCTCCCGGGC CCTCAGCCTG CAGCTTGGCG GTCTGGTCCA CAGTCCTGTT 
AACTCTCCCC TGCTGGGCTT CTCGGCTGTC AGCACTTCCC TTCCACAGGG CTACCTTTGG 
GTTGGCGGTG GTCAAGAGGG TGCTGGTGGC CAGGTGGACA TCTTCTCCCT GAACCGGCCT 
TCACCTCGCA CGGTCAAGTC CTTCCCAGTG GCAGCCCCTG TGCTTTGCAT AGAGTATATT 
CCAGATCCGG AGGAGGAGGC TGAGGGTGGA GAGGAGAGCC GGGCGGCCAC CGATCCCTCG 
GTCACAGTGC ATCCCACTGT CTGCCTCGGC TTGCAGGATG GCAGCATCCT GCTCTATGGC 
AGTGTAGACA CTGGTACCCA GTGCCTGGCC ACCTGCAAGA GCCCAGGCCC GCAGCCCGTG 
CTCTGTCTGC GTCACAGCCC CTTCTACCTG CTTGCCGGCC TTCAGGACGG GACCCTCGCT 
GCCTATCCTC GGACCAGTGG TGACATTCCC TGGGACCTGG AGAGCCCTCC CATGTGCATA 
ACTGTGGGCC CAGGGCCGAT TCGCACGCTG CTGAGCCTGG AGGATGCCGC CTGGGCCAGC 
TGCGGGCCAA GGGTCACTGT ACTAGATGCT GCCACTCTGC AGACTCAGCA AAGCTTCGAG 
GCGCACCAGG ATGAGGCGGT GAGTGTCACT CACATGGTGA AAGCCGGCAG CGGTGTCTGG 
ATGGCCTTCT CCTCTGGCTC TTCCATCCGT CTCTTCCACA CCGAGACTCT GGAGCACCTT 
CAGGAGATCA ACATCGCCAC CAGGACCACC TTCCTCCTGC CAGGCCAAAA GCACCTATGT 
GTCACCAGCC TCCTCATCTG CCAGGGTCTG CTCTGGGTAG GCACTGACCA GGGTGTCATT 
GTCCTGTTGC CTGTACCCCG ACTGGAGGGC ATCCCCAAGA TCACAGGGAA AGGCATGGTG 
TCTCTCAATG GTCACTGTGG ACCTGTGGCC TTCCTGGCTG TGGCCATGAG CATCCTGGCC 
CCTGACATCC TGCGGAGTGA CCAGGAAGAG GCTGAGGGAC CACAGGCCGA GGAGGACAAG 
CCGGACGGGC AGGCTCATGA AACTGTGCCT GGGCCTGACA GCCACACGGC TCGGGAGCTG 
ACCCGCAAGA AAGGCATCTT GCTTCAATAC CGCCTGCGCT CCACGGCCCA CCTCCCCGGG 
CCCCTGCTGT CTGTGCGGGA GCCAGCTCCT GCCGATGGCT CGGCTCTGGA ACACAGTGAG 
GAGGACGGGT CCATCTATGA GATGGCCGAT GATCCTGACG TCTGGGTCCG GAGCCGGCCC 
TGTGCCCGTG ACGCCCACCG CAAAGAGATC TGCTCTGTGG CTATCATCTC TGGTGGACAA 
GGCTATCGCC ATTTCGGCGG TGCTCCAGGA GGCCTGAGTG GGCGGCCGGC CCCGTGCAGC 
GAGACAGACA GCACACTTCT CATCTGGCAG GTGCCCTTGG CTCTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055500.1
CDS	39..3866
Translation	MASSNPPPQPAIGTSLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKLSPDLTRLKERYVRTKRDILALRVGGRDMQELKLKCDCKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199841.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199841.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGTA CTTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGCTTTCTC CAGACCTGAC TAGGCTAAAG GAGAGATACG TCAGGACTAA GAGAGACATC 
TTGGCTTTGA GAGTTGGGGG TAGAGACATG CAGGAGCTGA AGCTCAAGTG CGATTGTAAG 
ATGACCCAGC TCATGAAGGC CGCCAAGAGC GGGACCAGGG ATGGGCTGGA GAAGACCCGG 
ATGGCCGTCA TGCGAAAAGT CTCCTTTTTG CACAGGAAAG ATGTCCTCGG TGACTCGGAA 
GAAGAAGATA TGGGGCTCCT GGAGGTTGGT GTGACGGATA TCAAACCTCC CGCGCCAGAG 
CTCGGCCCCA TGCCGGATGG CTTGAGTCCT CAGCAGGTGG TCCGGAGACA CATCCTGGGC 
TCCATCGTGC AGAGCGAAGG CAGCTATGTG GAGTCACTGA AGAGGATACT CCAGGATTAT 
CGTAACCCAC TAATGGAGAT GGAGCCCAAG GCGCTGAGCG CTCGCAAGTG TCAGGTGGTG 
TTCTTCCGCG TGAAGGAGAT TCTACATTGT CACTCCATGT TCCAGATTGC TCTGTCCTCC 
CGCGTGGCCG AATGGGACTC CACAGAGAAG ATTGGAGACC TCTTTGTGGC ATCATTCTCC 
AAGTCCATGG TCCTAGACGT ATACAGCGAC TATGTGAACA ACTTCACCAA TGCCATGTCC 
ATCATCAAGA AGGCCTGTCT CACCAAGCCA GCGTTCCTTG AGTTCCTCAA GCGGCGGCAG 
GTGTGCAGTA CGGACCGAGT CACCCTCTAT GGGTTGATGG TGAAACCCGT TCAGAGATTT 
CCACAGTTCA TCCTCCTGCT CCAGGACATG CTGAAGAACA CTCCCAGGGG CCACCCTGAC 
AGGCTGTCGC TGCAGTTAGC CCTCACGGAG CTGGAGACGC TGGCGGAGAA GCTGAATGAA 
CAGAAGCGGT TGGCCGATCA GGTGGCTGAG ATCCAGCAGC TGACCAAGAG TGTCAGTGAC 
CGCAGCAGCC TCAACAAGCT GTTGACCTCT GGCCAGCGGC AGCTGCTTCT GTGTGAGACA 
CTGACCGAGA CGGTGTATGG AGACCGAGGG CAGCTGATCA AGTCCAAGGA GCGCAGGGTC 
TTCCTGCTCA ATGACATGCT GGTCTGCGCC AACATCAACT TCAAGGGCCA GCTGGAGATC 
AGCAGCCTGG TGCCTCTGGG GCCCAAGTAC GTGGTGAAGT GGAACACGGC TCTGCCTCAG 
GTGCAAGTGG TAGAGGTGGG TCAGGACAGC GGTGCCTATG ACAAGGACAA TCTGCTCATC 
CAGCATGCTG GAGCCAAGAA GGCCACCACT GCAGGGCAGG CCCAGAACAA GGTGTACCTG 
GGCCCCCCAC GCCTCTTCCA GGAGCTGCAG GACCTGCAGA AGGACCTGGC AGTGGTGGAA 
CAGATCACGC TGCTCATCAG CACCTTGCAT GGCACTTACC AGAATCTGAA CATGACTGTG 
GCCCAAGACT GGTGCCTGGC CCTGCAGAGG CTGATGCGCG TGAAGGAGGA GGAGATCCAC 
TCGGCTAACA AGTGCCGCCT GAGGCTGCTG CTGCCTGGGA AGCCAGACAA GTCTGGCCGG 
CCCATCAGTT TCATGGTGGT CTTCATCACC CCGAACCCCC TGAGCAAGAT TTCCTGGGTC 
AACAGATTAC ACTTGGCAAA GATCGGACTA AGGGAGGAGA ACCAGCCAGG ATGGCTGTGT 
CCCGATGAGG ACAAGAAAAG CAAAAACCCG TTCTGGTGCC CCATCCTGGC CTGCTGCGTC 
CCCGCCTTCT CCTCCCGGGC CCTCAGCCTG CAGCTTGGCG GTCTGGTCCA CAGTCCTGTT 
AACTCTCCCC TGCTGGGCTT CTCGGCTGTC AGCACTTCCC TTCCACAGGG CTACCTTTGG 
GTTGGCGGTG GTCAAGAGGG TGCTGGTGGC CAGGTGGACA TCTTCTCCCT GAACCGGCCT 
TCACCTCGCA CGGTCAAGTC CTTCCCAGTG GCAGCCCCTG TGCTTTGCAT AGAGTATATT 
CCAGATCCGG AGGAGGAGGC TGAGGGTGGA GAGGAGAGCC GGGCGGCCAC CGATCCCTCG 
GTCACAGTGC ATCCCACTGT CTGCCTCGGC TTGCAGGATG GCAGCATCCT GCTCTATGGC 
AGTGTAGACA CTGGTACCCA GTGCCTGGCC ACCTGCAAGA GCCCAGGCCC GCAGCCCGTG 
CTCTGTCTGC GTCACAGCCC CTTCTACCTG CTTGCCGGCC TTCAGGACGG GACCCTCGCT 
GCCTATCCTC GGACCAGTGG TGACATTCCC TGGGACCTGG AGAGCCCTCC CATGTGCATA 
ACTGTGGGCC CAGGGCCGAT TCGCACGCTG CTGAGCCTGG AGGATGCCGC CTGGGCCAGC 
TGCGGGCCAA GGGTCACTGT ACTAGATGCT GCCACTCTGC AGACTCAGCA AAGCTTCGAG 
GCGCACCAGG ATGAGGCGGT GAGTGTCACT CACATGGTGA AAGCCGGCAG CGGTGTCTGG 
ATGGCCTTCT CCTCTGGCTC TTCCATCCGT CTCTTCCACA CCGAGACTCT GGAGCACCTT 
CAGGAGATCA ACATCGCCAC CAGGACCACC TTCCTCCTGC CAGGCCAAAA GCACCTATGT 
GTCACCAGCC TCCTCATCTG CCAGGGTCTG CTCTGGGTAG GCACTGACCA GGGTGTCATT 
GTCCTGTTGC CTGTACCCCG ACTGGAGGGC ATCCCCAAGA TCACAGGGAA AGGCATGGTG 
TCTCTCAATG GTCACTGTGG ACCTGTGGCC TTCCTGGCTG TGGCCATGAG CATCCTGGCC 
CCTGACATCC TGCGGAGTGA CCAGGAAGAG GCTGAGGGAC CACAGGCCGA GGAGGACAAG 
CCGGACGGGC AGGCTCATGA AACTGTGCCT GGGCCTGACA GCCACACGGC TCGGGAGCTG 
ACCCGCAAGA AAGGCATCTT GCTTCAATAC CGCCTGCGCT CCACGGCCCA CCTCCCCGGG 
CCCCTGCTGT CTGTGCGGGA GCCAGCTCCT GCCGATGGCT CGGCTCTGGA ACACAGTGAG 
GAGGACGGGT CCATCTATGA GATGGCCGAT GATCCTGACG TCTGGGTCCG GAGCCGGCCC 
TGTGCCCGTG ACGCCCACCG CAAAGAGATC TGCTCTGTGG CTATCATCTC TGGTGGACAA 
GGCTATCGCC ATTTCGGCGG TGCTCCAGGA GGCCTGAGTG GGCGGCCGGC CCCGTGCAGC 
GAGACAGACA GCACACTTCT CATCTGGCAG GTGCCCTTGG CTCTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_029539501.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_029395361.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X8, mRNA.

