Umodl1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Umodl1
Entrez Gene ID	110283791
Full Name	uromodulin like 1
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021149285.1	XP_021004944.1	uromodulin-like 1 isoform X2
XM_021149286.1	XP_021004945.1	uromodulin-like 1 isoform X3
XM_021149285.2	XP_021004944.1	uromodulin-like 1 isoform X2
XM_021149284.1	XP_021004943.1	uromodulin-like 1 isoform X1

Pathways from BioSystems
Gene Ontology

The following Umodl1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Umodl1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OMv34764	XM_021149284.1 Latest version!	Mus caroli uromodulin like 1 (Umodl1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
OMv34765	XM_021149285.2 Latest version!	Mus caroli uromodulin like 1 (Umodl1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMv34766	XM_021149286.1 Latest version!	Mus caroli uromodulin like 1 (Umodl1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
View Old Accession Versions >>
OMv34765	XM_021149285.1	Mus caroli uromodulin like 1 (Umodl1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
Hide Old Accession Versions >>

ORF Online Only Promotion

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

Umodl1 ( XM_021149284.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021004943.1 Mus caroli uromodulin like 1 (Umodl1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMv34764
Clone ID Related Accession (Same CDS sequence)	XM_021149284.1
Accession Version	XM_021149284.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4047bp) 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	2019-06-09
Organism	Mus caroli(Ryukyu mouse)
Product	uromodulin-like 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) 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 caroli 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##

ATGATGTCCC GGACTCTGAG GCTGTTCCTG CTGGCTTTGG CCTGTACTGT GGACCTGAGC 
CAGGCCAGTG GCTTTACAGA AAATGGCCTC TCCCTGCTGA GCTACCAGCT CTGCAGCTAC 
CCGGTGACCC GAAGTGTCCA GAAGCTGCAG GCTGTGCAGA CCTCTCACAC AGCCTACGTG 
TACTGCGGAG GATGGATCCC CTGGAAAAAG TGCCCCAAGA CTGTGTACCG GACCCAGTAC 
CTGGCGATGG ATGTCCCTGA GTCCAGGAAT GTGACTGACT GCTGTGCGGG CTTTGAGCAA 
CTTGGCCTCT ACTGCGTTCT GTCCCTGAAC CGGTCCCGGG AGTTTGCATC GAGGCCCGGG 
GTCTGCCCAA CAGCTGAAGC AGAGCCACTT AGCCCTTCAT GCAGCTTGGA TACAGACTGC 
TCTGGACTTC AGAAGTGCTG TTCCTGGCCA GGGGGCCGTC ACTGTGTGTC CCCCACTCCC 
ACAGGTACAG AGAAGAGCAT GGTGAGCTGG TACAATGTGA CTGTGCTGGT GAAGATGGGC 
TTTGAGGACC TGCAGCGAGA GGACCCTGGG CTCCGGAACC ACACTCGCCT GCTCTACTCT 
TTGGTTACCA GTGCCTTGCA GCCTCTGAAC CCAGCTGTAC ACTACCTGAC CTCAACTGGT 
GGCAGGGACA CATTCACCAC TGTGTCATGG CTACTGGTGG GCTTTCCACG GCTCATGACA 
GTAGCCAATT TCTCCGTCAT GTTGGATGGC ATGGTGAATC GGGTCTATGA GGTGGTCAGC 
ATCCAGGTGC AAGATGTGAA CGAGTGTCTT CACAGTGAGC TGCAAGCCTG CTCTGTAGGA 
GAGCAGTGCC GCAACCTGGA GGGCTCCTAC CAATGTGTGT CTTCCCAGCG GCTGAACCAC 
ACAGATGAAG ATTGCCCTCC AATCCGAGAT TTCATGGCAC TTAATGTCAC CAGCAGCAGT 
TTCCATGTGT CCTGGAGTTT GAATTCCACT CAGAACCACA CTTTCCACGT TCAAGTGTAC 
AAAGGCAAAG AGATACTCAG AAGCGATTGG ATAAGGGGCC ACACTATGGC TGTGTCTGAG 
TTGGAGGCTG GAGTACTTTA CAGCGTGAGG ACTAGCTACC TGGGGTGCCA GGCCAATGTT 
TCTGCCACAC TGGTTGTCAA GACAGATGCC CAGGTTTTCC AAGTCACAAT ACGGATCATG 
GACCGTAACC TGACAGAGCA GATTCTTGAC TGCAGCAGCG GGGAATTCTG GAACTTTTCT 
CGACAGCTGT TTCATGAGGT GGAAAACTCC TTCCCCCAAG CCATCTCTGA CCTGTACAGA 
CAAGGGAGGC TGAGGATGCA GATCGTGTCT CTGCAGGCAG GGAGTCTAGT GGTGACGCTT 
AGACTCACCC TGCAAGATCC TGACTTTTCA GTGGGTGTCC ACACACTGAA GCCCATGCTG 
CTCCCCCTGT CTGTGAGCAA CGTGTTCCAG GTTGACCAGC AGAGGACATT CGTGCAAGAC 
TGGGATGAGT GTGCACACAG CTCGGAGCAT GACTGCCACC CGAGCGCACG CTGCATCAAC 
CTGGAGGGCT CCTACACGTG CCAGTGCCTC ACAGCCAGGG ATGCCAGCCC CTCCAGGGCT 
GGCAGGGTCT GCGAGGGTGA CATGGTGATC CCCACAGGAG ATGGACTGTC TGTAACAACG 
AAGGTCACAG TCCCAGCTGT CAGTACGGGA ATAACAACCT TTGGCCCAGA GACCCTCACT 
GAGTCACTAA GTTCCAAGCA CCCAAGGAGC ACCCCAGCAA GAAGTCAAAC CTGGACCTCA 
GTGCCCCCAT CAGTGAGAGA TGGGGGTAGC ATAGTCAGGC AGGATAGGAA TAGCACAGGA 
CAAGGTATGG AGGCGCCCAA CGTGACTCCA AACCTGGGCA TAACCCACAG AAATACCAGT 
GGGGTGACAA GCTCTGTTCC CTGGGCTCCA GGACAGACCC ATGGAACCCA TCAGGGGACC 
ACAGATGCCC CACTGCACAC CACTGGAGAG TCACAGGAAT TTATCACCAA AGATCCACCC 
TTCCTGACTG CTACAACCAC GGGCTATGTT GTGTGGCACT CCAGTCCCAC TTGGAAGACA 
CTTCCAAACT CCATAAGACT ACCAAATGAA GACCCTCGAT CTTCCTCCTT CCCAGGCCCG 
CCATCAGCCC CAACCGATGT GACTCCAGAG TCCCCTGCCT GTGTTCCTGG ACCCATTGGA 
AAGGTCACGG TCTCTAACGT GACCAGTACC AGCTTCTCCC TCGAGTGGCC TGCAGACATC 
CACCTCTCCC CTGCCTTCCA CCTCACATGG GTCTCTCCTC GGGGTCCTGC CATGACTATG 
GAGACCCAGA ACAATAATGT GACATTGTCG GGACTGGAAT GGGGAACCTT GTATCTGGTG 
GAGATTGTGG CTAAGGTGTG TGGGAAAGAA GGTGCCAGAA CACAGCTGAA AGTGCGGACA 
GTGGCCCAGA AACTTGCCGG GAACGTCCAG ATCACGAGCA TGCAGTATTC GGAATCCTTC 
CGCAATACCA GCAGCAGGGA GCACCGAGAG TTCGTAGAGT TGTTCTTCAG AACGGTGCGG 
GACTCTCTGC CAGCCACGCT GCGTCAGCAC ATGGATGCAG GCAGGATCCG TGTGGACATC 
ACTAACATCA CAAATGGCAG CATCGTGGTG GAGTTTAATT TGCTAATGAC AGCGGACCTT 
GATGTCAGGG AGGTGTCTGC CGGCTTCCTC GATGCCTTAC AGAACACATC GATGCTGGAG 
GTGGTCAGAG GCAAAACTTT TATGCAAGAT TACAACGAGT GTGACATGAG AGAGGATGAC 
TGTGCCCCTG GGACATGCAG GAACACCTTC GGGTCTTTTA CATGTAGCTG TGATGGGGGA 
GGACCTGACT CACAGGTGGA ATATTCTGGA AGGTCCTGTG ATGGTGACCC TTCTGGCAAC 
ACGACCCAGA CCCCAGGCTC AGAGTGGTCT CCTACCCCAG CAGGAACTAG GGGTGTCCCT 
GTGCCAATTG CCAGCTCCAC AGCCCAGGAC CTGCCCCTGC AGCTGAACCT GACGGATGCC 
GTTAGCGTGT CCTGTGAGAT CGAGACGGTG CTCATCACCG TCCAGAAGCG CTTTCTGCAG 
CAGGAGGCCA TACCTGAGGC CTCCCTGTAC CTGGGAGAGC CATCCTGCAA CGTGAGCAGA 
AGCAACAGCA CACACGTGTT TCTGGTGGCT GGCTGGGGCG AGTGTGGGAC CATCTTACAG 
AGTAATGTGA CCACCACAGT GGTGACGACC ACACTGAGGA ACGACCTGTC CCCAGAGGGT 
GTCATCCACC ACCTGCAATT CCTCAGTCCT ATCCACTGTG CCTTCCAGAA TGACCTTCTG 
ACCTCCTCGG GCTACACCCC ACAGTGGGGG GTCTACACCG TCATCGAAGA CCTCCACGGT 
ACTGGAAATT TTGTCACAGA AATGCAGTTG TACATTGGCG ATTCTCCCAT ACCTCAGAAC 
TATAGCGTGT CCGCCAGCGA TGAGATCAAG ATTGAGGTGG GGCTTCACAG GCAGAAGAGC 
AGTCTGAAGG TCGTGCTGAC TGAGTGCTGG GCCACCCCCT CCAGCAACGC CAAGGACCCC 
ATCACCTTTG GCTTCATCAA CAACAGCTGC CCTGTTCCCA ACACCTACAC CAGTGTGATT 
CAGAATGGCA ACTCCAGCAA GGCCCAGTTC AAGCTGAGAA TCTTCTCCTT CATCAACAAC 
TCCATCGTCT ACCTGCACTG CAAGCTGAGA GTGTGCATGG AGAACCCCAG GAACTCGTGC 
AGGATAAGCT GCAATGACTT CCGGTTGCTG AGAAGTAGTG AAGCCTTGCA CCAGATGACC 
TGGGGGCCCC TCCATCGGAC TGAAGGTGCA CAGGCATGTA CAAAGCCAGT CCTGGGAACT 
GGTTACATCA TTCTCCTAGC GGCAGCTGCA CTTCTGGTAG TGGCAGGGGC CACAACCCTT 
CTGATCTTGC GTTACCAGAG AGTAAGGCAG AAGTACAATC TTCGGATCCA GACCGACGAC 
TTCAGCTACC AGGTGTTCTC TCAATAG