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CloneID	OMv15205
Clone ID Related Accession (Same CDS sequence)	XM_029539501.1 , XM_021199842.1
Accession Version	XM_029539501.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3726bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGATGACCC AGCTCATGAA GGCCGCCAAG AGCGGGACCA GGGATGGGCT GGAGAAGACC 
CGGATGGCCG TCATGCGAAA AGTCTCCTTT TTGCACAGGA AAGATGTCCT CGGTGACTCG 
GAAGAAGAAG ATATGGGGCT CCTGGAGGTT GGTGTGACGG ATATCAAACC TCCCGCGCCA 
GAGCTCGGCC CCATGCCGGA TGGCTTGAGT CCTCAGCAGG TGGTCCGGAG ACACATCCTG 
GGCTCCATCG TGCAGAGCGA AGGCAGCTAT GTGGAGTCAC TGAAGAGGAT ACTCCAGGAT 
TATCGTAACC CACTAATGGA GATGGAGCCC AAGGCGCTGA GCGCTCGCAA GTGTCAGGTG 
GTGTTCTTCC GCGTGAAGGA GATTCTACAT TGTCACTCCA TGTTCCAGAT TGCTCTGTCC 
TCCCGCGTGG CCGAATGGGA CTCCACAGAG AAGATTGGAG ACCTCTTTGT GGCATCATTC 
TCCAAGTCCA TGGTCCTAGA CGTATACAGC GACTATGTGA ACAACTTCAC CAATGCCATG 
TCCATCATCA AGAAGGCCTG TCTCACCAAG CCAGCGTTCC TTGAGTTCCT CAAGCGGCGG 
CAGGTGTGCA GTACGGACCG AGTCACCCTC TATGGGTTGA TGGTGAAACC CGTTCAGAGA 
TTTCCACAGT TCATCCTCCT GCTCCAGGAC ATGCTGAAGA ACACTCCCAG GGGCCACCCT 
GACAGGCTGT CGCTGCAGTT AGCCCTCACG GAGCTGGAGA CGCTGGCGGA GAAGCTGAAT 
GAACAGAAGC GGTTGGCCGA TCAGGTGGCT GAGATCCAGC AGCTGACCAA GAGTGTCAGT 
GACCGCAGCA GCCTCAACAA GCTGTTGACC TCTGGCCAGC GGCAGCTGCT TCTGTGTGAG 
ACACTGACCG AGACGGTGTA TGGAGACCGA GGGCAGCTGA TCAAGTCCAA GGAGCGCAGG 
GTCTTCCTGC TCAATGACAT GCTGGTCTGC GCCAACATCA ACTTCAAGCC CTCCAACCAC 
AGGGGCCAGC TGGAGATCAG CAGCCTGGTG CCTCTGGGGC CCAAGTACGT GGTGAAGTGG 
AACACGGCTC TGCCTCAGGT GCAAGTGGTA GAGGTGGGTC AGGACAGCGG TGCCTATGAC 
AAGGACAATC TGCTCATCCA GCATGCTGGA GCCAAGAAGG CCACCACTGC AGGGCAGGCC 
CAGAACAAGG TGTACCTGGG CCCCCCACGC CTCTTCCAGG AGCTGCAGGA CCTGCAGAAG 
GACCTGGCAG TGGTGGAACA GATCACGCTG CTCATCAGCA CCTTGCATGG CACTTACCAG 
AATCTGAACA TGACTGTGGC CCAAGACTGG TGCCTGGCCC TGCAGAGGCT GATGCGCGTG 
AAGGAGGAGG AGATCCACTC GGCTAACAAG TGCCGCCTGA GGCTGCTGCT GCCTGGGAAG 
CCAGACAAGT CTGGCCGGCC CATCAGTTTC ATGGTGGTCT TCATCACCCC GAACCCCCTG 
AGCAAGATTT CCTGGGTCAA CAGATTACAC TTGGCAAAGA TCGGACTAAG GGAGGAGAAC 
CAGCCAGGAT GGCTGTGTCC CGATGAGGAC AAGAAAAGCA AAAACCCGTT CTGGTGCCCC 
ATCCTGGCCT GCTGCGTCCC CGCCTTCTCC TCCCGGGCCC TCAGCCTGCA GCTTGGCGGT 
CTGGTCCACA GTCCTGTTAA CTCTCCCCTG CTGGGCTTCT CGGCTGTCAG CACTTCCCTT 
CCACAGGGCT ACCTTTGGGT TGGCGGTGGT CAAGAGGGTG CTGGTGGCCA GGTGGACATC 
TTCTCCCTGA ACCGGCCTTC ACCTCGCACG GTCAAGTCCT TCCCAGTGGC AGCCCCTGTG 
CTTTGCATAG AGTATATTCC AGATCCGGAG GAGGAGGCTG AGGGTGGAGA GGAGAGCCGG 
GCGGCCACCG ATCCCTCGGT CACAGTGCAT CCCACTGTCT GCCTCGGCTT GCAGGATGGC 
AGCATCCTGC TCTATGGCAG TGTAGACACT GGTACCCAGT GCCTGGCCAC CTGCAAGAGC 
CCAGGCCCGC AGCCCGTGCT CTGTCTGCGT CACAGCCCCT TCTACCTGCT TGCCGGCCTT 
CAGGACGGGA CCCTCGCTGC CTATCCTCGG ACCAGTGGTG ACATTCCCTG GGACCTGGAG 
AGCCCTCCCA TGTGCATAAC TGTGGGCCCA GGGCCGATTC GCACGCTGCT GAGCCTGGAG 
GATGCCGCCT GGGCCAGCTG CGGGCCAAGG GTCACTGTAC TAGATGCTGC CACTCTGCAG 
ACTCAGCAAA GCTTCGAGGC GCACCAGGAT GAGGCGGTGA GTGTCACTCA CATGGTGAAA 
GCCGGCAGCG GTGTCTGGAT GGCCTTCTCC TCTGGCTCTT CCATCCGTCT CTTCCACACC 
GAGACTCTGG AGCACCTTCA GGAGATCAAC ATCGCCACCA GGACCACCTT CCTCCTGCCA 
GGCCAAAAGC ACCTATGTGT CACCAGCCTC CTCATCTGCC AGGGTCTGCT CTGGGTAGGC 
ACTGACCAGG GTGTCATTGT CCTGTTGCCT GTACCCCGAC TGGAGGGCAT CCCCAAGATC 
ACAGGGAAAG GCATGGTGTC TCTCAATGGT CACTGTGGAC CTGTGGCCTT CCTGGCTGTG 
GCCATGAGCA TCCTGGCCCC TGACATCCTG CGGAGTGACC AGGAAGAGGC TGAGGGACCA 
CAGGCCGAGG AGGACAAGCC GGACGGGCAG GCTCATGAAA CTGTGCCTGG GCCTGACAGC 
CACACGGCTC GGGAGCTGAC CCGCAAGAAA GGCATCTTGC TTCAATACCG CCTGCGCTCC 
ACGGCCCACC TCCCCGGGCC CCTGCTGTCT GTGCGGGAGC CAGCTCCTGC CGATGGCTCG 
GCTCTGGAAC ACAGTGAGGA GGACGGGTCC ATCTATGAGA TGGCCGATGA TCCTGACGTC 
TGGGTCCGGA GCCGGCCCTG TGCCCGTGAC GCCCACCGCA AAGAGATCTG CTCTGTGGCT 
ATCATCTCTG GTGGACAAGG CTATCGCCAT TTCGGCGGTG CTCCAGGAGG CCTGAGTGGG 
CGGCCGGCCC CGTGCAGCGA GACAGACAGC ACACTTCTCA TCTGGCAGGT GCCCTTGGCT 
CTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_029395361.1
CDS	191..3916
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_029539501.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X8, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_029539501.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGATGACCC AGCTCATGAA GGCCGCCAAG AGCGGGACCA GGGATGGGCT GGAGAAGACC 
CGGATGGCCG TCATGCGAAA AGTCTCCTTT TTGCACAGGA AAGATGTCCT CGGTGACTCG 
GAAGAAGAAG ATATGGGGCT CCTGGAGGTT GGTGTGACGG ATATCAAACC TCCCGCGCCA 
GAGCTCGGCC CCATGCCGGA TGGCTTGAGT CCTCAGCAGG TGGTCCGGAG ACACATCCTG 
GGCTCCATCG TGCAGAGCGA AGGCAGCTAT GTGGAGTCAC TGAAGAGGAT ACTCCAGGAT 
TATCGTAACC CACTAATGGA GATGGAGCCC AAGGCGCTGA GCGCTCGCAA GTGTCAGGTG 
GTGTTCTTCC GCGTGAAGGA GATTCTACAT TGTCACTCCA TGTTCCAGAT TGCTCTGTCC 
TCCCGCGTGG CCGAATGGGA CTCCACAGAG AAGATTGGAG ACCTCTTTGT GGCATCATTC 
TCCAAGTCCA TGGTCCTAGA CGTATACAGC GACTATGTGA ACAACTTCAC CAATGCCATG 
TCCATCATCA AGAAGGCCTG TCTCACCAAG CCAGCGTTCC TTGAGTTCCT CAAGCGGCGG 
CAGGTGTGCA GTACGGACCG AGTCACCCTC TATGGGTTGA TGGTGAAACC CGTTCAGAGA 
TTTCCACAGT TCATCCTCCT GCTCCAGGAC ATGCTGAAGA ACACTCCCAG GGGCCACCCT 
GACAGGCTGT CGCTGCAGTT AGCCCTCACG GAGCTGGAGA CGCTGGCGGA GAAGCTGAAT 
GAACAGAAGC GGTTGGCCGA TCAGGTGGCT GAGATCCAGC AGCTGACCAA GAGTGTCAGT 
GACCGCAGCA GCCTCAACAA GCTGTTGACC TCTGGCCAGC GGCAGCTGCT TCTGTGTGAG 
ACACTGACCG AGACGGTGTA TGGAGACCGA GGGCAGCTGA TCAAGTCCAA GGAGCGCAGG 
GTCTTCCTGC TCAATGACAT GCTGGTCTGC GCCAACATCA ACTTCAAGCC CTCCAACCAC 
AGGGGCCAGC TGGAGATCAG CAGCCTGGTG CCTCTGGGGC CCAAGTACGT GGTGAAGTGG 
AACACGGCTC TGCCTCAGGT GCAAGTGGTA GAGGTGGGTC AGGACAGCGG TGCCTATGAC 
AAGGACAATC TGCTCATCCA GCATGCTGGA GCCAAGAAGG CCACCACTGC AGGGCAGGCC 
CAGAACAAGG TGTACCTGGG CCCCCCACGC CTCTTCCAGG AGCTGCAGGA CCTGCAGAAG 
GACCTGGCAG TGGTGGAACA GATCACGCTG CTCATCAGCA CCTTGCATGG CACTTACCAG 
AATCTGAACA TGACTGTGGC CCAAGACTGG TGCCTGGCCC TGCAGAGGCT GATGCGCGTG 
AAGGAGGAGG AGATCCACTC GGCTAACAAG TGCCGCCTGA GGCTGCTGCT GCCTGGGAAG 
CCAGACAAGT CTGGCCGGCC CATCAGTTTC ATGGTGGTCT TCATCACCCC GAACCCCCTG 
AGCAAGATTT CCTGGGTCAA CAGATTACAC TTGGCAAAGA TCGGACTAAG GGAGGAGAAC 
CAGCCAGGAT GGCTGTGTCC CGATGAGGAC AAGAAAAGCA AAAACCCGTT CTGGTGCCCC 
ATCCTGGCCT GCTGCGTCCC CGCCTTCTCC TCCCGGGCCC TCAGCCTGCA GCTTGGCGGT 
CTGGTCCACA GTCCTGTTAA CTCTCCCCTG CTGGGCTTCT CGGCTGTCAG CACTTCCCTT 
CCACAGGGCT ACCTTTGGGT TGGCGGTGGT CAAGAGGGTG CTGGTGGCCA GGTGGACATC 
TTCTCCCTGA ACCGGCCTTC ACCTCGCACG GTCAAGTCCT TCCCAGTGGC AGCCCCTGTG 
CTTTGCATAG AGTATATTCC AGATCCGGAG GAGGAGGCTG AGGGTGGAGA GGAGAGCCGG 
GCGGCCACCG ATCCCTCGGT CACAGTGCAT CCCACTGTCT GCCTCGGCTT GCAGGATGGC 
AGCATCCTGC TCTATGGCAG TGTAGACACT GGTACCCAGT GCCTGGCCAC CTGCAAGAGC 
CCAGGCCCGC AGCCCGTGCT CTGTCTGCGT CACAGCCCCT TCTACCTGCT TGCCGGCCTT 
CAGGACGGGA CCCTCGCTGC CTATCCTCGG ACCAGTGGTG ACATTCCCTG GGACCTGGAG 
AGCCCTCCCA TGTGCATAAC TGTGGGCCCA GGGCCGATTC GCACGCTGCT GAGCCTGGAG 
GATGCCGCCT GGGCCAGCTG CGGGCCAAGG GTCACTGTAC TAGATGCTGC CACTCTGCAG 
ACTCAGCAAA GCTTCGAGGC GCACCAGGAT GAGGCGGTGA GTGTCACTCA CATGGTGAAA 
GCCGGCAGCG GTGTCTGGAT GGCCTTCTCC TCTGGCTCTT CCATCCGTCT CTTCCACACC 
GAGACTCTGG AGCACCTTCA GGAGATCAAC ATCGCCACCA GGACCACCTT CCTCCTGCCA 
GGCCAAAAGC ACCTATGTGT CACCAGCCTC CTCATCTGCC AGGGTCTGCT CTGGGTAGGC 
ACTGACCAGG GTGTCATTGT CCTGTTGCCT GTACCCCGAC TGGAGGGCAT CCCCAAGATC 
ACAGGGAAAG GCATGGTGTC TCTCAATGGT CACTGTGGAC CTGTGGCCTT CCTGGCTGTG 
GCCATGAGCA TCCTGGCCCC TGACATCCTG CGGAGTGACC AGGAAGAGGC TGAGGGACCA 
CAGGCCGAGG AGGACAAGCC GGACGGGCAG GCTCATGAAA CTGTGCCTGG GCCTGACAGC 
CACACGGCTC GGGAGCTGAC CCGCAAGAAA GGCATCTTGC TTCAATACCG CCTGCGCTCC 
ACGGCCCACC TCCCCGGGCC CCTGCTGTCT GTGCGGGAGC CAGCTCCTGC CGATGGCTCG 
GCTCTGGAAC ACAGTGAGGA GGACGGGTCC ATCTATGAGA TGGCCGATGA TCCTGACGTC 
TGGGTCCGGA GCCGGCCCTG TGCCCGTGAC GCCCACCGCA AAGAGATCTG CTCTGTGGCT 
ATCATCTCTG GTGGACAAGG CTATCGCCAT TTCGGCGGTG CTCCAGGAGG CCTGAGTGGG 
CGGCCGGCCC CGTGCAGCGA GACAGACAGC ACACTTCTCA TCTGGCAGGT GCCCTTGGCT 
CTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_021199842.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055501.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X5, mRNA.