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

RefSeq	XP_021004943.1
CDS	66..4112
Translation	MMSRTLRLFLLALACTVDLSQASGFTENGLSLLSYQLCSYPVTRSVQKLQAVQTSHTAYVYCGGWIPWKKCPKTVYRTQYLAMDVPESRNVTDCCAGFEQLGLYCVLSLNRSREFASRPGVCPTAEAEPLSPSCSLDTDCSGLQKCCSWPGGRHCVSPTPTGTEKSMVSWYNVTVLVKMGFEDLQREDPGLRNHTRLLYSLVTSALQPLNPAVHYLTSTGGRDTFTTVSWLLVGFPRLMTVANFSVMLDGMVNRVYEVVSIQVQDVNECLHSELQACSVGEQCRNLEGSYQCVSSQRLNHTDEDCPPIRDFMALNVTSSSFHVSWSLNSTQNHTFHVQVYKGKEILRSDWIRGHTMAVSELEAGVLYSVRTSYLGCQANVSATLVVKTDAQVFQVTIRIMDRNLTEQILDCSSGEFWNFSRQLFHEVENSFPQAISDLYRQGRLRMQIVSLQAGSLVVTLRLTLQDPDFSVGVHTLKPMLLPLSVSNVFQVDQQRTFVQDWDECAHSSEHDCHPSARCINLEGSYTCQCLTARDASPSRAGRVCEGDMVIPTGDGLSVTTKVTVPAVSTGITTFGPETLTESLSSKHPRSTPARSQTWTSVPPSVRDGGSIVRQDRNSTGQGMEAPNVTPNLGITHRNTSGVTSSVPWAPGQTHGTHQGTTDAPLHTTGESQEFITKDPPFLTATTTGYVVWHSSPTWKTLPNSIRLPNEDPRSSSFPGPPSAPTDVTPESPACVPGPIGKVTVSNVTSTSFSLEWPADIHLSPAFHLTWVSPRGPAMTMETQNNNVTLSGLEWGTLYLVEIVAKVCGKEGARTQLKVRTVAQKLAGNVQITSMQYSESFRNTSSREHREFVELFFRTVRDSLPATLRQHMDAGRIRVDITNITNGSIVVEFNLLMTADLDVREVSAGFLDALQNTSMLEVVRGKTFMQDYNECDMREDDCAPGTCRNTFGSFTCSCDGGGPDSQVEYSGRSCDGDPSGNTTQTPGSEWSPTPAGTRGVPVPIASSTAQDLPLQLNLTDAVSVSCEIETVLITVQKRFLQQEAIPEASLYLGEPSCNVSRSNSTHVFLVAGWGECGTILQSNVTTTVVTTTLRNDLSPEGVIHHLQFLSPIHCAFQNDLLTSSGYTPQWGVYTVIEDLHGTGNFVTEMQLYIGDSPIPQNYSVSASDEIKIEVGLHRQKSSLKVVLTECWATPSSNAKDPITFGFINNSCPVPNTYTSVIQNGNSSKAQFKLRIFSFINNSIVYLHCKLRVCMENPRNSCRISCNDFRLLRSSEALHQMTWGPLHRTEGAQACTKPVLGTGYIILLAAAALLVVAGATTLLILRYQRVRQKYNLRIQTDDFSYQVFSQ

Target ORF information:

RefSeq Version	XM_021149284.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli uromodulin like 1 (Umodl1), transcript variant X1, mRNA.

Target ORF information:

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

XM_021149284.1

ORF Insert Sequence:

ATGATGTCCC GGACTCTGAG GCTGTTCCTG CTGGCTTTGG CCTGTACTGT GGACCTGAGC 
CAGGCCAGTG GCTTTACAGA AAATGGCCTC TCCCTGCTGA GCTACCAGCT CTGCAGCTAC 
CCGGTGACCC GAAGTGTCCA GAAGCTGCAG GCTGTGCAGA CCTCTCACAC AGCCTACGTG 
TACTGCGGAG GATGGATCCC CTGGAAAAAG TGCCCCAAGA CTGTGTACCG GACCCAGTAC 
CTGGCGATGG ATGTCCCTGA GTCCAGGAAT GTGACTGACT GCTGTGCGGG CTTTGAGCAA 
CTTGGCCTCT ACTGCGTTCT GTCCCTGAAC CGGTCCCGGG AGTTTGCATC GAGGCCCGGG 
GTCTGCCCAA CAGCTGAAGC AGAGCCACTT AGCCCTTCAT GCAGCTTGGA TACAGACTGC 
TCTGGACTTC AGAAGTGCTG TTCCTGGCCA GGGGGCCGTC ACTGTGTGTC CCCCACTCCC 
ACAGGTACAG AGAAGAGCAT GGTGAGCTGG TACAATGTGA CTGTGCTGGT GAAGATGGGC 
TTTGAGGACC TGCAGCGAGA GGACCCTGGG CTCCGGAACC ACACTCGCCT GCTCTACTCT 
TTGGTTACCA GTGCCTTGCA GCCTCTGAAC CCAGCTGTAC ACTACCTGAC CTCAACTGGT 
GGCAGGGACA CATTCACCAC TGTGTCATGG CTACTGGTGG GCTTTCCACG GCTCATGACA 
GTAGCCAATT TCTCCGTCAT GTTGGATGGC ATGGTGAATC GGGTCTATGA GGTGGTCAGC 
ATCCAGGTGC AAGATGTGAA CGAGTGTCTT CACAGTGAGC TGCAAGCCTG CTCTGTAGGA 
GAGCAGTGCC GCAACCTGGA GGGCTCCTAC CAATGTGTGT CTTCCCAGCG GCTGAACCAC 
ACAGATGAAG ATTGCCCTCC AATCCGAGAT TTCATGGCAC TTAATGTCAC CAGCAGCAGT 
TTCCATGTGT CCTGGAGTTT GAATTCCACT CAGAACCACA CTTTCCACGT TCAAGTGTAC 
AAAGGCAAAG AGATACTCAG AAGCGATTGG ATAAGGGGCC ACACTATGGC TGTGTCTGAG 
TTGGAGGCTG GAGTACTTTA CAGCGTGAGG ACTAGCTACC TGGGGTGCCA GGCCAATGTT 
TCTGCCACAC TGGTTGTCAA GACAGATGCC CAGGTTTTCC AAGTCACAAT ACGGATCATG 
GACCGTAACC TGACAGAGCA GATTCTTGAC TGCAGCAGCG GGGAATTCTG GAACTTTTCT 
CGACAGCTGT TTCATGAGGT GGAAAACTCC TTCCCCCAAG CCATCTCTGA CCTGTACAGA 
CAAGGGAGGC TGAGGATGCA GATCGTGTCT CTGCAGGCAG GGAGTCTAGT GGTGACGCTT 
AGACTCACCC TGCAAGATCC TGACTTTTCA GTGGGTGTCC ACACACTGAA GCCCATGCTG 
CTCCCCCTGT CTGTGAGCAA CGTGTTCCAG GTTGACCAGC AGAGGACATT CGTGCAAGAC 
TGGGATGAGT GTGCACACAG CTCGGAGCAT GACTGCCACC CGAGCGCACG CTGCATCAAC 
CTGGAGGGCT CCTACACGTG CCAGTGCCTC ACAGCCAGGG ATGCCAGCCC CTCCAGGGCT 
GGCAGGGTCT GCGAGGGTGA CATGGTGATC CCCACAGGAG ATGGACTGTC TGTAACAACG 
AAGGTCACAG TCCCAGCTGT CAGTACGGGA ATAACAACCT TTGGCCCAGA GACCCTCACT 
GAGTCACTAA GTTCCAAGCA CCCAAGGAGC ACCCCAGCAA GAAGTCAAAC CTGGACCTCA 
GTGCCCCCAT CAGTGAGAGA TGGGGGTAGC ATAGTCAGGC AGGATAGGAA TAGCACAGGA 
CAAGGTATGG AGGCGCCCAA CGTGACTCCA AACCTGGGCA TAACCCACAG AAATACCAGT 
GGGGTGACAA GCTCTGTTCC CTGGGCTCCA GGACAGACCC ATGGAACCCA TCAGGGGACC 
ACAGATGCCC CACTGCACAC CACTGGAGAG TCACAGGAAT TTATCACCAA AGATCCACCC 
TTCCTGACTG CTACAACCAC GGGCTATGTT GTGTGGCACT CCAGTCCCAC TTGGAAGACA 
CTTCCAAACT CCATAAGACT ACCAAATGAA GACCCTCGAT CTTCCTCCTT CCCAGGCCCG 
CCATCAGCCC CAACCGATGT GACTCCAGAG TCCCCTGCCT GTGTTCCTGG ACCCATTGGA 
AAGGTCACGG TCTCTAACGT GACCAGTACC AGCTTCTCCC TCGAGTGGCC TGCAGACATC 
CACCTCTCCC CTGCCTTCCA CCTCACATGG GTCTCTCCTC GGGGTCCTGC CATGACTATG 
GAGACCCAGA ACAATAATGT GACATTGTCG GGACTGGAAT GGGGAACCTT GTATCTGGTG 
GAGATTGTGG CTAAGGTGTG TGGGAAAGAA GGTGCCAGAA CACAGCTGAA AGTGCGGACA 
GTGGCCCAGA AACTTGCCGG GAACGTCCAG ATCACGAGCA TGCAGTATTC GGAATCCTTC 
CGCAATACCA GCAGCAGGGA GCACCGAGAG TTCGTAGAGT TGTTCTTCAG AACGGTGCGG 
GACTCTCTGC CAGCCACGCT GCGTCAGCAC ATGGATGCAG GCAGGATCCG TGTGGACATC 
ACTAACATCA CAAATGGCAG CATCGTGGTG GAGTTTAATT TGCTAATGAC AGCGGACCTT 
GATGTCAGGG AGGTGTCTGC CGGCTTCCTC GATGCCTTAC AGAACACATC GATGCTGGAG 
GTGGTCAGAG GCAAAACTTT TATGCAAGAT TACAACGAGT GTGACATGAG AGAGGATGAC 
TGTGCCCCTG GGACATGCAG GAACACCTTC GGGTCTTTTA CATGTAGCTG TGATGGGGGA 
GGACCTGACT CACAGGTGGA ATATTCTGGA AGGTCCTGTG ATGGTGACCC TTCTGGCAAC 
ACGACCCAGA CCCCAGGCTC AGAGTGGTCT CCTACCCCAG CAGGAACTAG GGGTGTCCCT 
GTGCCAATTG CCAGCTCCAC AGCCCAGGAC CTGCCCCTGC AGCTGAACCT GACGGATGCC 
GTTAGCGTGT CCTGTGAGAT CGAGACGGTG CTCATCACCG TCCAGAAGCG CTTTCTGCAG 
CAGGAGGCCA TACCTGAGGC CTCCCTGTAC CTGGGAGAGC CATCCTGCAA CGTGAGCAGA 
AGCAACAGCA CACACGTGTT TCTGGTGGCT GGCTGGGGCG AGTGTGGGAC CATCTTACAG 
AGTAATGTGA CCACCACAGT GGTGACGACC ACACTGAGGA ACGACCTGTC CCCAGAGGGT 
GTCATCCACC ACCTGCAATT CCTCAGTCCT ATCCACTGTG CCTTCCAGAA TGACCTTCTG 
ACCTCCTCGG GCTACACCCC ACAGTGGGGG GTCTACACCG TCATCGAAGA CCTCCACGGT 
ACTGGAAATT TTGTCACAGA AATGCAGTTG TACATTGGCG ATTCTCCCAT ACCTCAGAAC 
TATAGCGTGT CCGCCAGCGA TGAGATCAAG ATTGAGGTGG GGCTTCACAG GCAGAAGAGC 
AGTCTGAAGG TCGTGCTGAC TGAGTGCTGG GCCACCCCCT CCAGCAACGC CAAGGACCCC 
ATCACCTTTG GCTTCATCAA CAACAGCTGC CCTGTTCCCA ACACCTACAC CAGTGTGATT 
CAGAATGGCA ACTCCAGCAA GGCCCAGTTC AAGCTGAGAA TCTTCTCCTT CATCAACAAC 
TCCATCGTCT ACCTGCACTG CAAGCTGAGA GTGTGCATGG AGAACCCCAG GAACTCGTGC 
AGGATAAGCT GCAATGACTT CCGGTTGCTG AGAAGTAGTG AAGCCTTGCA CCAGATGACC 
TGGGGGCCCC TCCATCGGAC TGAAGGTGCA CAGGCATGTA CAAAGCCAGT CCTGGGAACT 
GGTTACATCA TTCTCCTAGC GGCAGCTGCA CTTCTGGTAG TGGCAGGGGC CACAACCCTT 
CTGATCTTGC GTTACCAGAG AGTAAGGCAG AAGTACAATC TTCGGATCCA GACCGACGAC 
TTCAGCTACC AGGTGTTCTC TCAATAG

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

Umodl1 ( XM_021149285.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021004944.1 Mus caroli uromodulin like 1 (Umodl1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMv34765
Clone ID Related Accession (Same CDS sequence)	XM_021149285.1 , XM_021149285.2
Accession Version	XM_021149285.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3960bp) 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	2017-05-20
Organism	Mus caroli(Ryukyu mouse)
Product	uromodulin-like 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) 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 caroli 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##

ATGATGTCCC GGACTCTGAG GCTGTTCCTG CTGGCTTTGG CCTGTACTGT GGACCTGAGC 
CAGGCCAGTG GCTTTACAGA AAATGGCCTC TCCCTGCTGA GCTACCAGCT CTGCAGCTAC 
CCGGTGACCC GAAGTGTCCA GAAGCTGCAG GCTGTGCAGA CCTCTCACAC AGCCTACGTG 
TACTGCGGAG GATGGATCCC CTGGAAAAAG TGCCCCAAGA CTGTGTACCG GACCCAGTAC 
CTGGCGATGG ATGTCCCTGA GTCCAGGAAT GTGACTGACT GCTGTGCGGG CTTTGAGCAA 
CTTGGCCTCT ACTGCGTTCT GTCCCTGAAC CGGTCCCGGG AGTTTGCATC GAGGCCCGGG 
GTCTGCCCAA CAGCTGAAGC AGAGCCACTT AGCCCTTCAT GCAGCTTGGA TACAGACTGC 
TCTGGACTTC AGAAGTGCTG TTCCTGGCCA GGGGGCCGTC ACTGTGTGTC CCCCACTCCC 
ACAGGTACAG AGAAGAGCAT GGTGAGCTGG TACAATGTGA CTGTGCTGGT GAAGATGGGC 
TTTGAGGACC TGCAGCGAGA GGACCCTGGG CTCCGGAACC ACACTCGCCT GCTCTACTCT 
TTGGTTACCA GTGCCTTGCA GCCTCTGAAC CCAGCTGTAC ACTACCTGAC CTCAACTGGT 
GGCAGGGACA CATTCACCAC TGTGTCATGG CTACTGGTGG GCTTTCCACG GCTCATGACA 
GTAGCCAATT TCTCCGTCAT GTTGGATGGC ATGGTGAATC GGGTCTATGA GGTGGTCAGC 
ATCCAGGTGC AAGATGTGAA CGAGTGTCTT CACAGTGAGC TGCAAGCCTG CTCTGTAGGA 
GAGCAGTGCC GCAACCTGGA GGGCTCCTAC CAATGTGTGT CTTCCCAGCG GCTGAACCAC 
ACAGATGAAG ATTGCCCTCC AATCCGAGAT TTCATGGCAC TTAATGTCAC CAGCAGCAGT 
TTCCATGTGT CCTGGAGTTT GAATTCCACT CAGAACCACA CTTTCCACGT TCAAGTGTAC 
AAAGGCAAAG AGATACTCAG AAGCGATTGG ATAAGGGGCC ACACTATGGC TGTGTCTGAG 
TTGGAGGCTG GAGTACTTTA CAGCGTGAGG ACTAGCTACC TGGGGTGCCA GGCCAATGTT 
TCTGCCACAC TGGTTGTCAA GACAGATGCC CAGGTTTTCC AAGTCACAAT ACGGATCATG 
GACCGTAACC TGACAGAGCA GATTCTTGAC TGCAGCAGCG GGGAATTCTG GAACTTTTCT 
CGACAGCTGT TTCATGAGGT GGAAAACTCC TTCCCCCAAG CCATCTCTGA CCTGTACAGA 
CAAGGGAGGC TGAGGATGCA GATCGTGTCT CTGCAGGCAG GGAGTCTAGT GGTGACGCTT 
AGACTCACCC TGCAAGATCC TGACTTTTCA GTGGGTGTCC ACACACTGAA GCCCATGCTG 
CTCCCCCTGT CTGTGAGCAA CGTGTTCCAG GTTGACCAGC AGAGGACATT CGTGCAAGAC 
TGGGATGAGT GTGCACACAG CTCGGAGCAT GACTGCCACC CGAGCGCACG CTGCATCAAC 
CTGGAGGGCT CCTACACGTG CCAGTGCCTC ACAGCCAGGG ATGCCAGCCC CTCCAGGGCT 
GGCAGGGTCT GCGAGGGTGA CATGGTGATC CCCACAGGAG ATGGACTGTC TGTAACAACG 
AAGGTCACAG TCCCAGCTGT CAGTACGGGA ATAACAACCT TTGGCCCAGA GACCCTCACT 
GAGTCACTAA GTTCCAAGCA CCCAAGGAGC ACCCCAGCAA GAAGTCAAAC CTGGACCTCA 
GTGCCCCCAT CAGTGAGAGA TGGGGGTAGC ATAGTCAGGC AGGATAGGAA TAGCACAGGA 
CAAGGACAGA CCCATGGAAC CCATCAGGGG ACCACAGATG CCCCACTGCA CACCACTGGA 
GAGTCACAGG AATTTATCAC CAAAGATCCA CCCTTCCTGA CTGCTACAAC CACGGGCTAT 
GTTGTGTGGC ACTCCAGTCC CACTTGGAAG ACACTTCCAA ACTCCATAAG ACTACCAAAT 
GAAGACCCTC GATCTTCCTC CTTCCCAGGC CCGCCATCAG CCCCAACCGA TGTGACTCCA 
GAGTCCCCTG CCTGTGTTCC TGGACCCATT GGAAAGGTCA CGGTCTCTAA CGTGACCAGT 
ACCAGCTTCT CCCTCGAGTG GCCTGCAGAC ATCCACCTCT CCCCTGCCTT CCACCTCACA 
TGGGTCTCTC CTCGGGGTCC TGCCATGACT ATGGAGACCC AGAACAATAA TGTGACATTG 
TCGGGACTGG AATGGGGAAC CTTGTATCTG GTGGAGATTG TGGCTAAGGT GTGTGGGAAA 
GAAGGTGCCA GAACACAGCT GAAAGTGCGG ACAGTGGCCC AGAAACTTGC CGGGAACGTC 
CAGATCACGA GCATGCAGTA TTCGGAATCC TTCCGCAATA CCAGCAGCAG GGAGCACCGA 
GAGTTCGTAG AGTTGTTCTT CAGAACGGTG CGGGACTCTC TGCCAGCCAC GCTGCGTCAG 
CACATGGATG CAGGCAGGAT CCGTGTGGAC ATCACTAACA TCACAAATGG CAGCATCGTG 
GTGGAGTTTA ATTTGCTAAT GACAGCGGAC CTTGATGTCA GGGAGGTGTC TGCCGGCTTC 
CTCGATGCCT TACAGAACAC ATCGATGCTG GAGGTGGTCA GAGGCAAAAC TTTTATGCAA 
GATTACAACG AGTGTGACAT GAGAGAGGAT GACTGTGCCC CTGGGACATG CAGGAACACC 
TTCGGGTCTT TTACATGTAG CTGTGATGGG GGAGGACCTG ACTCACAGGT GGAATATTCT 
GGAAGGTCCT GTGATGGTGA CCCTTCTGGC AACACGACCC AGACCCCAGG CTCAGAGTGG 
TCTCCTACCC CAGCAGGAAC TAGGGGTGTC CCTGTGCCAA TTGCCAGCTC CACAGCCCAG 
GACCTGCCCC TGCAGCTGAA CCTGACGGAT GCCGTTAGCG TGTCCTGTGA GATCGAGACG 
GTGCTCATCA CCGTCCAGAA GCGCTTTCTG CAGCAGGAGG CCATACCTGA GGCCTCCCTG 
TACCTGGGAG AGCCATCCTG CAACGTGAGC AGAAGCAACA GCACACACGT GTTTCTGGTG 
GCTGGCTGGG GCGAGTGTGG GACCATCTTA CAGAGTAATG TGACCACCAC AGTGGTGACG 
ACCACACTGA GGAACGACCT GTCCCCAGAG GGTGTCATCC ACCACCTGCA ATTCCTCAGT 
CCTATCCACT GTGCCTTCCA GAATGACCTT CTGACCTCCT CGGGCTACAC CCCACAGTGG 
GGGGTCTACA CCGTCATCGA AGACCTCCAC GGTACTGGAA ATTTTGTCAC AGAAATGCAG 
TTGTACATTG GCGATTCTCC CATACCTCAG AACTATAGCG TGTCCGCCAG CGATGAGATC 
AAGATTGAGG TGGGGCTTCA CAGGCAGAAG AGCAGTCTGA AGGTCGTGCT GACTGAGTGC 
TGGGCCACCC CCTCCAGCAA CGCCAAGGAC CCCATCACCT TTGGCTTCAT CAACAACAGC 
TGCCCTGTTC CCAACACCTA CACCAGTGTG ATTCAGAATG GCAACTCCAG CAAGGCCCAG 
TTCAAGCTGA GAATCTTCTC CTTCATCAAC AACTCCATCG TCTACCTGCA CTGCAAGCTG 
AGAGTGTGCA TGGAGAACCC CAGGAACTCG TGCAGGATAA GCTGCAATGA CTTCCGGTTG 
CTGAGAAGTA GTGAAGCCTT GCACCAGATG ACCTGGGGGC CCCTCCATCG GACTGAAGGT 
GCACAGGCAT GTACAAAGCC AGTCCTGGGA ACTGGTTACA TCATTCTCCT AGCGGCAGCT 
GCACTTCTGG TAGTGGCAGG GGCCACAACC CTTCTGATCT TGCGTTACCA GAGAGTAAGG 
CAGAAGTACA ATCTTCGGAT CCAGACCGAC GACTTCAGCT ACCAGGTGTT CTCTCAATAG