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CloneID	OMv15205
Clone ID Related Accession (Same CDS sequence)	XM_029539501.1 , XM_021199842.1
Accession Version	XM_021199842.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3726bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-05-18
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGATGACCC AGCTCATGAA GGCCGCCAAG AGCGGGACCA GGGATGGGCT GGAGAAGACC 
CGGATGGCCG TCATGCGAAA AGTCTCCTTT TTGCACAGGA AAGATGTCCT CGGTGACTCG 
GAAGAAGAAG ATATGGGGCT CCTGGAGGTT GGTGTGACGG ATATCAAACC TCCCGCGCCA 
GAGCTCGGCC CCATGCCGGA TGGCTTGAGT CCTCAGCAGG TGGTCCGGAG ACACATCCTG 
GGCTCCATCG TGCAGAGCGA AGGCAGCTAT GTGGAGTCAC TGAAGAGGAT ACTCCAGGAT 
TATCGTAACC CACTAATGGA GATGGAGCCC AAGGCGCTGA GCGCTCGCAA GTGTCAGGTG 
GTGTTCTTCC GCGTGAAGGA GATTCTACAT TGTCACTCCA TGTTCCAGAT TGCTCTGTCC 
TCCCGCGTGG CCGAATGGGA CTCCACAGAG AAGATTGGAG ACCTCTTTGT GGCATCATTC 
TCCAAGTCCA TGGTCCTAGA CGTATACAGC GACTATGTGA ACAACTTCAC CAATGCCATG 
TCCATCATCA AGAAGGCCTG TCTCACCAAG CCAGCGTTCC TTGAGTTCCT CAAGCGGCGG 
CAGGTGTGCA GTACGGACCG AGTCACCCTC TATGGGTTGA TGGTGAAACC CGTTCAGAGA 
TTTCCACAGT TCATCCTCCT GCTCCAGGAC ATGCTGAAGA ACACTCCCAG GGGCCACCCT 
GACAGGCTGT CGCTGCAGTT AGCCCTCACG GAGCTGGAGA CGCTGGCGGA GAAGCTGAAT 
GAACAGAAGC GGTTGGCCGA TCAGGTGGCT GAGATCCAGC AGCTGACCAA GAGTGTCAGT 
GACCGCAGCA GCCTCAACAA GCTGTTGACC TCTGGCCAGC GGCAGCTGCT TCTGTGTGAG 
ACACTGACCG AGACGGTGTA TGGAGACCGA GGGCAGCTGA TCAAGTCCAA GGAGCGCAGG 
GTCTTCCTGC TCAATGACAT GCTGGTCTGC GCCAACATCA ACTTCAAGCC CTCCAACCAC 
AGGGGCCAGC TGGAGATCAG CAGCCTGGTG CCTCTGGGGC CCAAGTACGT GGTGAAGTGG 
AACACGGCTC TGCCTCAGGT GCAAGTGGTA GAGGTGGGTC AGGACAGCGG TGCCTATGAC 
AAGGACAATC TGCTCATCCA GCATGCTGGA GCCAAGAAGG CCACCACTGC AGGGCAGGCC 
CAGAACAAGG TGTACCTGGG CCCCCCACGC CTCTTCCAGG AGCTGCAGGA CCTGCAGAAG 
GACCTGGCAG TGGTGGAACA GATCACGCTG CTCATCAGCA CCTTGCATGG CACTTACCAG 
AATCTGAACA TGACTGTGGC CCAAGACTGG TGCCTGGCCC TGCAGAGGCT GATGCGCGTG 
AAGGAGGAGG AGATCCACTC GGCTAACAAG TGCCGCCTGA GGCTGCTGCT GCCTGGGAAG 
CCAGACAAGT CTGGCCGGCC CATCAGTTTC ATGGTGGTCT TCATCACCCC GAACCCCCTG 
AGCAAGATTT CCTGGGTCAA CAGATTACAC TTGGCAAAGA TCGGACTAAG GGAGGAGAAC 
CAGCCAGGAT GGCTGTGTCC CGATGAGGAC AAGAAAAGCA AAAACCCGTT CTGGTGCCCC 
ATCCTGGCCT GCTGCGTCCC CGCCTTCTCC TCCCGGGCCC TCAGCCTGCA GCTTGGCGGT 
CTGGTCCACA GTCCTGTTAA CTCTCCCCTG CTGGGCTTCT CGGCTGTCAG CACTTCCCTT 
CCACAGGGCT ACCTTTGGGT TGGCGGTGGT CAAGAGGGTG CTGGTGGCCA GGTGGACATC 
TTCTCCCTGA ACCGGCCTTC ACCTCGCACG GTCAAGTCCT TCCCAGTGGC AGCCCCTGTG 
CTTTGCATAG AGTATATTCC AGATCCGGAG GAGGAGGCTG AGGGTGGAGA GGAGAGCCGG 
GCGGCCACCG ATCCCTCGGT CACAGTGCAT CCCACTGTCT GCCTCGGCTT GCAGGATGGC 
AGCATCCTGC TCTATGGCAG TGTAGACACT GGTACCCAGT GCCTGGCCAC CTGCAAGAGC 
CCAGGCCCGC AGCCCGTGCT CTGTCTGCGT CACAGCCCCT TCTACCTGCT TGCCGGCCTT 
CAGGACGGGA CCCTCGCTGC CTATCCTCGG ACCAGTGGTG ACATTCCCTG GGACCTGGAG 
AGCCCTCCCA TGTGCATAAC TGTGGGCCCA GGGCCGATTC GCACGCTGCT GAGCCTGGAG 
GATGCCGCCT GGGCCAGCTG CGGGCCAAGG GTCACTGTAC TAGATGCTGC CACTCTGCAG 
ACTCAGCAAA GCTTCGAGGC GCACCAGGAT GAGGCGGTGA GTGTCACTCA CATGGTGAAA 
GCCGGCAGCG GTGTCTGGAT GGCCTTCTCC TCTGGCTCTT CCATCCGTCT CTTCCACACC 
GAGACTCTGG AGCACCTTCA GGAGATCAAC ATCGCCACCA GGACCACCTT CCTCCTGCCA 
GGCCAAAAGC ACCTATGTGT CACCAGCCTC CTCATCTGCC AGGGTCTGCT CTGGGTAGGC 
ACTGACCAGG GTGTCATTGT CCTGTTGCCT GTACCCCGAC TGGAGGGCAT CCCCAAGATC 
ACAGGGAAAG GCATGGTGTC TCTCAATGGT CACTGTGGAC CTGTGGCCTT CCTGGCTGTG 
GCCATGAGCA TCCTGGCCCC TGACATCCTG CGGAGTGACC AGGAAGAGGC TGAGGGACCA 
CAGGCCGAGG AGGACAAGCC GGACGGGCAG GCTCATGAAA CTGTGCCTGG GCCTGACAGC 
CACACGGCTC GGGAGCTGAC CCGCAAGAAA GGCATCTTGC TTCAATACCG CCTGCGCTCC 
ACGGCCCACC TCCCCGGGCC CCTGCTGTCT GTGCGGGAGC CAGCTCCTGC CGATGGCTCG 
GCTCTGGAAC ACAGTGAGGA GGACGGGTCC ATCTATGAGA TGGCCGATGA TCCTGACGTC 
TGGGTCCGGA GCCGGCCCTG TGCCCGTGAC GCCCACCGCA AAGAGATCTG CTCTGTGGCT 
ATCATCTCTG GTGGACAAGG CTATCGCCAT TTCGGCGGTG CTCCAGGAGG CCTGAGTGGG 
CGGCCGGCCC CGTGCAGCGA GACAGACAGC ACACTTCTCA TCTGGCAGGT GCCCTTGGCT 
CTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055501.1
CDS	176..3901
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199842.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X5, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199842.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGATGACCC AGCTCATGAA GGCCGCCAAG AGCGGGACCA GGGATGGGCT GGAGAAGACC 
CGGATGGCCG TCATGCGAAA AGTCTCCTTT TTGCACAGGA AAGATGTCCT CGGTGACTCG 
GAAGAAGAAG ATATGGGGCT CCTGGAGGTT GGTGTGACGG ATATCAAACC TCCCGCGCCA 
GAGCTCGGCC CCATGCCGGA TGGCTTGAGT CCTCAGCAGG TGGTCCGGAG ACACATCCTG 
GGCTCCATCG TGCAGAGCGA AGGCAGCTAT GTGGAGTCAC TGAAGAGGAT ACTCCAGGAT 
TATCGTAACC CACTAATGGA GATGGAGCCC AAGGCGCTGA GCGCTCGCAA GTGTCAGGTG 
GTGTTCTTCC GCGTGAAGGA GATTCTACAT TGTCACTCCA TGTTCCAGAT TGCTCTGTCC 
TCCCGCGTGG CCGAATGGGA CTCCACAGAG AAGATTGGAG ACCTCTTTGT GGCATCATTC 
TCCAAGTCCA TGGTCCTAGA CGTATACAGC GACTATGTGA ACAACTTCAC CAATGCCATG 
TCCATCATCA AGAAGGCCTG TCTCACCAAG CCAGCGTTCC TTGAGTTCCT CAAGCGGCGG 
CAGGTGTGCA GTACGGACCG AGTCACCCTC TATGGGTTGA TGGTGAAACC CGTTCAGAGA 
TTTCCACAGT TCATCCTCCT GCTCCAGGAC ATGCTGAAGA ACACTCCCAG GGGCCACCCT 
GACAGGCTGT CGCTGCAGTT AGCCCTCACG GAGCTGGAGA CGCTGGCGGA GAAGCTGAAT 
GAACAGAAGC GGTTGGCCGA TCAGGTGGCT GAGATCCAGC AGCTGACCAA GAGTGTCAGT 
GACCGCAGCA GCCTCAACAA GCTGTTGACC TCTGGCCAGC GGCAGCTGCT TCTGTGTGAG 
ACACTGACCG AGACGGTGTA TGGAGACCGA GGGCAGCTGA TCAAGTCCAA GGAGCGCAGG 
GTCTTCCTGC TCAATGACAT GCTGGTCTGC GCCAACATCA ACTTCAAGCC CTCCAACCAC 
AGGGGCCAGC TGGAGATCAG CAGCCTGGTG CCTCTGGGGC CCAAGTACGT GGTGAAGTGG 
AACACGGCTC TGCCTCAGGT GCAAGTGGTA GAGGTGGGTC AGGACAGCGG TGCCTATGAC 
AAGGACAATC TGCTCATCCA GCATGCTGGA GCCAAGAAGG CCACCACTGC AGGGCAGGCC 
CAGAACAAGG TGTACCTGGG CCCCCCACGC CTCTTCCAGG AGCTGCAGGA CCTGCAGAAG 
GACCTGGCAG TGGTGGAACA GATCACGCTG CTCATCAGCA CCTTGCATGG CACTTACCAG 
AATCTGAACA TGACTGTGGC CCAAGACTGG TGCCTGGCCC TGCAGAGGCT GATGCGCGTG 
AAGGAGGAGG AGATCCACTC GGCTAACAAG TGCCGCCTGA GGCTGCTGCT GCCTGGGAAG 
CCAGACAAGT CTGGCCGGCC CATCAGTTTC ATGGTGGTCT TCATCACCCC GAACCCCCTG 
AGCAAGATTT CCTGGGTCAA CAGATTACAC TTGGCAAAGA TCGGACTAAG GGAGGAGAAC 
CAGCCAGGAT GGCTGTGTCC CGATGAGGAC AAGAAAAGCA AAAACCCGTT CTGGTGCCCC 
ATCCTGGCCT GCTGCGTCCC CGCCTTCTCC TCCCGGGCCC TCAGCCTGCA GCTTGGCGGT 
CTGGTCCACA GTCCTGTTAA CTCTCCCCTG CTGGGCTTCT CGGCTGTCAG CACTTCCCTT 
CCACAGGGCT ACCTTTGGGT TGGCGGTGGT CAAGAGGGTG CTGGTGGCCA GGTGGACATC 
TTCTCCCTGA ACCGGCCTTC ACCTCGCACG GTCAAGTCCT TCCCAGTGGC AGCCCCTGTG 
CTTTGCATAG AGTATATTCC AGATCCGGAG GAGGAGGCTG AGGGTGGAGA GGAGAGCCGG 
GCGGCCACCG ATCCCTCGGT CACAGTGCAT CCCACTGTCT GCCTCGGCTT GCAGGATGGC 
AGCATCCTGC TCTATGGCAG TGTAGACACT GGTACCCAGT GCCTGGCCAC CTGCAAGAGC 
CCAGGCCCGC AGCCCGTGCT CTGTCTGCGT CACAGCCCCT TCTACCTGCT TGCCGGCCTT 
CAGGACGGGA CCCTCGCTGC CTATCCTCGG ACCAGTGGTG ACATTCCCTG GGACCTGGAG 
AGCCCTCCCA TGTGCATAAC TGTGGGCCCA GGGCCGATTC GCACGCTGCT GAGCCTGGAG 
GATGCCGCCT GGGCCAGCTG CGGGCCAAGG GTCACTGTAC TAGATGCTGC CACTCTGCAG 
ACTCAGCAAA GCTTCGAGGC GCACCAGGAT GAGGCGGTGA GTGTCACTCA CATGGTGAAA 
GCCGGCAGCG GTGTCTGGAT GGCCTTCTCC TCTGGCTCTT CCATCCGTCT CTTCCACACC 
GAGACTCTGG AGCACCTTCA GGAGATCAAC ATCGCCACCA GGACCACCTT CCTCCTGCCA 
GGCCAAAAGC ACCTATGTGT CACCAGCCTC CTCATCTGCC AGGGTCTGCT CTGGGTAGGC 
ACTGACCAGG GTGTCATTGT CCTGTTGCCT GTACCCCGAC TGGAGGGCAT CCCCAAGATC 
ACAGGGAAAG GCATGGTGTC TCTCAATGGT CACTGTGGAC CTGTGGCCTT CCTGGCTGTG 
GCCATGAGCA TCCTGGCCCC TGACATCCTG CGGAGTGACC AGGAAGAGGC TGAGGGACCA 
CAGGCCGAGG AGGACAAGCC GGACGGGCAG GCTCATGAAA CTGTGCCTGG GCCTGACAGC 
CACACGGCTC GGGAGCTGAC CCGCAAGAAA GGCATCTTGC TTCAATACCG CCTGCGCTCC 
ACGGCCCACC TCCCCGGGCC CCTGCTGTCT GTGCGGGAGC CAGCTCCTGC CGATGGCTCG 
GCTCTGGAAC ACAGTGAGGA GGACGGGTCC ATCTATGAGA TGGCCGATGA TCCTGACGTC 
TGGGTCCGGA GCCGGCCCTG TGCCCGTGAC GCCCACCGCA AAGAGATCTG CTCTGTGGCT 
ATCATCTCTG GTGGACAAGG CTATCGCCAT TTCGGCGGTG CTCCAGGAGG CCTGAGTGGG 
CGGCCGGCCC CGTGCAGCGA GACAGACAGC ACACTTCTCA TCTGGCAGGT GCCCTTGGCT 
CTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_021199843.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055502.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X9, mRNA.

Price & Availability↑

CloneID	OMv15206
Clone ID Related Accession (Same CDS sequence)	XM_021199843.1
Accession Version	XM_021199843.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3711bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGATGACCC AGCTCATGAA GGCCGCCAAG AGCGGGACCA GGGATGGGCT GGAGAAGACC 
CGGATGGCCG TCATGCGAAA AGTCTCCTTT TTGCACAGGA AAGATGTCCT CGGTGACTCG 
GAAGAAGAAG ATATGGGGCT CCTGGAGGTT GGTGTGACGG ATATCAAACC TCCCGCGCCA 
GAGCTCGGCC CCATGCCGGA TGGCTTGAGT CCTCAGCAGG TGGTCCGGAG ACACATCCTG 
GGCTCCATCG TGCAGAGCGA AGGCAGCTAT GTGGAGTCAC TGAAGAGGAT ACTCCAGGAT 
TATCGTAACC CACTAATGGA GATGGAGCCC AAGGCGCTGA GCGCTCGCAA GTGTCAGGTG 
GTGTTCTTCC GCGTGAAGGA GATTCTACAT TGTCACTCCA TGTTCCAGAT TGCTCTGTCC 
TCCCGCGTGG CCGAATGGGA CTCCACAGAG AAGATTGGAG ACCTCTTTGT GGCATCATTC 
TCCAAGTCCA TGGTCCTAGA CGTATACAGC GACTATGTGA ACAACTTCAC CAATGCCATG 
TCCATCATCA AGAAGGCCTG TCTCACCAAG CCAGCGTTCC TTGAGTTCCT CAAGCGGCGG 
CAGGTGTGCA GTACGGACCG AGTCACCCTC TATGGGTTGA TGGTGAAACC CGTTCAGAGA 
TTTCCACAGT TCATCCTCCT GCTCCAGGAC ATGCTGAAGA ACACTCCCAG GGGCCACCCT 
GACAGGCTGT CGCTGCAGTT AGCCCTCACG GAGCTGGAGA CGCTGGCGGA GAAGCTGAAT 
GAACAGAAGC GGTTGGCCGA TCAGGTGGCT GAGATCCAGC AGCTGACCAA GAGTGTCAGT 
GACCGCAGCA GCCTCAACAA GCTGTTGACC TCTGGCCAGC GGCAGCTGCT TCTGTGTGAG 
ACACTGACCG AGACGGTGTA TGGAGACCGA GGGCAGCTGA TCAAGTCCAA GGAGCGCAGG 
GTCTTCCTGC TCAATGACAT GCTGGTCTGC GCCAACATCA ACTTCAAGGG CCAGCTGGAG 
ATCAGCAGCC TGGTGCCTCT GGGGCCCAAG TACGTGGTGA AGTGGAACAC GGCTCTGCCT 
CAGGTGCAAG TGGTAGAGGT GGGTCAGGAC AGCGGTGCCT ATGACAAGGA CAATCTGCTC 
ATCCAGCATG CTGGAGCCAA GAAGGCCACC ACTGCAGGGC AGGCCCAGAA CAAGGTGTAC 
CTGGGCCCCC CACGCCTCTT CCAGGAGCTG CAGGACCTGC AGAAGGACCT GGCAGTGGTG 
GAACAGATCA CGCTGCTCAT CAGCACCTTG CATGGCACTT ACCAGAATCT GAACATGACT 
GTGGCCCAAG ACTGGTGCCT GGCCCTGCAG AGGCTGATGC GCGTGAAGGA GGAGGAGATC 
CACTCGGCTA ACAAGTGCCG CCTGAGGCTG CTGCTGCCTG GGAAGCCAGA CAAGTCTGGC 
CGGCCCATCA GTTTCATGGT GGTCTTCATC ACCCCGAACC CCCTGAGCAA GATTTCCTGG 
GTCAACAGAT TACACTTGGC AAAGATCGGA CTAAGGGAGG AGAACCAGCC AGGATGGCTG 
TGTCCCGATG AGGACAAGAA AAGCAAAAAC CCGTTCTGGT GCCCCATCCT GGCCTGCTGC 
GTCCCCGCCT TCTCCTCCCG GGCCCTCAGC CTGCAGCTTG GCGGTCTGGT CCACAGTCCT 
GTTAACTCTC CCCTGCTGGG CTTCTCGGCT GTCAGCACTT CCCTTCCACA GGGCTACCTT 
TGGGTTGGCG GTGGTCAAGA GGGTGCTGGT GGCCAGGTGG ACATCTTCTC CCTGAACCGG 
CCTTCACCTC GCACGGTCAA GTCCTTCCCA GTGGCAGCCC CTGTGCTTTG CATAGAGTAT 
ATTCCAGATC CGGAGGAGGA GGCTGAGGGT GGAGAGGAGA GCCGGGCGGC CACCGATCCC 
TCGGTCACAG TGCATCCCAC TGTCTGCCTC GGCTTGCAGG ATGGCAGCAT CCTGCTCTAT 
GGCAGTGTAG ACACTGGTAC CCAGTGCCTG GCCACCTGCA AGAGCCCAGG CCCGCAGCCC 
GTGCTCTGTC TGCGTCACAG CCCCTTCTAC CTGCTTGCCG GCCTTCAGGA CGGGACCCTC 
GCTGCCTATC CTCGGACCAG TGGTGACATT CCCTGGGACC TGGAGAGCCC TCCCATGTGC 
ATAACTGTGG GCCCAGGGCC GATTCGCACG CTGCTGAGCC TGGAGGATGC CGCCTGGGCC 
AGCTGCGGGC CAAGGGTCAC TGTACTAGAT GCTGCCACTC TGCAGACTCA GCAAAGCTTC 
GAGGCGCACC AGGATGAGGC GGTGAGTGTC ACTCACATGG TGAAAGCCGG CAGCGGTGTC 
TGGATGGCCT TCTCCTCTGG CTCTTCCATC CGTCTCTTCC ACACCGAGAC TCTGGAGCAC 
CTTCAGGAGA TCAACATCGC CACCAGGACC ACCTTCCTCC TGCCAGGCCA AAAGCACCTA 
TGTGTCACCA GCCTCCTCAT CTGCCAGGGT CTGCTCTGGG TAGGCACTGA CCAGGGTGTC 
ATTGTCCTGT TGCCTGTACC CCGACTGGAG GGCATCCCCA AGATCACAGG GAAAGGCATG 
GTGTCTCTCA ATGGTCACTG TGGACCTGTG GCCTTCCTGG CTGTGGCCAT GAGCATCCTG 
GCCCCTGACA TCCTGCGGAG TGACCAGGAA GAGGCTGAGG GACCACAGGC CGAGGAGGAC 
AAGCCGGACG GGCAGGCTCA TGAAACTGTG CCTGGGCCTG ACAGCCACAC GGCTCGGGAG 
CTGACCCGCA AGAAAGGCAT CTTGCTTCAA TACCGCCTGC GCTCCACGGC CCACCTCCCC 
GGGCCCCTGC TGTCTGTGCG GGAGCCAGCT CCTGCCGATG GCTCGGCTCT GGAACACAGT 
GAGGAGGACG GGTCCATCTA TGAGATGGCC GATGATCCTG ACGTCTGGGT CCGGAGCCGG 
CCCTGTGCCC GTGACGCCCA CCGCAAAGAG ATCTGCTCTG TGGCTATCAT CTCTGGTGGA 
CAAGGCTATC GCCATTTCGG CGGTGCTCCA GGAGGCCTGA GTGGGCGGCC GGCCCCGTGC 
AGCGAGACAG ACAGCACACT TCTCATCTGG CAGGTGCCCT TGGCTCTATA G

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055502.1
CDS	167..3877
Translation	MASSNPPPQPAIGESLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199843.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X9, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199843.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGAG AGTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGATGACCC AGCTCATGAA GGCCGCCAAG AGCGGGACCA GGGATGGGCT GGAGAAGACC 
CGGATGGCCG TCATGCGAAA AGTCTCCTTT TTGCACAGGA AAGATGTCCT CGGTGACTCG 
GAAGAAGAAG ATATGGGGCT CCTGGAGGTT GGTGTGACGG ATATCAAACC TCCCGCGCCA 
GAGCTCGGCC CCATGCCGGA TGGCTTGAGT CCTCAGCAGG TGGTCCGGAG ACACATCCTG 
GGCTCCATCG TGCAGAGCGA AGGCAGCTAT GTGGAGTCAC TGAAGAGGAT ACTCCAGGAT 
TATCGTAACC CACTAATGGA GATGGAGCCC AAGGCGCTGA GCGCTCGCAA GTGTCAGGTG 
GTGTTCTTCC GCGTGAAGGA GATTCTACAT TGTCACTCCA TGTTCCAGAT TGCTCTGTCC 
TCCCGCGTGG CCGAATGGGA CTCCACAGAG AAGATTGGAG ACCTCTTTGT GGCATCATTC 
TCCAAGTCCA TGGTCCTAGA CGTATACAGC GACTATGTGA ACAACTTCAC CAATGCCATG 
TCCATCATCA AGAAGGCCTG TCTCACCAAG CCAGCGTTCC TTGAGTTCCT CAAGCGGCGG 
CAGGTGTGCA GTACGGACCG AGTCACCCTC TATGGGTTGA TGGTGAAACC CGTTCAGAGA 
TTTCCACAGT TCATCCTCCT GCTCCAGGAC ATGCTGAAGA ACACTCCCAG GGGCCACCCT 
GACAGGCTGT CGCTGCAGTT AGCCCTCACG GAGCTGGAGA CGCTGGCGGA GAAGCTGAAT 
GAACAGAAGC GGTTGGCCGA TCAGGTGGCT GAGATCCAGC AGCTGACCAA GAGTGTCAGT 
GACCGCAGCA GCCTCAACAA GCTGTTGACC TCTGGCCAGC GGCAGCTGCT TCTGTGTGAG 
ACACTGACCG AGACGGTGTA TGGAGACCGA GGGCAGCTGA TCAAGTCCAA GGAGCGCAGG 
GTCTTCCTGC TCAATGACAT GCTGGTCTGC GCCAACATCA ACTTCAAGGG CCAGCTGGAG 
ATCAGCAGCC TGGTGCCTCT GGGGCCCAAG TACGTGGTGA AGTGGAACAC GGCTCTGCCT 
CAGGTGCAAG TGGTAGAGGT GGGTCAGGAC AGCGGTGCCT ATGACAAGGA CAATCTGCTC 
ATCCAGCATG CTGGAGCCAA GAAGGCCACC ACTGCAGGGC AGGCCCAGAA CAAGGTGTAC 
CTGGGCCCCC CACGCCTCTT CCAGGAGCTG CAGGACCTGC AGAAGGACCT GGCAGTGGTG 
GAACAGATCA CGCTGCTCAT CAGCACCTTG CATGGCACTT ACCAGAATCT GAACATGACT 
GTGGCCCAAG ACTGGTGCCT GGCCCTGCAG AGGCTGATGC GCGTGAAGGA GGAGGAGATC 
CACTCGGCTA ACAAGTGCCG CCTGAGGCTG CTGCTGCCTG GGAAGCCAGA CAAGTCTGGC 
CGGCCCATCA GTTTCATGGT GGTCTTCATC ACCCCGAACC CCCTGAGCAA GATTTCCTGG 
GTCAACAGAT TACACTTGGC AAAGATCGGA CTAAGGGAGG AGAACCAGCC AGGATGGCTG 
TGTCCCGATG AGGACAAGAA AAGCAAAAAC CCGTTCTGGT GCCCCATCCT GGCCTGCTGC 
GTCCCCGCCT TCTCCTCCCG GGCCCTCAGC CTGCAGCTTG GCGGTCTGGT CCACAGTCCT 
GTTAACTCTC CCCTGCTGGG CTTCTCGGCT GTCAGCACTT CCCTTCCACA GGGCTACCTT 
TGGGTTGGCG GTGGTCAAGA GGGTGCTGGT GGCCAGGTGG ACATCTTCTC CCTGAACCGG 
CCTTCACCTC GCACGGTCAA GTCCTTCCCA GTGGCAGCCC CTGTGCTTTG CATAGAGTAT 
ATTCCAGATC CGGAGGAGGA GGCTGAGGGT GGAGAGGAGA GCCGGGCGGC CACCGATCCC 
TCGGTCACAG TGCATCCCAC TGTCTGCCTC GGCTTGCAGG ATGGCAGCAT CCTGCTCTAT 
GGCAGTGTAG ACACTGGTAC CCAGTGCCTG GCCACCTGCA AGAGCCCAGG CCCGCAGCCC 
GTGCTCTGTC TGCGTCACAG CCCCTTCTAC CTGCTTGCCG GCCTTCAGGA CGGGACCCTC 
GCTGCCTATC CTCGGACCAG TGGTGACATT CCCTGGGACC TGGAGAGCCC TCCCATGTGC 
ATAACTGTGG GCCCAGGGCC GATTCGCACG CTGCTGAGCC TGGAGGATGC CGCCTGGGCC 
AGCTGCGGGC CAAGGGTCAC TGTACTAGAT GCTGCCACTC TGCAGACTCA GCAAAGCTTC 
GAGGCGCACC AGGATGAGGC GGTGAGTGTC ACTCACATGG TGAAAGCCGG CAGCGGTGTC 
TGGATGGCCT TCTCCTCTGG CTCTTCCATC CGTCTCTTCC ACACCGAGAC TCTGGAGCAC 
CTTCAGGAGA TCAACATCGC CACCAGGACC ACCTTCCTCC TGCCAGGCCA AAAGCACCTA 
TGTGTCACCA GCCTCCTCAT CTGCCAGGGT CTGCTCTGGG TAGGCACTGA CCAGGGTGTC 
ATTGTCCTGT TGCCTGTACC CCGACTGGAG GGCATCCCCA AGATCACAGG GAAAGGCATG 
GTGTCTCTCA ATGGTCACTG TGGACCTGTG GCCTTCCTGG CTGTGGCCAT GAGCATCCTG 
GCCCCTGACA TCCTGCGGAG TGACCAGGAA GAGGCTGAGG GACCACAGGC CGAGGAGGAC 
AAGCCGGACG GGCAGGCTCA TGAAACTGTG CCTGGGCCTG ACAGCCACAC GGCTCGGGAG 
CTGACCCGCA AGAAAGGCAT CTTGCTTCAA TACCGCCTGC GCTCCACGGC CCACCTCCCC 
GGGCCCCTGC TGTCTGTGCG GGAGCCAGCT CCTGCCGATG GCTCGGCTCT GGAACACAGT 
GAGGAGGACG GGTCCATCTA TGAGATGGCC GATGATCCTG ACGTCTGGGT CCGGAGCCGG 
CCCTGTGCCC GTGACGCCCA CCGCAAAGAG ATCTGCTCTG TGGCTATCAT CTCTGGTGGA 
CAAGGCTATC GCCATTTCGG CGGTGCTCCA GGAGGCCTGA GTGGGCGGCC GGCCCCGTGC 
AGCGAGACAG ACAGCACACT TCTCATCTGG CAGGTGCCCT TGGCTCTATA G

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_021199844.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055503.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X7, mRNA.