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

RefSeq	XP_021004944.1
CDS	1..3960
Translation	MMSRTLRLFLLALACTVDLSQASGFTENGLSLLSYQLCSYPVTRSVQKLQAVQTSHTAYVYCGGWIPWKKCPKTVYRTQYLAMDVPESRNVTDCCAGFEQLGLYCVLSLNRSREFASRPGVCPTAEAEPLSPSCSLDTDCSGLQKCCSWPGGRHCVSPTPTGTEKSMVSWYNVTVLVKMGFEDLQREDPGLRNHTRLLYSLVTSALQPLNPAVHYLTSTGGRDTFTTVSWLLVGFPRLMTVANFSVMLDGMVNRVYEVVSIQVQDVNECLHSELQACSVGEQCRNLEGSYQCVSSQRLNHTDEDCPPIRDFMALNVTSSSFHVSWSLNSTQNHTFHVQVYKGKEILRSDWIRGHTMAVSELEAGVLYSVRTSYLGCQANVSATLVVKTDAQVFQVTIRIMDRNLTEQILDCSSGEFWNFSRQLFHEVENSFPQAISDLYRQGRLRMQIVSLQAGSLVVTLRLTLQDPDFSVGVHTLKPMLLPLSVSNVFQVDQQRTFVQDWDECAHSSEHDCHPSARCINLEGSYTCQCLTARDASPSRAGRVCEGDMVIPTGDGLSVTTKVTVPAVSTGITTFGPETLTESLSSKHPRSTPARSQTWTSVPPSVRDGGSIVRQDRNSTGQGQTHGTHQGTTDAPLHTTGESQEFITKDPPFLTATTTGYVVWHSSPTWKTLPNSIRLPNEDPRSSSFPGPPSAPTDVTPESPACVPGPIGKVTVSNVTSTSFSLEWPADIHLSPAFHLTWVSPRGPAMTMETQNNNVTLSGLEWGTLYLVEIVAKVCGKEGARTQLKVRTVAQKLAGNVQITSMQYSESFRNTSSREHREFVELFFRTVRDSLPATLRQHMDAGRIRVDITNITNGSIVVEFNLLMTADLDVREVSAGFLDALQNTSMLEVVRGKTFMQDYNECDMREDDCAPGTCRNTFGSFTCSCDGGGPDSQVEYSGRSCDGDPSGNTTQTPGSEWSPTPAGTRGVPVPIASSTAQDLPLQLNLTDAVSVSCEIETVLITVQKRFLQQEAIPEASLYLGEPSCNVSRSNSTHVFLVAGWGECGTILQSNVTTTVVTTTLRNDLSPEGVIHHLQFLSPIHCAFQNDLLTSSGYTPQWGVYTVIEDLHGTGNFVTEMQLYIGDSPIPQNYSVSASDEIKIEVGLHRQKSSLKVVLTECWATPSSNAKDPITFGFINNSCPVPNTYTSVIQNGNSSKAQFKLRIFSFINNSIVYLHCKLRVCMENPRNSCRISCNDFRLLRSSEALHQMTWGPLHRTEGAQACTKPVLGTGYIILLAAAALLVVAGATTLLILRYQRVRQKYNLRIQTDDFSYQVFSQ

Target ORF information:

RefSeq Version	XM_021149285.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli uromodulin like 1 (Umodl1), transcript variant X2, mRNA.

Target ORF information:

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

XM_021149285.1

ORF Insert Sequence:

ATGATGTCCC GGACTCTGAG GCTGTTCCTG CTGGCTTTGG CCTGTACTGT GGACCTGAGC 
CAGGCCAGTG GCTTTACAGA AAATGGCCTC TCCCTGCTGA GCTACCAGCT CTGCAGCTAC 
CCGGTGACCC GAAGTGTCCA GAAGCTGCAG GCTGTGCAGA CCTCTCACAC AGCCTACGTG 
TACTGCGGAG GATGGATCCC CTGGAAAAAG TGCCCCAAGA CTGTGTACCG GACCCAGTAC 
CTGGCGATGG ATGTCCCTGA GTCCAGGAAT GTGACTGACT GCTGTGCGGG CTTTGAGCAA 
CTTGGCCTCT ACTGCGTTCT GTCCCTGAAC CGGTCCCGGG AGTTTGCATC GAGGCCCGGG 
GTCTGCCCAA CAGCTGAAGC AGAGCCACTT AGCCCTTCAT GCAGCTTGGA TACAGACTGC 
TCTGGACTTC AGAAGTGCTG TTCCTGGCCA GGGGGCCGTC ACTGTGTGTC CCCCACTCCC 
ACAGGTACAG AGAAGAGCAT GGTGAGCTGG TACAATGTGA CTGTGCTGGT GAAGATGGGC 
TTTGAGGACC TGCAGCGAGA GGACCCTGGG CTCCGGAACC ACACTCGCCT GCTCTACTCT 
TTGGTTACCA GTGCCTTGCA GCCTCTGAAC CCAGCTGTAC ACTACCTGAC CTCAACTGGT 
GGCAGGGACA CATTCACCAC TGTGTCATGG CTACTGGTGG GCTTTCCACG GCTCATGACA 
GTAGCCAATT TCTCCGTCAT GTTGGATGGC ATGGTGAATC GGGTCTATGA GGTGGTCAGC 
ATCCAGGTGC AAGATGTGAA CGAGTGTCTT CACAGTGAGC TGCAAGCCTG CTCTGTAGGA 
GAGCAGTGCC GCAACCTGGA GGGCTCCTAC CAATGTGTGT CTTCCCAGCG GCTGAACCAC 
ACAGATGAAG ATTGCCCTCC AATCCGAGAT TTCATGGCAC TTAATGTCAC CAGCAGCAGT 
TTCCATGTGT CCTGGAGTTT GAATTCCACT CAGAACCACA CTTTCCACGT TCAAGTGTAC 
AAAGGCAAAG AGATACTCAG AAGCGATTGG ATAAGGGGCC ACACTATGGC TGTGTCTGAG 
TTGGAGGCTG GAGTACTTTA CAGCGTGAGG ACTAGCTACC TGGGGTGCCA GGCCAATGTT 
TCTGCCACAC TGGTTGTCAA GACAGATGCC CAGGTTTTCC AAGTCACAAT ACGGATCATG 
GACCGTAACC TGACAGAGCA GATTCTTGAC TGCAGCAGCG GGGAATTCTG GAACTTTTCT 
CGACAGCTGT TTCATGAGGT GGAAAACTCC TTCCCCCAAG CCATCTCTGA CCTGTACAGA 
CAAGGGAGGC TGAGGATGCA GATCGTGTCT CTGCAGGCAG GGAGTCTAGT GGTGACGCTT 
AGACTCACCC TGCAAGATCC TGACTTTTCA GTGGGTGTCC ACACACTGAA GCCCATGCTG 
CTCCCCCTGT CTGTGAGCAA CGTGTTCCAG GTTGACCAGC AGAGGACATT CGTGCAAGAC 
TGGGATGAGT GTGCACACAG CTCGGAGCAT GACTGCCACC CGAGCGCACG CTGCATCAAC 
CTGGAGGGCT CCTACACGTG CCAGTGCCTC ACAGCCAGGG ATGCCAGCCC CTCCAGGGCT 
GGCAGGGTCT GCGAGGGTGA CATGGTGATC CCCACAGGAG ATGGACTGTC TGTAACAACG 
AAGGTCACAG TCCCAGCTGT CAGTACGGGA ATAACAACCT TTGGCCCAGA GACCCTCACT 
GAGTCACTAA GTTCCAAGCA CCCAAGGAGC ACCCCAGCAA GAAGTCAAAC CTGGACCTCA 
GTGCCCCCAT CAGTGAGAGA TGGGGGTAGC ATAGTCAGGC AGGATAGGAA TAGCACAGGA 
CAAGGACAGA CCCATGGAAC CCATCAGGGG ACCACAGATG CCCCACTGCA CACCACTGGA 
GAGTCACAGG AATTTATCAC CAAAGATCCA CCCTTCCTGA CTGCTACAAC CACGGGCTAT 
GTTGTGTGGC ACTCCAGTCC CACTTGGAAG ACACTTCCAA ACTCCATAAG ACTACCAAAT 
GAAGACCCTC GATCTTCCTC CTTCCCAGGC CCGCCATCAG CCCCAACCGA TGTGACTCCA 
GAGTCCCCTG CCTGTGTTCC TGGACCCATT GGAAAGGTCA CGGTCTCTAA CGTGACCAGT 
ACCAGCTTCT CCCTCGAGTG GCCTGCAGAC ATCCACCTCT CCCCTGCCTT CCACCTCACA 
TGGGTCTCTC CTCGGGGTCC TGCCATGACT ATGGAGACCC AGAACAATAA TGTGACATTG 
TCGGGACTGG AATGGGGAAC CTTGTATCTG GTGGAGATTG TGGCTAAGGT GTGTGGGAAA 
GAAGGTGCCA GAACACAGCT GAAAGTGCGG ACAGTGGCCC AGAAACTTGC CGGGAACGTC 
CAGATCACGA GCATGCAGTA TTCGGAATCC TTCCGCAATA CCAGCAGCAG GGAGCACCGA 
GAGTTCGTAG AGTTGTTCTT CAGAACGGTG CGGGACTCTC TGCCAGCCAC GCTGCGTCAG 
CACATGGATG CAGGCAGGAT CCGTGTGGAC ATCACTAACA TCACAAATGG CAGCATCGTG 
GTGGAGTTTA ATTTGCTAAT GACAGCGGAC CTTGATGTCA GGGAGGTGTC TGCCGGCTTC 
CTCGATGCCT TACAGAACAC ATCGATGCTG GAGGTGGTCA GAGGCAAAAC TTTTATGCAA 
GATTACAACG AGTGTGACAT GAGAGAGGAT GACTGTGCCC CTGGGACATG CAGGAACACC 
TTCGGGTCTT TTACATGTAG CTGTGATGGG GGAGGACCTG ACTCACAGGT GGAATATTCT 
GGAAGGTCCT GTGATGGTGA CCCTTCTGGC AACACGACCC AGACCCCAGG CTCAGAGTGG 
TCTCCTACCC CAGCAGGAAC TAGGGGTGTC CCTGTGCCAA TTGCCAGCTC CACAGCCCAG 
GACCTGCCCC TGCAGCTGAA CCTGACGGAT GCCGTTAGCG TGTCCTGTGA GATCGAGACG 
GTGCTCATCA CCGTCCAGAA GCGCTTTCTG CAGCAGGAGG CCATACCTGA GGCCTCCCTG 
TACCTGGGAG AGCCATCCTG CAACGTGAGC AGAAGCAACA GCACACACGT GTTTCTGGTG 
GCTGGCTGGG GCGAGTGTGG GACCATCTTA CAGAGTAATG TGACCACCAC AGTGGTGACG 
ACCACACTGA GGAACGACCT GTCCCCAGAG GGTGTCATCC ACCACCTGCA ATTCCTCAGT 
CCTATCCACT GTGCCTTCCA GAATGACCTT CTGACCTCCT CGGGCTACAC CCCACAGTGG 
GGGGTCTACA CCGTCATCGA AGACCTCCAC GGTACTGGAA ATTTTGTCAC AGAAATGCAG 
TTGTACATTG GCGATTCTCC CATACCTCAG AACTATAGCG TGTCCGCCAG CGATGAGATC 
AAGATTGAGG TGGGGCTTCA CAGGCAGAAG AGCAGTCTGA AGGTCGTGCT GACTGAGTGC 
TGGGCCACCC CCTCCAGCAA CGCCAAGGAC CCCATCACCT TTGGCTTCAT CAACAACAGC 
TGCCCTGTTC CCAACACCTA CACCAGTGTG ATTCAGAATG GCAACTCCAG CAAGGCCCAG 
TTCAAGCTGA GAATCTTCTC CTTCATCAAC AACTCCATCG TCTACCTGCA CTGCAAGCTG 
AGAGTGTGCA TGGAGAACCC CAGGAACTCG TGCAGGATAA GCTGCAATGA CTTCCGGTTG 
CTGAGAAGTA GTGAAGCCTT GCACCAGATG ACCTGGGGGC CCCTCCATCG GACTGAAGGT 
GCACAGGCAT GTACAAAGCC AGTCCTGGGA ACTGGTTACA TCATTCTCCT AGCGGCAGCT 
GCACTTCTGG TAGTGGCAGG GGCCACAACC CTTCTGATCT TGCGTTACCA GAGAGTAAGG 
CAGAAGTACA ATCTTCGGAT CCAGACCGAC GACTTCAGCT ACCAGGTGTT CTCTCAATAG

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

Umodl1 ( XM_021149285.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021004944.1 Mus caroli uromodulin like 1 (Umodl1), transcript variant X2, mRNA.

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CloneID	OMv34765
Clone ID Related Accession (Same CDS sequence)	XM_021149285.1 , XM_021149285.2
Accession Version	XM_021149285.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3960bp) 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	2019-06-09
Organism	Mus caroli(Ryukyu mouse)
Product	uromodulin-like 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021149285.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli 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##