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CloneID	OMv15207
Clone ID Related Accession (Same CDS sequence)	XM_021199844.1
Accession Version	XM_021199844.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3726bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-05-18
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGTA CTTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGATGACCC AGCTCATGAA GGCCGCCAAG AGCGGGACCA GGGATGGGCT GGAGAAGACC 
CGGATGGCCG TCATGCGAAA AGTCTCCTTT TTGCACAGGA AAGATGTCCT CGGTGACTCG 
GAAGAAGAAG ATATGGGGCT CCTGGAGGTT GGTGTGACGG ATATCAAACC TCCCGCGCCA 
GAGCTCGGCC CCATGCCGGA TGGCTTGAGT CCTCAGCAGG TGGTCCGGAG ACACATCCTG 
GGCTCCATCG TGCAGAGCGA AGGCAGCTAT GTGGAGTCAC TGAAGAGGAT ACTCCAGGAT 
TATCGTAACC CACTAATGGA GATGGAGCCC AAGGCGCTGA GCGCTCGCAA GTGTCAGGTG 
GTGTTCTTCC GCGTGAAGGA GATTCTACAT TGTCACTCCA TGTTCCAGAT TGCTCTGTCC 
TCCCGCGTGG CCGAATGGGA CTCCACAGAG AAGATTGGAG ACCTCTTTGT GGCATCATTC 
TCCAAGTCCA TGGTCCTAGA CGTATACAGC GACTATGTGA ACAACTTCAC CAATGCCATG 
TCCATCATCA AGAAGGCCTG TCTCACCAAG CCAGCGTTCC TTGAGTTCCT CAAGCGGCGG 
CAGGTGTGCA GTACGGACCG AGTCACCCTC TATGGGTTGA TGGTGAAACC CGTTCAGAGA 
TTTCCACAGT TCATCCTCCT GCTCCAGGAC ATGCTGAAGA ACACTCCCAG GGGCCACCCT 
GACAGGCTGT CGCTGCAGTT AGCCCTCACG GAGCTGGAGA CGCTGGCGGA GAAGCTGAAT 
GAACAGAAGC GGTTGGCCGA TCAGGTGGCT GAGATCCAGC AGCTGACCAA GAGTGTCAGT 
GACCGCAGCA GCCTCAACAA GCTGTTGACC TCTGGCCAGC GGCAGCTGCT TCTGTGTGAG 
ACACTGACCG AGACGGTGTA TGGAGACCGA GGGCAGCTGA TCAAGTCCAA GGAGCGCAGG 
GTCTTCCTGC TCAATGACAT GCTGGTCTGC GCCAACATCA ACTTCAAGCC CTCCAACCAC 
AGGGGCCAGC TGGAGATCAG CAGCCTGGTG CCTCTGGGGC CCAAGTACGT GGTGAAGTGG 
AACACGGCTC TGCCTCAGGT GCAAGTGGTA GAGGTGGGTC AGGACAGCGG TGCCTATGAC 
AAGGACAATC TGCTCATCCA GCATGCTGGA GCCAAGAAGG CCACCACTGC AGGGCAGGCC 
CAGAACAAGG TGTACCTGGG CCCCCCACGC CTCTTCCAGG AGCTGCAGGA CCTGCAGAAG 
GACCTGGCAG TGGTGGAACA GATCACGCTG CTCATCAGCA CCTTGCATGG CACTTACCAG 
AATCTGAACA TGACTGTGGC CCAAGACTGG TGCCTGGCCC TGCAGAGGCT GATGCGCGTG 
AAGGAGGAGG AGATCCACTC GGCTAACAAG TGCCGCCTGA GGCTGCTGCT GCCTGGGAAG 
CCAGACAAGT CTGGCCGGCC CATCAGTTTC ATGGTGGTCT TCATCACCCC GAACCCCCTG 
AGCAAGATTT CCTGGGTCAA CAGATTACAC TTGGCAAAGA TCGGACTAAG GGAGGAGAAC 
CAGCCAGGAT GGCTGTGTCC CGATGAGGAC AAGAAAAGCA AAAACCCGTT CTGGTGCCCC 
ATCCTGGCCT GCTGCGTCCC CGCCTTCTCC TCCCGGGCCC TCAGCCTGCA GCTTGGCGGT 
CTGGTCCACA GTCCTGTTAA CTCTCCCCTG CTGGGCTTCT CGGCTGTCAG CACTTCCCTT 
CCACAGGGCT ACCTTTGGGT TGGCGGTGGT CAAGAGGGTG CTGGTGGCCA GGTGGACATC 
TTCTCCCTGA ACCGGCCTTC ACCTCGCACG GTCAAGTCCT TCCCAGTGGC AGCCCCTGTG 
CTTTGCATAG AGTATATTCC AGATCCGGAG GAGGAGGCTG AGGGTGGAGA GGAGAGCCGG 
GCGGCCACCG ATCCCTCGGT CACAGTGCAT CCCACTGTCT GCCTCGGCTT GCAGGATGGC 
AGCATCCTGC TCTATGGCAG TGTAGACACT GGTACCCAGT GCCTGGCCAC CTGCAAGAGC 
CCAGGCCCGC AGCCCGTGCT CTGTCTGCGT CACAGCCCCT TCTACCTGCT TGCCGGCCTT 
CAGGACGGGA CCCTCGCTGC CTATCCTCGG ACCAGTGGTG ACATTCCCTG GGACCTGGAG 
AGCCCTCCCA TGTGCATAAC TGTGGGCCCA GGGCCGATTC GCACGCTGCT GAGCCTGGAG 
GATGCCGCCT GGGCCAGCTG CGGGCCAAGG GTCACTGTAC TAGATGCTGC CACTCTGCAG 
ACTCAGCAAA GCTTCGAGGC GCACCAGGAT GAGGCGGTGA GTGTCACTCA CATGGTGAAA 
GCCGGCAGCG GTGTCTGGAT GGCCTTCTCC TCTGGCTCTT CCATCCGTCT CTTCCACACC 
GAGACTCTGG AGCACCTTCA GGAGATCAAC ATCGCCACCA GGACCACCTT CCTCCTGCCA 
GGCCAAAAGC ACCTATGTGT CACCAGCCTC CTCATCTGCC AGGGTCTGCT CTGGGTAGGC 
ACTGACCAGG GTGTCATTGT CCTGTTGCCT GTACCCCGAC TGGAGGGCAT CCCCAAGATC 
ACAGGGAAAG GCATGGTGTC TCTCAATGGT CACTGTGGAC CTGTGGCCTT CCTGGCTGTG 
GCCATGAGCA TCCTGGCCCC TGACATCCTG CGGAGTGACC AGGAAGAGGC TGAGGGACCA 
CAGGCCGAGG AGGACAAGCC GGACGGGCAG GCTCATGAAA CTGTGCCTGG GCCTGACAGC 
CACACGGCTC GGGAGCTGAC CCGCAAGAAA GGCATCTTGC TTCAATACCG CCTGCGCTCC 
ACGGCCCACC TCCCCGGGCC CCTGCTGTCT GTGCGGGAGC CAGCTCCTGC CGATGGCTCG 
GCTCTGGAAC ACAGTGAGGA GGACGGGTCC ATCTATGAGA TGGCCGATGA TCCTGACGTC 
TGGGTCCGGA GCCGGCCCTG TGCCCGTGAC GCCCACCGCA AAGAGATCTG CTCTGTGGCT 
ATCATCTCTG GTGGACAAGG CTATCGCCAT TTCGGCGGTG CTCCAGGAGG CCTGAGTGGG 
CGGCCGGCCC CGTGCAGCGA GACAGACAGC ACACTTCTCA TCTGGCAGGT GCCCTTGGCT 
CTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055503.1
CDS	39..3764
Translation	MASSNPPPQPAIGTSLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199844.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X7, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199844.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGTA CTTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGATGACCC AGCTCATGAA GGCCGCCAAG AGCGGGACCA GGGATGGGCT GGAGAAGACC 
CGGATGGCCG TCATGCGAAA AGTCTCCTTT TTGCACAGGA AAGATGTCCT CGGTGACTCG 
GAAGAAGAAG ATATGGGGCT CCTGGAGGTT GGTGTGACGG ATATCAAACC TCCCGCGCCA 
GAGCTCGGCC CCATGCCGGA TGGCTTGAGT CCTCAGCAGG TGGTCCGGAG ACACATCCTG 
GGCTCCATCG TGCAGAGCGA AGGCAGCTAT GTGGAGTCAC TGAAGAGGAT ACTCCAGGAT 
TATCGTAACC CACTAATGGA GATGGAGCCC AAGGCGCTGA GCGCTCGCAA GTGTCAGGTG 
GTGTTCTTCC GCGTGAAGGA GATTCTACAT TGTCACTCCA TGTTCCAGAT TGCTCTGTCC 
TCCCGCGTGG CCGAATGGGA CTCCACAGAG AAGATTGGAG ACCTCTTTGT GGCATCATTC 
TCCAAGTCCA TGGTCCTAGA CGTATACAGC GACTATGTGA ACAACTTCAC CAATGCCATG 
TCCATCATCA AGAAGGCCTG TCTCACCAAG CCAGCGTTCC TTGAGTTCCT CAAGCGGCGG 
CAGGTGTGCA GTACGGACCG AGTCACCCTC TATGGGTTGA TGGTGAAACC CGTTCAGAGA 
TTTCCACAGT TCATCCTCCT GCTCCAGGAC ATGCTGAAGA ACACTCCCAG GGGCCACCCT 
GACAGGCTGT CGCTGCAGTT AGCCCTCACG GAGCTGGAGA CGCTGGCGGA GAAGCTGAAT 
GAACAGAAGC GGTTGGCCGA TCAGGTGGCT GAGATCCAGC AGCTGACCAA GAGTGTCAGT 
GACCGCAGCA GCCTCAACAA GCTGTTGACC TCTGGCCAGC GGCAGCTGCT TCTGTGTGAG 
ACACTGACCG AGACGGTGTA TGGAGACCGA GGGCAGCTGA TCAAGTCCAA GGAGCGCAGG 
GTCTTCCTGC TCAATGACAT GCTGGTCTGC GCCAACATCA ACTTCAAGCC CTCCAACCAC 
AGGGGCCAGC TGGAGATCAG CAGCCTGGTG CCTCTGGGGC CCAAGTACGT GGTGAAGTGG 
AACACGGCTC TGCCTCAGGT GCAAGTGGTA GAGGTGGGTC AGGACAGCGG TGCCTATGAC 
AAGGACAATC TGCTCATCCA GCATGCTGGA GCCAAGAAGG CCACCACTGC AGGGCAGGCC 
CAGAACAAGG TGTACCTGGG CCCCCCACGC CTCTTCCAGG AGCTGCAGGA CCTGCAGAAG 
GACCTGGCAG TGGTGGAACA GATCACGCTG CTCATCAGCA CCTTGCATGG CACTTACCAG 
AATCTGAACA TGACTGTGGC CCAAGACTGG TGCCTGGCCC TGCAGAGGCT GATGCGCGTG 
AAGGAGGAGG AGATCCACTC GGCTAACAAG TGCCGCCTGA GGCTGCTGCT GCCTGGGAAG 
CCAGACAAGT CTGGCCGGCC CATCAGTTTC ATGGTGGTCT TCATCACCCC GAACCCCCTG 
AGCAAGATTT CCTGGGTCAA CAGATTACAC TTGGCAAAGA TCGGACTAAG GGAGGAGAAC 
CAGCCAGGAT GGCTGTGTCC CGATGAGGAC AAGAAAAGCA AAAACCCGTT CTGGTGCCCC 
ATCCTGGCCT GCTGCGTCCC CGCCTTCTCC TCCCGGGCCC TCAGCCTGCA GCTTGGCGGT 
CTGGTCCACA GTCCTGTTAA CTCTCCCCTG CTGGGCTTCT CGGCTGTCAG CACTTCCCTT 
CCACAGGGCT ACCTTTGGGT TGGCGGTGGT CAAGAGGGTG CTGGTGGCCA GGTGGACATC 
TTCTCCCTGA ACCGGCCTTC ACCTCGCACG GTCAAGTCCT TCCCAGTGGC AGCCCCTGTG 
CTTTGCATAG AGTATATTCC AGATCCGGAG GAGGAGGCTG AGGGTGGAGA GGAGAGCCGG 
GCGGCCACCG ATCCCTCGGT CACAGTGCAT CCCACTGTCT GCCTCGGCTT GCAGGATGGC 
AGCATCCTGC TCTATGGCAG TGTAGACACT GGTACCCAGT GCCTGGCCAC CTGCAAGAGC 
CCAGGCCCGC AGCCCGTGCT CTGTCTGCGT CACAGCCCCT TCTACCTGCT TGCCGGCCTT 
CAGGACGGGA CCCTCGCTGC CTATCCTCGG ACCAGTGGTG ACATTCCCTG GGACCTGGAG 
AGCCCTCCCA TGTGCATAAC TGTGGGCCCA GGGCCGATTC GCACGCTGCT GAGCCTGGAG 
GATGCCGCCT GGGCCAGCTG CGGGCCAAGG GTCACTGTAC TAGATGCTGC CACTCTGCAG 
ACTCAGCAAA GCTTCGAGGC GCACCAGGAT GAGGCGGTGA GTGTCACTCA CATGGTGAAA 
GCCGGCAGCG GTGTCTGGAT GGCCTTCTCC TCTGGCTCTT CCATCCGTCT CTTCCACACC 
GAGACTCTGG AGCACCTTCA GGAGATCAAC ATCGCCACCA GGACCACCTT CCTCCTGCCA 
GGCCAAAAGC ACCTATGTGT CACCAGCCTC CTCATCTGCC AGGGTCTGCT CTGGGTAGGC 
ACTGACCAGG GTGTCATTGT CCTGTTGCCT GTACCCCGAC TGGAGGGCAT CCCCAAGATC 
ACAGGGAAAG GCATGGTGTC TCTCAATGGT CACTGTGGAC CTGTGGCCTT CCTGGCTGTG 
GCCATGAGCA TCCTGGCCCC TGACATCCTG CGGAGTGACC AGGAAGAGGC TGAGGGACCA 
CAGGCCGAGG AGGACAAGCC GGACGGGCAG GCTCATGAAA CTGTGCCTGG GCCTGACAGC 
CACACGGCTC GGGAGCTGAC CCGCAAGAAA GGCATCTTGC TTCAATACCG CCTGCGCTCC 
ACGGCCCACC TCCCCGGGCC CCTGCTGTCT GTGCGGGAGC CAGCTCCTGC CGATGGCTCG 
GCTCTGGAAC ACAGTGAGGA GGACGGGTCC ATCTATGAGA TGGCCGATGA TCCTGACGTC 
TGGGTCCGGA GCCGGCCCTG TGCCCGTGAC GCCCACCGCA AAGAGATCTG CTCTGTGGCT 
ATCATCTCTG GTGGACAAGG CTATCGCCAT TTCGGCGGTG CTCCAGGAGG CCTGAGTGGG 
CGGCCGGCCC CGTGCAGCGA GACAGACAGC ACACTTCTCA TCTGGCAGGT GCCCTTGGCT 
CTATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_021199845.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055504.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X8, mRNA.

Price & Availability↑

CloneID	OMv15208
Clone ID Related Accession (Same CDS sequence)	XM_021199845.1
Accession Version	XM_021199845.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3711bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-05-18
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGTA CTTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGATGACCC AGCTCATGAA GGCCGCCAAG AGCGGGACCA GGGATGGGCT GGAGAAGACC 
CGGATGGCCG TCATGCGAAA AGTCTCCTTT TTGCACAGGA AAGATGTCCT CGGTGACTCG 
GAAGAAGAAG ATATGGGGCT CCTGGAGGTT GGTGTGACGG ATATCAAACC TCCCGCGCCA 
GAGCTCGGCC CCATGCCGGA TGGCTTGAGT CCTCAGCAGG TGGTCCGGAG ACACATCCTG 
GGCTCCATCG TGCAGAGCGA AGGCAGCTAT GTGGAGTCAC TGAAGAGGAT ACTCCAGGAT 
TATCGTAACC CACTAATGGA GATGGAGCCC AAGGCGCTGA GCGCTCGCAA GTGTCAGGTG 
GTGTTCTTCC GCGTGAAGGA GATTCTACAT TGTCACTCCA TGTTCCAGAT TGCTCTGTCC 
TCCCGCGTGG CCGAATGGGA CTCCACAGAG AAGATTGGAG ACCTCTTTGT GGCATCATTC 
TCCAAGTCCA TGGTCCTAGA CGTATACAGC GACTATGTGA ACAACTTCAC CAATGCCATG 
TCCATCATCA AGAAGGCCTG TCTCACCAAG CCAGCGTTCC TTGAGTTCCT CAAGCGGCGG 
CAGGTGTGCA GTACGGACCG AGTCACCCTC TATGGGTTGA TGGTGAAACC CGTTCAGAGA 
TTTCCACAGT TCATCCTCCT GCTCCAGGAC ATGCTGAAGA ACACTCCCAG GGGCCACCCT 
GACAGGCTGT CGCTGCAGTT AGCCCTCACG GAGCTGGAGA CGCTGGCGGA GAAGCTGAAT 
GAACAGAAGC GGTTGGCCGA TCAGGTGGCT GAGATCCAGC AGCTGACCAA GAGTGTCAGT 
GACCGCAGCA GCCTCAACAA GCTGTTGACC TCTGGCCAGC GGCAGCTGCT TCTGTGTGAG 
ACACTGACCG AGACGGTGTA TGGAGACCGA GGGCAGCTGA TCAAGTCCAA GGAGCGCAGG 
GTCTTCCTGC TCAATGACAT GCTGGTCTGC GCCAACATCA ACTTCAAGGG CCAGCTGGAG 
ATCAGCAGCC TGGTGCCTCT GGGGCCCAAG TACGTGGTGA AGTGGAACAC GGCTCTGCCT 
CAGGTGCAAG TGGTAGAGGT GGGTCAGGAC AGCGGTGCCT ATGACAAGGA CAATCTGCTC 
ATCCAGCATG CTGGAGCCAA GAAGGCCACC ACTGCAGGGC AGGCCCAGAA CAAGGTGTAC 
CTGGGCCCCC CACGCCTCTT CCAGGAGCTG CAGGACCTGC AGAAGGACCT GGCAGTGGTG 
GAACAGATCA CGCTGCTCAT CAGCACCTTG CATGGCACTT ACCAGAATCT GAACATGACT 
GTGGCCCAAG ACTGGTGCCT GGCCCTGCAG AGGCTGATGC GCGTGAAGGA GGAGGAGATC 
CACTCGGCTA ACAAGTGCCG CCTGAGGCTG CTGCTGCCTG GGAAGCCAGA CAAGTCTGGC 
CGGCCCATCA GTTTCATGGT GGTCTTCATC ACCCCGAACC CCCTGAGCAA GATTTCCTGG 
GTCAACAGAT TACACTTGGC AAAGATCGGA CTAAGGGAGG AGAACCAGCC AGGATGGCTG 
TGTCCCGATG AGGACAAGAA AAGCAAAAAC CCGTTCTGGT GCCCCATCCT GGCCTGCTGC 
GTCCCCGCCT TCTCCTCCCG GGCCCTCAGC CTGCAGCTTG GCGGTCTGGT CCACAGTCCT 
GTTAACTCTC CCCTGCTGGG CTTCTCGGCT GTCAGCACTT CCCTTCCACA GGGCTACCTT 
TGGGTTGGCG GTGGTCAAGA GGGTGCTGGT GGCCAGGTGG ACATCTTCTC CCTGAACCGG 
CCTTCACCTC GCACGGTCAA GTCCTTCCCA GTGGCAGCCC CTGTGCTTTG CATAGAGTAT 
ATTCCAGATC CGGAGGAGGA GGCTGAGGGT GGAGAGGAGA GCCGGGCGGC CACCGATCCC 
TCGGTCACAG TGCATCCCAC TGTCTGCCTC GGCTTGCAGG ATGGCAGCAT CCTGCTCTAT 
GGCAGTGTAG ACACTGGTAC CCAGTGCCTG GCCACCTGCA AGAGCCCAGG CCCGCAGCCC 
GTGCTCTGTC TGCGTCACAG CCCCTTCTAC CTGCTTGCCG GCCTTCAGGA CGGGACCCTC 
GCTGCCTATC CTCGGACCAG TGGTGACATT CCCTGGGACC TGGAGAGCCC TCCCATGTGC 
ATAACTGTGG GCCCAGGGCC GATTCGCACG CTGCTGAGCC TGGAGGATGC CGCCTGGGCC 
AGCTGCGGGC CAAGGGTCAC TGTACTAGAT GCTGCCACTC TGCAGACTCA GCAAAGCTTC 
GAGGCGCACC AGGATGAGGC GGTGAGTGTC ACTCACATGG TGAAAGCCGG CAGCGGTGTC 
TGGATGGCCT TCTCCTCTGG CTCTTCCATC CGTCTCTTCC ACACCGAGAC TCTGGAGCAC 
CTTCAGGAGA TCAACATCGC CACCAGGACC ACCTTCCTCC TGCCAGGCCA AAAGCACCTA 
TGTGTCACCA GCCTCCTCAT CTGCCAGGGT CTGCTCTGGG TAGGCACTGA CCAGGGTGTC 
ATTGTCCTGT TGCCTGTACC CCGACTGGAG GGCATCCCCA AGATCACAGG GAAAGGCATG 
GTGTCTCTCA ATGGTCACTG TGGACCTGTG GCCTTCCTGG CTGTGGCCAT GAGCATCCTG 
GCCCCTGACA TCCTGCGGAG TGACCAGGAA GAGGCTGAGG GACCACAGGC CGAGGAGGAC 
AAGCCGGACG GGCAGGCTCA TGAAACTGTG CCTGGGCCTG ACAGCCACAC GGCTCGGGAG 
CTGACCCGCA AGAAAGGCAT CTTGCTTCAA TACCGCCTGC GCTCCACGGC CCACCTCCCC 
GGGCCCCTGC TGTCTGTGCG GGAGCCAGCT CCTGCCGATG GCTCGGCTCT GGAACACAGT 
GAGGAGGACG GGTCCATCTA TGAGATGGCC GATGATCCTG ACGTCTGGGT CCGGAGCCGG 
CCCTGTGCCC GTGACGCCCA CCGCAAAGAG ATCTGCTCTG TGGCTATCAT CTCTGGTGGA 
CAAGGCTATC GCCATTTCGG CGGTGCTCCA GGAGGCCTGA GTGGGCGGCC GGCCCCGTGC 
AGCGAGACAG ACAGCACACT TCTCATCTGG CAGGTGCCCT TGGCTCTATA G

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055504.1
CDS	39..3749
Translation	MASSNPPPQPAIGTSLAPRAPGPSPEVEEDSGEAFEFDDSDEEEDTNSGLVVPGLAPERDTEPSLICFDAVPGSDLDPVAAPPQTEAPTVVSNGDAVGSAISGVRRSSWKRKSSRRIDRFTFPALEEDVIYDDVPCESPDAHQPGAERGLVYEDVHRAGAPRETEDLGWSSSEFESYSEDSGEETKPEAEPTKHRGSFQPKMTQLMKAAKSGTRDGLEKTRMAVMRKVSFLHRKDVLGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199845.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X8, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199845.1

ORF Insert Sequence:

ATGGCTTCCT CGAACCCTCC TCCACAGCCT GCCATAGGTA CTTCCCTGGC TCCCAGAGCT 
CCAGGCCCCT CCCCCGAGGT GGAGGAGGAC TCCGGAGAAG CCTTTGAGTT TGATGACAGT 
GACGAGGAGG AGGACACCAA CTCTGGCTTG GTTGTCCCTG GCCTCGCCCC TGAGAGGGAC 
ACAGAGCCCT CGCTGATCTG CTTCGACGCT GTCCCCGGCT CAGACCTGGA CCCAGTGGCT 
GCACCACCCC AGACAGAGGC ACCCACTGTG GTCAGCAATG GGGATGCGGT GGGCTCAGCA 
ATCTCTGGGG TTCGGCGCTC CAGCTGGAAG CGGAAGAGCT CACGCCGCAT TGACCGCTTC 
ACTTTCCCTG CCCTGGAGGA AGATGTGATT TATGACGACG TCCCCTGCGA GAGCCCAGAC 
GCCCATCAGC CTGGGGCCGA GCGGGGCCTC GTTTACGAGG ATGTACATCG TGCCGGAGCA 
CCGCGTGAGA CTGAGGACCT AGGCTGGAGC TCTAGCGAGT TCGAGAGCTA CAGCGAGGAC 
TCCGGGGAGG AGACCAAACC GGAGGCCGAG CCCACTAAGC ACCGAGGGTC CTTCCAGCCC 
AAGATGACCC AGCTCATGAA GGCCGCCAAG AGCGGGACCA GGGATGGGCT GGAGAAGACC 
CGGATGGCCG TCATGCGAAA AGTCTCCTTT TTGCACAGGA AAGATGTCCT CGGTGACTCG 
GAAGAAGAAG ATATGGGGCT CCTGGAGGTT GGTGTGACGG ATATCAAACC TCCCGCGCCA 
GAGCTCGGCC CCATGCCGGA TGGCTTGAGT CCTCAGCAGG TGGTCCGGAG ACACATCCTG 
GGCTCCATCG TGCAGAGCGA AGGCAGCTAT GTGGAGTCAC TGAAGAGGAT ACTCCAGGAT 
TATCGTAACC CACTAATGGA GATGGAGCCC AAGGCGCTGA GCGCTCGCAA GTGTCAGGTG 
GTGTTCTTCC GCGTGAAGGA GATTCTACAT TGTCACTCCA TGTTCCAGAT TGCTCTGTCC 
TCCCGCGTGG CCGAATGGGA CTCCACAGAG AAGATTGGAG ACCTCTTTGT GGCATCATTC 
TCCAAGTCCA TGGTCCTAGA CGTATACAGC GACTATGTGA ACAACTTCAC CAATGCCATG 
TCCATCATCA AGAAGGCCTG TCTCACCAAG CCAGCGTTCC TTGAGTTCCT CAAGCGGCGG 
CAGGTGTGCA GTACGGACCG AGTCACCCTC TATGGGTTGA TGGTGAAACC CGTTCAGAGA 
TTTCCACAGT TCATCCTCCT GCTCCAGGAC ATGCTGAAGA ACACTCCCAG GGGCCACCCT 
GACAGGCTGT CGCTGCAGTT AGCCCTCACG GAGCTGGAGA CGCTGGCGGA GAAGCTGAAT 
GAACAGAAGC GGTTGGCCGA TCAGGTGGCT GAGATCCAGC AGCTGACCAA GAGTGTCAGT 
GACCGCAGCA GCCTCAACAA GCTGTTGACC TCTGGCCAGC GGCAGCTGCT TCTGTGTGAG 
ACACTGACCG AGACGGTGTA TGGAGACCGA GGGCAGCTGA TCAAGTCCAA GGAGCGCAGG 
GTCTTCCTGC TCAATGACAT GCTGGTCTGC GCCAACATCA ACTTCAAGGG CCAGCTGGAG 
ATCAGCAGCC TGGTGCCTCT GGGGCCCAAG TACGTGGTGA AGTGGAACAC GGCTCTGCCT 
CAGGTGCAAG TGGTAGAGGT GGGTCAGGAC AGCGGTGCCT ATGACAAGGA CAATCTGCTC 
ATCCAGCATG CTGGAGCCAA GAAGGCCACC ACTGCAGGGC AGGCCCAGAA CAAGGTGTAC 
CTGGGCCCCC CACGCCTCTT CCAGGAGCTG CAGGACCTGC AGAAGGACCT GGCAGTGGTG 
GAACAGATCA CGCTGCTCAT CAGCACCTTG CATGGCACTT ACCAGAATCT GAACATGACT 
GTGGCCCAAG ACTGGTGCCT GGCCCTGCAG AGGCTGATGC GCGTGAAGGA GGAGGAGATC 
CACTCGGCTA ACAAGTGCCG CCTGAGGCTG CTGCTGCCTG GGAAGCCAGA CAAGTCTGGC 
CGGCCCATCA GTTTCATGGT GGTCTTCATC ACCCCGAACC CCCTGAGCAA GATTTCCTGG 
GTCAACAGAT TACACTTGGC AAAGATCGGA CTAAGGGAGG AGAACCAGCC AGGATGGCTG 
TGTCCCGATG AGGACAAGAA AAGCAAAAAC CCGTTCTGGT GCCCCATCCT GGCCTGCTGC 
GTCCCCGCCT TCTCCTCCCG GGCCCTCAGC CTGCAGCTTG GCGGTCTGGT CCACAGTCCT 
GTTAACTCTC CCCTGCTGGG CTTCTCGGCT GTCAGCACTT CCCTTCCACA GGGCTACCTT 
TGGGTTGGCG GTGGTCAAGA GGGTGCTGGT GGCCAGGTGG ACATCTTCTC CCTGAACCGG 
CCTTCACCTC GCACGGTCAA GTCCTTCCCA GTGGCAGCCC CTGTGCTTTG CATAGAGTAT 
ATTCCAGATC CGGAGGAGGA GGCTGAGGGT GGAGAGGAGA GCCGGGCGGC CACCGATCCC 
TCGGTCACAG TGCATCCCAC TGTCTGCCTC GGCTTGCAGG ATGGCAGCAT CCTGCTCTAT 
GGCAGTGTAG ACACTGGTAC CCAGTGCCTG GCCACCTGCA AGAGCCCAGG CCCGCAGCCC 
GTGCTCTGTC TGCGTCACAG CCCCTTCTAC CTGCTTGCCG GCCTTCAGGA CGGGACCCTC 
GCTGCCTATC CTCGGACCAG TGGTGACATT CCCTGGGACC TGGAGAGCCC TCCCATGTGC 
ATAACTGTGG GCCCAGGGCC GATTCGCACG CTGCTGAGCC TGGAGGATGC CGCCTGGGCC 
AGCTGCGGGC CAAGGGTCAC TGTACTAGAT GCTGCCACTC TGCAGACTCA GCAAAGCTTC 
GAGGCGCACC AGGATGAGGC GGTGAGTGTC ACTCACATGG TGAAAGCCGG CAGCGGTGTC 
TGGATGGCCT TCTCCTCTGG CTCTTCCATC CGTCTCTTCC ACACCGAGAC TCTGGAGCAC 
CTTCAGGAGA TCAACATCGC CACCAGGACC ACCTTCCTCC TGCCAGGCCA AAAGCACCTA 
TGTGTCACCA GCCTCCTCAT CTGCCAGGGT CTGCTCTGGG TAGGCACTGA CCAGGGTGTC 
ATTGTCCTGT TGCCTGTACC CCGACTGGAG GGCATCCCCA AGATCACAGG GAAAGGCATG 
GTGTCTCTCA ATGGTCACTG TGGACCTGTG GCCTTCCTGG CTGTGGCCAT GAGCATCCTG 
GCCCCTGACA TCCTGCGGAG TGACCAGGAA GAGGCTGAGG GACCACAGGC CGAGGAGGAC 
AAGCCGGACG GGCAGGCTCA TGAAACTGTG CCTGGGCCTG ACAGCCACAC GGCTCGGGAG 
CTGACCCGCA AGAAAGGCAT CTTGCTTCAA TACCGCCTGC GCTCCACGGC CCACCTCCCC 
GGGCCCCTGC TGTCTGTGCG GGAGCCAGCT CCTGCCGATG GCTCGGCTCT GGAACACAGT 
GAGGAGGACG GGTCCATCTA TGAGATGGCC GATGATCCTG ACGTCTGGGT CCGGAGCCGG 
CCCTGTGCCC GTGACGCCCA CCGCAAAGAG ATCTGCTCTG TGGCTATCAT CTCTGGTGGA 
CAAGGCTATC GCCATTTCGG CGGTGCTCCA GGAGGCCTGA GTGGGCGGCC GGCCCCGTGC 
AGCGAGACAG ACAGCACACT TCTCATCTGG CAGGTGCCCT TGGCTCTATA G

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_021199847.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055506.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X9, mRNA.