ATGATGTCCC GGACTCTGAG GCTGTTCCTG CTGGCTTTGG CCTGTACTGT GGACCTGAGC 
CAGGCCAGTG GCTTTACAGA AAATGGCCTC TCCCTGCTGA GCTACCAGCT CTGCAGCTAC 
CCGGTGACCC GAAGTGTCCA GAAGCTGCAG GCTGTGCAGA CCTCTCACAC AGCCTACGTG 
TACTGCGGAG GATGGATCCC CTGGAAAAAG TGCCCCAAGA CTGTGTACCG GACCCAGTAC 
CTGGCGATGG ATGTCCCTGA GTCCAGGAAT GTGACTGACT GCTGTGCGGG CTTTGAGCAA 
CTTGGCCTCT ACTGCGTTCT GTCCCTGAAC CGGTCCCGGG AGTTTGCATC GAGGCCCGGG 
GTCTGCCCAA CAGCTGAAGC AGAGCCACTT AGCCCTTCAT GCAGCTTGGA TACAGACTGC 
TCTGGACTTC AGAAGTGCTG TTCCTGGCCA GGGGGCCGTC ACTGTGTGTC CCCCACTCCC 
ACAGGTACAG AGAAGAGCAT GGTGAGCTGG TACAATGTGA CTGTGCTGGT GAAGATGGGC 
TTTGAGGACC TGCAGCGAGA GGACCCTGGG CTCCGGAACC ACACTCGCCT GCTCTACTCT 
TTGGTTACCA GTGCCTTGCA GCCTCTGAAC CCAGCTGTAC ACTACCTGAC CTCAACTGGT 
GGCAGGGACA CATTCACCAC TGTGTCATGG CTACTGGTGG GCTTTCCACG GCTCATGACA 
GTAGCCAATT TCTCCGTCAT GTTGGATGGC ATGGTGAATC GGGTCTATGA GGTGGTCAGC 
ATCCAGGTGC AAGATGTGAA CGAGTGTCTT CACAGTGAGC TGCAAGCCTG CTCTGTAGGA 
GAGCAGTGCC GCAACCTGGA GGGCTCCTAC CAATGTGTGT CTTCCCAGCG GCTGAACCAC 
ACAGATGAAG ATTGCCCTCC AATCCGAGAT TTCATGGCAC TTAATGTCAC CAGCAGCAGT 
TTCCATGTGT CCTGGAGTTT GAATTCCACT CAGAACCACA CTTTCCACGT TCAAGTGTAC 
AAAGGCAAAG AGATACTCAG AAGCGATTGG ATAAGGGGCC ACACTATGGC TGTGTCTGAG 
TTGGAGGCTG GAGTACTTTA CAGCGTGAGG ACTAGCTACC TGGGGTGCCA GGCCAATGTT 
TCTGCCACAC TGGTTGTCAA GACAGATGCC CAGGTTTTCC AAGTCACAAT ACGGATCATG 
GACCGTAACC TGACAGAGCA GATTCTTGAC TGCAGCAGCG GGGAATTCTG GAACTTTTCT 
CGACAGCTGT TTCATGAGGT GGAAAACTCC TTCCCCCAAG CCATCTCTGA CCTGTACAGA 
CAAGGGAGGC TGAGGATGCA GATCGTGTCT CTGCAGGCAG GGAGTCTAGT GGTGACGCTT 
AGACTCACCC TGCAAGATCC TGACTTTTCA GTGGGTGTCC ACACACTGAA GCCCATGCTG 
CTCCCCCTGT CTGTGAGCAA CGTGTTCCAG GTTGACCAGC AGAGGACATT CGTGCAAGAC 
TGGGATGAGT GTGCACACAG CTCGGAGCAT GACTGCCACC CGAGCGCACG CTGCATCAAC 
CTGGAGGGCT CCTACACGTG CCAGTGCCTC ACAGCCAGGG ATGCCAGCCC CTCCAGGGCT 
GGCAGGGTCT GCGAGGGTGA CATGGTGATC CCCACAGGAG ATGGACTGTC TGTAACAACG 
AAGGTCACAG TCCCAGCTGT CAGTACGGGA ATAACAACCT TTGGCCCAGA GACCCTCACT 
GAGTCACTAA GTTCCAAGCA CCCAAGGAGC ACCCCAGCAA GAAGTCAAAC CTGGACCTCA 
GTGCCCCCAT CAGTGAGAGA TGGGGGTAGC ATAGTCAGGC AGGATAGGAA TAGCACAGGA 
CAAGGACAGA CCCATGGAAC CCATCAGGGG ACCACAGATG CCCCACTGCA CACCACTGGA 
GAGTCACAGG AATTTATCAC CAAAGATCCA CCCTTCCTGA CTGCTACAAC CACGGGCTAT 
GTTGTGTGGC ACTCCAGTCC CACTTGGAAG ACACTTCCAA ACTCCATAAG ACTACCAAAT 
GAAGACCCTC GATCTTCCTC CTTCCCAGGC CCGCCATCAG CCCCAACCGA TGTGACTCCA 
GAGTCCCCTG CCTGTGTTCC TGGACCCATT GGAAAGGTCA CGGTCTCTAA CGTGACCAGT 
ACCAGCTTCT CCCTCGAGTG GCCTGCAGAC ATCCACCTCT CCCCTGCCTT CCACCTCACA 
TGGGTCTCTC CTCGGGGTCC TGCCATGACT ATGGAGACCC AGAACAATAA TGTGACATTG 
TCGGGACTGG AATGGGGAAC CTTGTATCTG GTGGAGATTG TGGCTAAGGT GTGTGGGAAA 
GAAGGTGCCA GAACACAGCT GAAAGTGCGG ACAGTGGCCC AGAAACTTGC CGGGAACGTC 
CAGATCACGA GCATGCAGTA TTCGGAATCC TTCCGCAATA CCAGCAGCAG GGAGCACCGA 
GAGTTCGTAG AGTTGTTCTT CAGAACGGTG CGGGACTCTC TGCCAGCCAC GCTGCGTCAG 
CACATGGATG CAGGCAGGAT CCGTGTGGAC ATCACTAACA TCACAAATGG CAGCATCGTG 
GTGGAGTTTA ATTTGCTAAT GACAGCGGAC CTTGATGTCA GGGAGGTGTC TGCCGGCTTC 
CTCGATGCCT TACAGAACAC ATCGATGCTG GAGGTGGTCA GAGGCAAAAC TTTTATGCAA 
GATTACAACG AGTGTGACAT GAGAGAGGAT GACTGTGCCC CTGGGACATG CAGGAACACC 
TTCGGGTCTT TTACATGTAG CTGTGATGGG GGAGGACCTG ACTCACAGGT GGAATATTCT 
GGAAGGTCCT GTGATGGTGA CCCTTCTGGC AACACGACCC AGACCCCAGG CTCAGAGTGG 
TCTCCTACCC CAGCAGGAAC TAGGGGTGTC CCTGTGCCAA TTGCCAGCTC CACAGCCCAG 
GACCTGCCCC TGCAGCTGAA CCTGACGGAT GCCGTTAGCG TGTCCTGTGA GATCGAGACG 
GTGCTCATCA CCGTCCAGAA GCGCTTTCTG CAGCAGGAGG CCATACCTGA GGCCTCCCTG 
TACCTGGGAG AGCCATCCTG CAACGTGAGC AGAAGCAACA GCACACACGT GTTTCTGGTG 
GCTGGCTGGG GCGAGTGTGG GACCATCTTA CAGAGTAATG TGACCACCAC AGTGGTGACG 
ACCACACTGA GGAACGACCT GTCCCCAGAG GGTGTCATCC ACCACCTGCA ATTCCTCAGT 
CCTATCCACT GTGCCTTCCA GAATGACCTT CTGACCTCCT CGGGCTACAC CCCACAGTGG 
GGGGTCTACA CCGTCATCGA AGACCTCCAC GGTACTGGAA ATTTTGTCAC AGAAATGCAG 
TTGTACATTG GCGATTCTCC CATACCTCAG AACTATAGCG TGTCCGCCAG CGATGAGATC 
AAGATTGAGG TGGGGCTTCA CAGGCAGAAG AGCAGTCTGA AGGTCGTGCT GACTGAGTGC 
TGGGCCACCC CCTCCAGCAA CGCCAAGGAC CCCATCACCT TTGGCTTCAT CAACAACAGC 
TGCCCTGTTC CCAACACCTA CACCAGTGTG ATTCAGAATG GCAACTCCAG CAAGGCCCAG 
TTCAAGCTGA GAATCTTCTC CTTCATCAAC AACTCCATCG TCTACCTGCA CTGCAAGCTG 
AGAGTGTGCA TGGAGAACCC CAGGAACTCG TGCAGGATAA GCTGCAATGA CTTCCGGTTG 
CTGAGAAGTA GTGAAGCCTT GCACCAGATG ACCTGGGGGC CCCTCCATCG GACTGAAGGT 
GCACAGGCAT GTACAAAGCC AGTCCTGGGA ACTGGTTACA TCATTCTCCT AGCGGCAGCT 
GCACTTCTGG TAGTGGCAGG GGCCACAACC CTTCTGATCT TGCGTTACCA GAGAGTAAGG 
CAGAAGTACA ATCTTCGGAT CCAGACCGAC GACTTCAGCT ACCAGGTGTT CTCTCAATAG