Price & Availability↑

CloneID	OMv15209
Clone ID Related Accession (Same CDS sequence)	XM_021199847.1 , XM_021199847.2
Accession Version	XM_021199847.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3192bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-05-18
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTACCCA GCAGCTCATG GGGGAAGAGG AAGCCACGGA GCCGGCAACT GGGGTGGGTG 
CGCTGTGATG CCCGAGGCAA TATGTGGGCC AGGCAGGAGG ACCTTCGCCA CCCACACCCT 
CACCCCCATG CGCTCATCCG CTGTCCATCC TCCTCCTCCT CCTCTGTGTC CTGCTCAGGT 
GACTCGGAAG AAGAAGATAT GGGGCTCCTG GAGGTTGGTG TGACGGATAT CAAACCTCCC 
GCGCCAGAGC TCGGCCCCAT GCCGGATGGC TTGAGTCCTC AGCAGGTGGT CCGGAGACAC 
ATCCTGGGCT CCATCGTGCA GAGCGAAGGC AGCTATGTGG AGTCACTGAA GAGGATACTC 
CAGGATTATC GTAACCCACT AATGGAGATG GAGCCCAAGG CGCTGAGCGC TCGCAAGTGT 
CAGGTGGTGT TCTTCCGCGT GAAGGAGATT CTACATTGTC ACTCCATGTT CCAGATTGCT 
CTGTCCTCCC GCGTGGCCGA ATGGGACTCC ACAGAGAAGA TTGGAGACCT CTTTGTGGCA 
TCATTCTCCA AGTCCATGGT CCTAGACGTA TACAGCGACT ATGTGAACAA CTTCACCAAT 
GCCATGTCCA TCATCAAGAA GGCCTGTCTC ACCAAGCCAG CGTTCCTTGA GTTCCTCAAG 
CGGCGGCAGG TGTGCAGTAC GGACCGAGTC ACCCTCTATG GGTTGATGGT GAAACCCGTT 
CAGAGATTTC CACAGTTCAT CCTCCTGCTC CAGGACATGC TGAAGAACAC TCCCAGGGGC 
CACCCTGACA GGCTGTCGCT GCAGTTAGCC CTCACGGAGC TGGAGACGCT GGCGGAGAAG 
CTGAATGAAC AGAAGCGGTT GGCCGATCAG GTGGCTGAGA TCCAGCAGCT GACCAAGAGT 
GTCAGTGACC GCAGCAGCCT CAACAAGCTG TTGACCTCTG GCCAGCGGCA GCTGCTTCTG 
TGTGAGACAC TGACCGAGAC GGTGTATGGA GACCGAGGGC AGCTGATCAA GTCCAAGGAG 
CGCAGGGTCT TCCTGCTCAA TGACATGCTG GTCTGCGCCA ACATCAACTT CAAGCCCTCC 
AACCACAGGG GCCAGCTGGA GATCAGCAGC CTGGTGCCTC TGGGGCCCAA GTACGTGGTG 
AAGTGGAACA CGGCTCTGCC TCAGGTGCAA GTGGTAGAGG TGGGTCAGGA CAGCGGTGCC 
TATGACAAGG ACAATCTGCT CATCCAGCAT GCTGGAGCCA AGAAGGCCAC CACTGCAGGG 
CAGGCCCAGA ACAAGGTGTA CCTGGGCCCC CCACGCCTCT TCCAGGAGCT GCAGGACCTG 
CAGAAGGACC TGGCAGTGGT GGAACAGATC ACGCTGCTCA TCAGCACCTT GCATGGCACT 
TACCAGAATC TGAACATGAC TGTGGCCCAA GACTGGTGCC TGGCCCTGCA GAGGCTGATG 
CGCGTGAAGG AGGAGGAGAT CCACTCGGCT AACAAGTGCC GCCTGAGGCT GCTGCTGCCT 
GGGAAGCCAG ACAAGTCTGG CCGGCCCATC AGTTTCATGG TGGTCTTCAT CACCCCGAAC 
CCCCTGAGCA AGATTTCCTG GGTCAACAGA TTACACTTGG CAAAGATCGG ACTAAGGGAG 
GAGAACCAGC CAGGATGGCT GTGTCCCGAT GAGGACAAGA AAAGCAAAAA CCCGTTCTGG 
TGCCCCATCC TGGCCTGCTG CGTCCCCGCC TTCTCCTCCC GGGCCCTCAG CCTGCAGCTT 
GGCGGTCTGG TCCACAGTCC TGTTAACTCT CCCCTGCTGG GCTTCTCGGC TGTCAGCACT 
TCCCTTCCAC AGGGCTACCT TTGGGTTGGC GGTGGTCAAG AGGGTGCTGG TGGCCAGGTG 
GACATCTTCT CCCTGAACCG GCCTTCACCT CGCACGGTCA AGTCCTTCCC AGTGGCAGCC 
CCTGTGCTTT GCATAGAGTA TATTCCAGAT CCGGAGGAGG AGGCTGAGGG TGGAGAGGAG 
AGCCGGGCGG CCACCGATCC CTCGGTCACA GTGCATCCCA CTGTCTGCCT CGGCTTGCAG 
GATGGCAGCA TCCTGCTCTA TGGCAGTGTA GACACTGGTA CCCAGTGCCT GGCCACCTGC 
AAGAGCCCAG GCCCGCAGCC CGTGCTCTGT CTGCGTCACA GCCCCTTCTA CCTGCTTGCC 
GGCCTTCAGG ACGGGACCCT CGCTGCCTAT CCTCGGACCA GTGGTGACAT TCCCTGGGAC 
CTGGAGAGCC CTCCCATGTG CATAACTGTG GGCCCAGGGC CGATTCGCAC GCTGCTGAGC 
CTGGAGGATG CCGCCTGGGC CAGCTGCGGG CCAAGGGTCA CTGTACTAGA TGCTGCCACT 
CTGCAGACTC AGCAAAGCTT CGAGGCGCAC CAGGATGAGG CGGTGAGTGT CACTCACATG 
GTGAAAGCCG GCAGCGGTGT CTGGATGGCC TTCTCCTCTG GCTCTTCCAT CCGTCTCTTC 
CACACCGAGA CTCTGGAGCA CCTTCAGGAG ATCAACATCG CCACCAGGAC CACCTTCCTC 
CTGCCAGGCC AAAAGCACCT ATGTGTCACC AGCCTCCTCA TCTGCCAGGG TCTGCTCTGG 
GTAGGCACTG ACCAGGGTGT CATTGTCCTG TTGCCTGTAC CCCGACTGGA GGGCATCCCC 
AAGATCACAG GGAAAGGCAT GGTGTCTCTC AATGGTCACT GTGGACCTGT GGCCTTCCTG 
GCTGTGGCCA TGAGCATCCT GGCCCCTGAC ATCCTGCGGA GTGACCAGGA AGAGGCTGAG 
GGACCACAGG CCGAGGAGGA CAAGCCGGAC GGGCAGGCTC ATGAAACTGT GCCTGGGCCT 
GACAGCCACA CGGCTCGGGA GCTGACCCGC AAGAAAGGCA TCTTGCTTCA ATACCGCCTG 
CGCTCCACGG CCCACCTCCC CGGGCCCCTG CTGTCTGTGC GGGAGCCAGC TCCTGCCGAT 
GGCTCGGCTC TGGAACACAG TGAGGAGGAC GGGTCCATCT ATGAGATGGC CGATGATCCT 
GACGTCTGGG TCCGGAGCCG GCCCTGTGCC CGTGACGCCC ACCGCAAAGA GATCTGCTCT 
GTGGCTATCA TCTCTGGTGG ACAAGGCTAT CGCCATTTCG GCGGTGCTCC AGGAGGCCTG 
AGTGGGCGGC CGGCCCCGTG CAGCGAGACA GACAGCACAC TTCTCATCTG GCAGGTGCCC 
TTGGCTCTAT AG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055506.1
CDS	1..3192
Translation	MLPSSSWGKRKPRSRQLGWVRCDARGNMWARQEDLRHPHPHPHALIRCPSSSSSSVSCSGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199847.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X9, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199847.1

ORF Insert Sequence:

ATGTTACCCA GCAGCTCATG GGGGAAGAGG AAGCCACGGA GCCGGCAACT GGGGTGGGTG 
CGCTGTGATG CCCGAGGCAA TATGTGGGCC AGGCAGGAGG ACCTTCGCCA CCCACACCCT 
CACCCCCATG CGCTCATCCG CTGTCCATCC TCCTCCTCCT CCTCTGTGTC CTGCTCAGGT 
GACTCGGAAG AAGAAGATAT GGGGCTCCTG GAGGTTGGTG TGACGGATAT CAAACCTCCC 
GCGCCAGAGC TCGGCCCCAT GCCGGATGGC TTGAGTCCTC AGCAGGTGGT CCGGAGACAC 
ATCCTGGGCT CCATCGTGCA GAGCGAAGGC AGCTATGTGG AGTCACTGAA GAGGATACTC 
CAGGATTATC GTAACCCACT AATGGAGATG GAGCCCAAGG CGCTGAGCGC TCGCAAGTGT 
CAGGTGGTGT TCTTCCGCGT GAAGGAGATT CTACATTGTC ACTCCATGTT CCAGATTGCT 
CTGTCCTCCC GCGTGGCCGA ATGGGACTCC ACAGAGAAGA TTGGAGACCT CTTTGTGGCA 
TCATTCTCCA AGTCCATGGT CCTAGACGTA TACAGCGACT ATGTGAACAA CTTCACCAAT 
GCCATGTCCA TCATCAAGAA GGCCTGTCTC ACCAAGCCAG CGTTCCTTGA GTTCCTCAAG 
CGGCGGCAGG TGTGCAGTAC GGACCGAGTC ACCCTCTATG GGTTGATGGT GAAACCCGTT 
CAGAGATTTC CACAGTTCAT CCTCCTGCTC CAGGACATGC TGAAGAACAC TCCCAGGGGC 
CACCCTGACA GGCTGTCGCT GCAGTTAGCC CTCACGGAGC TGGAGACGCT GGCGGAGAAG 
CTGAATGAAC AGAAGCGGTT GGCCGATCAG GTGGCTGAGA TCCAGCAGCT GACCAAGAGT 
GTCAGTGACC GCAGCAGCCT CAACAAGCTG TTGACCTCTG GCCAGCGGCA GCTGCTTCTG 
TGTGAGACAC TGACCGAGAC GGTGTATGGA GACCGAGGGC AGCTGATCAA GTCCAAGGAG 
CGCAGGGTCT TCCTGCTCAA TGACATGCTG GTCTGCGCCA ACATCAACTT CAAGCCCTCC 
AACCACAGGG GCCAGCTGGA GATCAGCAGC CTGGTGCCTC TGGGGCCCAA GTACGTGGTG 
AAGTGGAACA CGGCTCTGCC TCAGGTGCAA GTGGTAGAGG TGGGTCAGGA CAGCGGTGCC 
TATGACAAGG ACAATCTGCT CATCCAGCAT GCTGGAGCCA AGAAGGCCAC CACTGCAGGG 
CAGGCCCAGA ACAAGGTGTA CCTGGGCCCC CCACGCCTCT TCCAGGAGCT GCAGGACCTG 
CAGAAGGACC TGGCAGTGGT GGAACAGATC ACGCTGCTCA TCAGCACCTT GCATGGCACT 
TACCAGAATC TGAACATGAC TGTGGCCCAA GACTGGTGCC TGGCCCTGCA GAGGCTGATG 
CGCGTGAAGG AGGAGGAGAT CCACTCGGCT AACAAGTGCC GCCTGAGGCT GCTGCTGCCT 
GGGAAGCCAG ACAAGTCTGG CCGGCCCATC AGTTTCATGG TGGTCTTCAT CACCCCGAAC 
CCCCTGAGCA AGATTTCCTG GGTCAACAGA TTACACTTGG CAAAGATCGG ACTAAGGGAG 
GAGAACCAGC CAGGATGGCT GTGTCCCGAT GAGGACAAGA AAAGCAAAAA CCCGTTCTGG 
TGCCCCATCC TGGCCTGCTG CGTCCCCGCC TTCTCCTCCC GGGCCCTCAG CCTGCAGCTT 
GGCGGTCTGG TCCACAGTCC TGTTAACTCT CCCCTGCTGG GCTTCTCGGC TGTCAGCACT 
TCCCTTCCAC AGGGCTACCT TTGGGTTGGC GGTGGTCAAG AGGGTGCTGG TGGCCAGGTG 
GACATCTTCT CCCTGAACCG GCCTTCACCT CGCACGGTCA AGTCCTTCCC AGTGGCAGCC 
CCTGTGCTTT GCATAGAGTA TATTCCAGAT CCGGAGGAGG AGGCTGAGGG TGGAGAGGAG 
AGCCGGGCGG CCACCGATCC CTCGGTCACA GTGCATCCCA CTGTCTGCCT CGGCTTGCAG 
GATGGCAGCA TCCTGCTCTA TGGCAGTGTA GACACTGGTA CCCAGTGCCT GGCCACCTGC 
AAGAGCCCAG GCCCGCAGCC CGTGCTCTGT CTGCGTCACA GCCCCTTCTA CCTGCTTGCC 
GGCCTTCAGG ACGGGACCCT CGCTGCCTAT CCTCGGACCA GTGGTGACAT TCCCTGGGAC 
CTGGAGAGCC CTCCCATGTG CATAACTGTG GGCCCAGGGC CGATTCGCAC GCTGCTGAGC 
CTGGAGGATG CCGCCTGGGC CAGCTGCGGG CCAAGGGTCA CTGTACTAGA TGCTGCCACT 
CTGCAGACTC AGCAAAGCTT CGAGGCGCAC CAGGATGAGG CGGTGAGTGT CACTCACATG 
GTGAAAGCCG GCAGCGGTGT CTGGATGGCC TTCTCCTCTG GCTCTTCCAT CCGTCTCTTC 
CACACCGAGA CTCTGGAGCA CCTTCAGGAG ATCAACATCG CCACCAGGAC CACCTTCCTC 
CTGCCAGGCC AAAAGCACCT ATGTGTCACC AGCCTCCTCA TCTGCCAGGG TCTGCTCTGG 
GTAGGCACTG ACCAGGGTGT CATTGTCCTG TTGCCTGTAC CCCGACTGGA GGGCATCCCC 
AAGATCACAG GGAAAGGCAT GGTGTCTCTC AATGGTCACT GTGGACCTGT GGCCTTCCTG 
GCTGTGGCCA TGAGCATCCT GGCCCCTGAC ATCCTGCGGA GTGACCAGGA AGAGGCTGAG 
GGACCACAGG CCGAGGAGGA CAAGCCGGAC GGGCAGGCTC ATGAAACTGT GCCTGGGCCT 
GACAGCCACA CGGCTCGGGA GCTGACCCGC AAGAAAGGCA TCTTGCTTCA ATACCGCCTG 
CGCTCCACGG CCCACCTCCC CGGGCCCCTG CTGTCTGTGC GGGAGCCAGC TCCTGCCGAT 
GGCTCGGCTC TGGAACACAG TGAGGAGGAC GGGTCCATCT ATGAGATGGC CGATGATCCT 
GACGTCTGGG TCCGGAGCCG GCCCTGTGCC CGTGACGCCC ACCGCAAAGA GATCTGCTCT 
GTGGCTATCA TCTCTGGTGG ACAAGGCTAT CGCCATTTCG GCGGTGCTCC AGGAGGCCTG 
AGTGGGCGGC CGGCCCCGTG CAGCGAGACA GACAGCACAC TTCTCATCTG GCAGGTGCCC 
TTGGCTCTAT AG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Arhgef10l ( XM_021199847.2 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021055506.1 Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X10, mRNA.

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CloneID	OMv15209
Clone ID Related Accession (Same CDS sequence)	XM_021199847.1 , XM_021199847.2
Accession Version	XM_021199847.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3192bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	rho guanine nucleotide exchange factor 10-like protein isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034595.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 18, 2019 this sequence version replaced XM_021199847.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTACCCA GCAGCTCATG GGGGAAGAGG AAGCCACGGA GCCGGCAACT GGGGTGGGTG 
CGCTGTGATG CCCGAGGCAA TATGTGGGCC AGGCAGGAGG ACCTTCGCCA CCCACACCCT 
CACCCCCATG CGCTCATCCG CTGTCCATCC TCCTCCTCCT CCTCTGTGTC CTGCTCAGGT 
GACTCGGAAG AAGAAGATAT GGGGCTCCTG GAGGTTGGTG TGACGGATAT CAAACCTCCC 
GCGCCAGAGC TCGGCCCCAT GCCGGATGGC TTGAGTCCTC AGCAGGTGGT CCGGAGACAC 
ATCCTGGGCT CCATCGTGCA GAGCGAAGGC AGCTATGTGG AGTCACTGAA GAGGATACTC 
CAGGATTATC GTAACCCACT AATGGAGATG GAGCCCAAGG CGCTGAGCGC TCGCAAGTGT 
CAGGTGGTGT TCTTCCGCGT GAAGGAGATT CTACATTGTC ACTCCATGTT CCAGATTGCT 
CTGTCCTCCC GCGTGGCCGA ATGGGACTCC ACAGAGAAGA TTGGAGACCT CTTTGTGGCA 
TCATTCTCCA AGTCCATGGT CCTAGACGTA TACAGCGACT ATGTGAACAA CTTCACCAAT 
GCCATGTCCA TCATCAAGAA GGCCTGTCTC ACCAAGCCAG CGTTCCTTGA GTTCCTCAAG 
CGGCGGCAGG TGTGCAGTAC GGACCGAGTC ACCCTCTATG GGTTGATGGT GAAACCCGTT 
CAGAGATTTC CACAGTTCAT CCTCCTGCTC CAGGACATGC TGAAGAACAC TCCCAGGGGC 
CACCCTGACA GGCTGTCGCT GCAGTTAGCC CTCACGGAGC TGGAGACGCT GGCGGAGAAG 
CTGAATGAAC AGAAGCGGTT GGCCGATCAG GTGGCTGAGA TCCAGCAGCT GACCAAGAGT 
GTCAGTGACC GCAGCAGCCT CAACAAGCTG TTGACCTCTG GCCAGCGGCA GCTGCTTCTG 
TGTGAGACAC TGACCGAGAC GGTGTATGGA GACCGAGGGC AGCTGATCAA GTCCAAGGAG 
CGCAGGGTCT TCCTGCTCAA TGACATGCTG GTCTGCGCCA ACATCAACTT CAAGCCCTCC 
AACCACAGGG GCCAGCTGGA GATCAGCAGC CTGGTGCCTC TGGGGCCCAA GTACGTGGTG 
AAGTGGAACA CGGCTCTGCC TCAGGTGCAA GTGGTAGAGG TGGGTCAGGA CAGCGGTGCC 
TATGACAAGG ACAATCTGCT CATCCAGCAT GCTGGAGCCA AGAAGGCCAC CACTGCAGGG 
CAGGCCCAGA ACAAGGTGTA CCTGGGCCCC CCACGCCTCT TCCAGGAGCT GCAGGACCTG 
CAGAAGGACC TGGCAGTGGT GGAACAGATC ACGCTGCTCA TCAGCACCTT GCATGGCACT 
TACCAGAATC TGAACATGAC TGTGGCCCAA GACTGGTGCC TGGCCCTGCA GAGGCTGATG 
CGCGTGAAGG AGGAGGAGAT CCACTCGGCT AACAAGTGCC GCCTGAGGCT GCTGCTGCCT 
GGGAAGCCAG ACAAGTCTGG CCGGCCCATC AGTTTCATGG TGGTCTTCAT CACCCCGAAC 
CCCCTGAGCA AGATTTCCTG GGTCAACAGA TTACACTTGG CAAAGATCGG ACTAAGGGAG 
GAGAACCAGC CAGGATGGCT GTGTCCCGAT GAGGACAAGA AAAGCAAAAA CCCGTTCTGG 
TGCCCCATCC TGGCCTGCTG CGTCCCCGCC TTCTCCTCCC GGGCCCTCAG CCTGCAGCTT 
GGCGGTCTGG TCCACAGTCC TGTTAACTCT CCCCTGCTGG GCTTCTCGGC TGTCAGCACT 
TCCCTTCCAC AGGGCTACCT TTGGGTTGGC GGTGGTCAAG AGGGTGCTGG TGGCCAGGTG 
GACATCTTCT CCCTGAACCG GCCTTCACCT CGCACGGTCA AGTCCTTCCC AGTGGCAGCC 
CCTGTGCTTT GCATAGAGTA TATTCCAGAT CCGGAGGAGG AGGCTGAGGG TGGAGAGGAG 
AGCCGGGCGG CCACCGATCC CTCGGTCACA GTGCATCCCA CTGTCTGCCT CGGCTTGCAG 
GATGGCAGCA TCCTGCTCTA TGGCAGTGTA GACACTGGTA CCCAGTGCCT GGCCACCTGC 
AAGAGCCCAG GCCCGCAGCC CGTGCTCTGT CTGCGTCACA GCCCCTTCTA CCTGCTTGCC 
GGCCTTCAGG ACGGGACCCT CGCTGCCTAT CCTCGGACCA GTGGTGACAT TCCCTGGGAC 
CTGGAGAGCC CTCCCATGTG CATAACTGTG GGCCCAGGGC CGATTCGCAC GCTGCTGAGC 
CTGGAGGATG CCGCCTGGGC CAGCTGCGGG CCAAGGGTCA CTGTACTAGA TGCTGCCACT 
CTGCAGACTC AGCAAAGCTT CGAGGCGCAC CAGGATGAGG CGGTGAGTGT CACTCACATG 
GTGAAAGCCG GCAGCGGTGT CTGGATGGCC TTCTCCTCTG GCTCTTCCAT CCGTCTCTTC 
CACACCGAGA CTCTGGAGCA CCTTCAGGAG ATCAACATCG CCACCAGGAC CACCTTCCTC 
CTGCCAGGCC AAAAGCACCT ATGTGTCACC AGCCTCCTCA TCTGCCAGGG TCTGCTCTGG 
GTAGGCACTG ACCAGGGTGT CATTGTCCTG TTGCCTGTAC CCCGACTGGA GGGCATCCCC 
AAGATCACAG GGAAAGGCAT GGTGTCTCTC AATGGTCACT GTGGACCTGT GGCCTTCCTG 
GCTGTGGCCA TGAGCATCCT GGCCCCTGAC ATCCTGCGGA GTGACCAGGA AGAGGCTGAG 
GGACCACAGG CCGAGGAGGA CAAGCCGGAC GGGCAGGCTC ATGAAACTGT GCCTGGGCCT 
GACAGCCACA CGGCTCGGGA GCTGACCCGC AAGAAAGGCA TCTTGCTTCA ATACCGCCTG 
CGCTCCACGG CCCACCTCCC CGGGCCCCTG CTGTCTGTGC GGGAGCCAGC TCCTGCCGAT 
GGCTCGGCTC TGGAACACAG TGAGGAGGAC GGGTCCATCT ATGAGATGGC CGATGATCCT 
GACGTCTGGG TCCGGAGCCG GCCCTGTGCC CGTGACGCCC ACCGCAAAGA GATCTGCTCT 
GTGGCTATCA TCTCTGGTGG ACAAGGCTAT CGCCATTTCG GCGGTGCTCC AGGAGGCCTG 
AGTGGGCGGC CGGCCCCGTG CAGCGAGACA GACAGCACAC TTCTCATCTG GCAGGTGCCC 
TTGGCTCTAT AG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021055506.1
CDS	249..3440
Translation	MLPSSSWGKRKPRSRQLGWVRCDARGNMWARQEDLRHPHPHPHALIRCPSSSSSSVSCSGDSEEEDMGLLEVGVTDIKPPAPELGPMPDGLSPQQVVRRHILGSIVQSEGSYVESLKRILQDYRNPLMEMEPKALSARKCQVVFFRVKEILHCHSMFQIALSSRVAEWDSTEKIGDLFVASFSKSMVLDVYSDYVNNFTNAMSIIKKACLTKPAFLEFLKRRQVCSTDRVTLYGLMVKPVQRFPQFILLLQDMLKNTPRGHPDRLSLQLALTELETLAEKLNEQKRLADQVAEIQQLTKSVSDRSSLNKLLTSGQRQLLLCETLTETVYGDRGQLIKSKERRVFLLNDMLVCANINFKPSNHRGQLEISSLVPLGPKYVVKWNTALPQVQVVEVGQDSGAYDKDNLLIQHAGAKKATTAGQAQNKVYLGPPRLFQELQDLQKDLAVVEQITLLISTLHGTYQNLNMTVAQDWCLALQRLMRVKEEEIHSANKCRLRLLLPGKPDKSGRPISFMVVFITPNPLSKISWVNRLHLAKIGLREENQPGWLCPDEDKKSKNPFWCPILACCVPAFSSRALSLQLGGLVHSPVNSPLLGFSAVSTSLPQGYLWVGGGQEGAGGQVDIFSLNRPSPRTVKSFPVAAPVLCIEYIPDPEEEAEGGEESRAATDPSVTVHPTVCLGLQDGSILLYGSVDTGTQCLATCKSPGPQPVLCLRHSPFYLLAGLQDGTLAAYPRTSGDIPWDLESPPMCITVGPGPIRTLLSLEDAAWASCGPRVTVLDAATLQTQQSFEAHQDEAVSVTHMVKAGSGVWMAFSSGSSIRLFHTETLEHLQEINIATRTTFLLPGQKHLCVTSLLICQGLLWVGTDQGVIVLLPVPRLEGIPKITGKGMVSLNGHCGPVAFLAVAMSILAPDILRSDQEEAEGPQAEEDKPDGQAHETVPGPDSHTARELTRKKGILLQYRLRSTAHLPGPLLSVREPAPADGSALEHSEEDGSIYEMADDPDVWVRSRPCARDAHRKEICSVAIISGGQGYRHFGGAPGGLSGRPAPCSETDSTLLIWQVPLAL

Target ORF information:

RefSeq Version	XM_021199847.2
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari Rho guanine nucleotide exchange factor 10 like (Arhgef10l), transcript variant X10, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021199847.2

ORF Insert Sequence:

ATGTTACCCA GCAGCTCATG GGGGAAGAGG AAGCCACGGA GCCGGCAACT GGGGTGGGTG 
CGCTGTGATG CCCGAGGCAA TATGTGGGCC AGGCAGGAGG ACCTTCGCCA CCCACACCCT 
CACCCCCATG CGCTCATCCG CTGTCCATCC TCCTCCTCCT CCTCTGTGTC CTGCTCAGGT 
GACTCGGAAG AAGAAGATAT GGGGCTCCTG GAGGTTGGTG TGACGGATAT CAAACCTCCC 
GCGCCAGAGC TCGGCCCCAT GCCGGATGGC TTGAGTCCTC AGCAGGTGGT CCGGAGACAC 
ATCCTGGGCT CCATCGTGCA GAGCGAAGGC AGCTATGTGG AGTCACTGAA GAGGATACTC 
CAGGATTATC GTAACCCACT AATGGAGATG GAGCCCAAGG CGCTGAGCGC TCGCAAGTGT 
CAGGTGGTGT TCTTCCGCGT GAAGGAGATT CTACATTGTC ACTCCATGTT CCAGATTGCT 
CTGTCCTCCC GCGTGGCCGA ATGGGACTCC ACAGAGAAGA TTGGAGACCT CTTTGTGGCA 
TCATTCTCCA AGTCCATGGT CCTAGACGTA TACAGCGACT ATGTGAACAA CTTCACCAAT 
GCCATGTCCA TCATCAAGAA GGCCTGTCTC ACCAAGCCAG CGTTCCTTGA GTTCCTCAAG 
CGGCGGCAGG TGTGCAGTAC GGACCGAGTC ACCCTCTATG GGTTGATGGT GAAACCCGTT 
CAGAGATTTC CACAGTTCAT CCTCCTGCTC CAGGACATGC TGAAGAACAC TCCCAGGGGC 
CACCCTGACA GGCTGTCGCT GCAGTTAGCC CTCACGGAGC TGGAGACGCT GGCGGAGAAG 
CTGAATGAAC AGAAGCGGTT GGCCGATCAG GTGGCTGAGA TCCAGCAGCT GACCAAGAGT 
GTCAGTGACC GCAGCAGCCT CAACAAGCTG TTGACCTCTG GCCAGCGGCA GCTGCTTCTG 
TGTGAGACAC TGACCGAGAC GGTGTATGGA GACCGAGGGC AGCTGATCAA GTCCAAGGAG 
CGCAGGGTCT TCCTGCTCAA TGACATGCTG GTCTGCGCCA ACATCAACTT CAAGCCCTCC 
AACCACAGGG GCCAGCTGGA GATCAGCAGC CTGGTGCCTC TGGGGCCCAA GTACGTGGTG 
AAGTGGAACA CGGCTCTGCC TCAGGTGCAA GTGGTAGAGG TGGGTCAGGA CAGCGGTGCC 
TATGACAAGG ACAATCTGCT CATCCAGCAT GCTGGAGCCA AGAAGGCCAC CACTGCAGGG 
CAGGCCCAGA ACAAGGTGTA CCTGGGCCCC CCACGCCTCT TCCAGGAGCT GCAGGACCTG 
CAGAAGGACC TGGCAGTGGT GGAACAGATC ACGCTGCTCA TCAGCACCTT GCATGGCACT 
TACCAGAATC TGAACATGAC TGTGGCCCAA GACTGGTGCC TGGCCCTGCA GAGGCTGATG 
CGCGTGAAGG AGGAGGAGAT CCACTCGGCT AACAAGTGCC GCCTGAGGCT GCTGCTGCCT 
GGGAAGCCAG ACAAGTCTGG CCGGCCCATC AGTTTCATGG TGGTCTTCAT CACCCCGAAC 
CCCCTGAGCA AGATTTCCTG GGTCAACAGA TTACACTTGG CAAAGATCGG ACTAAGGGAG 
GAGAACCAGC CAGGATGGCT GTGTCCCGAT GAGGACAAGA AAAGCAAAAA CCCGTTCTGG 
TGCCCCATCC TGGCCTGCTG CGTCCCCGCC TTCTCCTCCC GGGCCCTCAG CCTGCAGCTT 
GGCGGTCTGG TCCACAGTCC TGTTAACTCT CCCCTGCTGG GCTTCTCGGC TGTCAGCACT 
TCCCTTCCAC AGGGCTACCT TTGGGTTGGC GGTGGTCAAG AGGGTGCTGG TGGCCAGGTG 
GACATCTTCT CCCTGAACCG GCCTTCACCT CGCACGGTCA AGTCCTTCCC AGTGGCAGCC 
CCTGTGCTTT GCATAGAGTA TATTCCAGAT CCGGAGGAGG AGGCTGAGGG TGGAGAGGAG 
AGCCGGGCGG CCACCGATCC CTCGGTCACA GTGCATCCCA CTGTCTGCCT CGGCTTGCAG 
GATGGCAGCA TCCTGCTCTA TGGCAGTGTA GACACTGGTA CCCAGTGCCT GGCCACCTGC 
AAGAGCCCAG GCCCGCAGCC CGTGCTCTGT CTGCGTCACA GCCCCTTCTA CCTGCTTGCC 
GGCCTTCAGG ACGGGACCCT CGCTGCCTAT CCTCGGACCA GTGGTGACAT TCCCTGGGAC 
CTGGAGAGCC CTCCCATGTG CATAACTGTG GGCCCAGGGC CGATTCGCAC GCTGCTGAGC 
CTGGAGGATG CCGCCTGGGC CAGCTGCGGG CCAAGGGTCA CTGTACTAGA TGCTGCCACT 
CTGCAGACTC AGCAAAGCTT CGAGGCGCAC CAGGATGAGG CGGTGAGTGT CACTCACATG 
GTGAAAGCCG GCAGCGGTGT CTGGATGGCC TTCTCCTCTG GCTCTTCCAT CCGTCTCTTC 
CACACCGAGA CTCTGGAGCA CCTTCAGGAG ATCAACATCG CCACCAGGAC CACCTTCCTC 
CTGCCAGGCC AAAAGCACCT ATGTGTCACC AGCCTCCTCA TCTGCCAGGG TCTGCTCTGG 
GTAGGCACTG ACCAGGGTGT CATTGTCCTG TTGCCTGTAC CCCGACTGGA GGGCATCCCC 
AAGATCACAG GGAAAGGCAT GGTGTCTCTC AATGGTCACT GTGGACCTGT GGCCTTCCTG 
GCTGTGGCCA TGAGCATCCT GGCCCCTGAC ATCCTGCGGA GTGACCAGGA AGAGGCTGAG 
GGACCACAGG CCGAGGAGGA CAAGCCGGAC GGGCAGGCTC ATGAAACTGT GCCTGGGCCT 
GACAGCCACA CGGCTCGGGA GCTGACCCGC AAGAAAGGCA TCTTGCTTCA ATACCGCCTG 
CGCTCCACGG CCCACCTCCC CGGGCCCCTG CTGTCTGTGC GGGAGCCAGC TCCTGCCGAT 
GGCTCGGCTC TGGAACACAG TGAGGAGGAC GGGTCCATCT ATGAGATGGC CGATGATCCT 
GACGTCTGGG TCCGGAGCCG GCCCTGTGCC CGTGACGCCC ACCGCAAAGA GATCTGCTCT 
GTGGCTATCA TCTCTGGTGG ACAAGGCTAT CGCCATTTCG GCGGTGCTCC AGGAGGCCTG 
AGTGGGCGGC CGGCCCCGTG CAGCGAGACA GACAGCACAC TTCTCATCTG GCAGGTGCCC 
TTGGCTCTAT AG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Gene Symbol	Arhgef10l
Entrez Gene ID	110322908
Full Name	Rho guanine nucleotide exchange factor 10 like
Gene Type	protein-coding
Organism	Mus pahari(shrew mouse)

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

Arhgef10l cDNA ORF clone, Mus pahari(shrew mouse)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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