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

RefSeq	XP_021004944.1
CDS	1..3960
Translation	MMSRTLRLFLLALACTVDLSQASGFTENGLSLLSYQLCSYPVTRSVQKLQAVQTSHTAYVYCGGWIPWKKCPKTVYRTQYLAMDVPESRNVTDCCAGFEQLGLYCVLSLNRSREFASRPGVCPTAEAEPLSPSCSLDTDCSGLQKCCSWPGGRHCVSPTPTGTEKSMVSWYNVTVLVKMGFEDLQREDPGLRNHTRLLYSLVTSALQPLNPAVHYLTSTGGRDTFTTVSWLLVGFPRLMTVANFSVMLDGMVNRVYEVVSIQVQDVNECLHSELQACSVGEQCRNLEGSYQCVSSQRLNHTDEDCPPIRDFMALNVTSSSFHVSWSLNSTQNHTFHVQVYKGKEILRSDWIRGHTMAVSELEAGVLYSVRTSYLGCQANVSATLVVKTDAQVFQVTIRIMDRNLTEQILDCSSGEFWNFSRQLFHEVENSFPQAISDLYRQGRLRMQIVSLQAGSLVVTLRLTLQDPDFSVGVHTLKPMLLPLSVSNVFQVDQQRTFVQDWDECAHSSEHDCHPSARCINLEGSYTCQCLTARDASPSRAGRVCEGDMVIPTGDGLSVTTKVTVPAVSTGITTFGPETLTESLSSKHPRSTPARSQTWTSVPPSVRDGGSIVRQDRNSTGQGQTHGTHQGTTDAPLHTTGESQEFITKDPPFLTATTTGYVVWHSSPTWKTLPNSIRLPNEDPRSSSFPGPPSAPTDVTPESPACVPGPIGKVTVSNVTSTSFSLEWPADIHLSPAFHLTWVSPRGPAMTMETQNNNVTLSGLEWGTLYLVEIVAKVCGKEGARTQLKVRTVAQKLAGNVQITSMQYSESFRNTSSREHREFVELFFRTVRDSLPATLRQHMDAGRIRVDITNITNGSIVVEFNLLMTADLDVREVSAGFLDALQNTSMLEVVRGKTFMQDYNECDMREDDCAPGTCRNTFGSFTCSCDGGGPDSQVEYSGRSCDGDPSGNTTQTPGSEWSPTPAGTRGVPVPIASSTAQDLPLQLNLTDAVSVSCEIETVLITVQKRFLQQEAIPEASLYLGEPSCNVSRSNSTHVFLVAGWGECGTILQSNVTTTVVTTTLRNDLSPEGVIHHLQFLSPIHCAFQNDLLTSSGYTPQWGVYTVIEDLHGTGNFVTEMQLYIGDSPIPQNYSVSASDEIKIEVGLHRQKSSLKVVLTECWATPSSNAKDPITFGFINNSCPVPNTYTSVIQNGNSSKAQFKLRIFSFINNSIVYLHCKLRVCMENPRNSCRISCNDFRLLRSSEALHQMTWGPLHRTEGAQACTKPVLGTGYIILLAAAALLVVAGATTLLILRYQRVRQKYNLRIQTDDFSYQVFSQ

Target ORF information:

RefSeq Version	XM_021149285.2
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli uromodulin like 1 (Umodl1), transcript variant X2, mRNA.

Target ORF information:

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

XM_021149285.2

ORF Insert Sequence:

ATGATGTCCC GGACTCTGAG GCTGTTCCTG CTGGCTTTGG CCTGTACTGT GGACCTGAGC 
CAGGCCAGTG GCTTTACAGA AAATGGCCTC TCCCTGCTGA GCTACCAGCT CTGCAGCTAC 
CCGGTGACCC GAAGTGTCCA GAAGCTGCAG GCTGTGCAGA CCTCTCACAC AGCCTACGTG 
TACTGCGGAG GATGGATCCC CTGGAAAAAG TGCCCCAAGA CTGTGTACCG GACCCAGTAC 
CTGGCGATGG ATGTCCCTGA GTCCAGGAAT GTGACTGACT GCTGTGCGGG CTTTGAGCAA 
CTTGGCCTCT ACTGCGTTCT GTCCCTGAAC CGGTCCCGGG AGTTTGCATC GAGGCCCGGG 
GTCTGCCCAA CAGCTGAAGC AGAGCCACTT AGCCCTTCAT GCAGCTTGGA TACAGACTGC 
TCTGGACTTC AGAAGTGCTG TTCCTGGCCA GGGGGCCGTC ACTGTGTGTC CCCCACTCCC 
ACAGGTACAG AGAAGAGCAT GGTGAGCTGG TACAATGTGA CTGTGCTGGT GAAGATGGGC 
TTTGAGGACC TGCAGCGAGA GGACCCTGGG CTCCGGAACC ACACTCGCCT GCTCTACTCT 
TTGGTTACCA GTGCCTTGCA GCCTCTGAAC CCAGCTGTAC ACTACCTGAC CTCAACTGGT 
GGCAGGGACA CATTCACCAC TGTGTCATGG CTACTGGTGG GCTTTCCACG GCTCATGACA 
GTAGCCAATT TCTCCGTCAT GTTGGATGGC ATGGTGAATC GGGTCTATGA GGTGGTCAGC 
ATCCAGGTGC AAGATGTGAA CGAGTGTCTT CACAGTGAGC TGCAAGCCTG CTCTGTAGGA 
GAGCAGTGCC GCAACCTGGA GGGCTCCTAC CAATGTGTGT CTTCCCAGCG GCTGAACCAC 
ACAGATGAAG ATTGCCCTCC AATCCGAGAT TTCATGGCAC TTAATGTCAC CAGCAGCAGT 
TTCCATGTGT CCTGGAGTTT GAATTCCACT CAGAACCACA CTTTCCACGT TCAAGTGTAC 
AAAGGCAAAG AGATACTCAG AAGCGATTGG ATAAGGGGCC ACACTATGGC TGTGTCTGAG 
TTGGAGGCTG GAGTACTTTA CAGCGTGAGG ACTAGCTACC TGGGGTGCCA GGCCAATGTT 
TCTGCCACAC TGGTTGTCAA GACAGATGCC CAGGTTTTCC AAGTCACAAT ACGGATCATG 
GACCGTAACC TGACAGAGCA GATTCTTGAC TGCAGCAGCG GGGAATTCTG GAACTTTTCT 
CGACAGCTGT TTCATGAGGT GGAAAACTCC TTCCCCCAAG CCATCTCTGA CCTGTACAGA 
CAAGGGAGGC TGAGGATGCA GATCGTGTCT CTGCAGGCAG GGAGTCTAGT GGTGACGCTT 
AGACTCACCC TGCAAGATCC TGACTTTTCA GTGGGTGTCC ACACACTGAA GCCCATGCTG 
CTCCCCCTGT CTGTGAGCAA CGTGTTCCAG GTTGACCAGC AGAGGACATT CGTGCAAGAC 
TGGGATGAGT GTGCACACAG CTCGGAGCAT GACTGCCACC CGAGCGCACG CTGCATCAAC 
CTGGAGGGCT CCTACACGTG CCAGTGCCTC ACAGCCAGGG ATGCCAGCCC CTCCAGGGCT 
GGCAGGGTCT GCGAGGGTGA CATGGTGATC CCCACAGGAG ATGGACTGTC TGTAACAACG 
AAGGTCACAG TCCCAGCTGT CAGTACGGGA ATAACAACCT TTGGCCCAGA GACCCTCACT 
GAGTCACTAA GTTCCAAGCA CCCAAGGAGC ACCCCAGCAA GAAGTCAAAC CTGGACCTCA 
GTGCCCCCAT CAGTGAGAGA TGGGGGTAGC ATAGTCAGGC AGGATAGGAA TAGCACAGGA 
CAAGGACAGA CCCATGGAAC CCATCAGGGG ACCACAGATG CCCCACTGCA CACCACTGGA 
GAGTCACAGG AATTTATCAC CAAAGATCCA CCCTTCCTGA CTGCTACAAC CACGGGCTAT 
GTTGTGTGGC ACTCCAGTCC CACTTGGAAG ACACTTCCAA ACTCCATAAG ACTACCAAAT 
GAAGACCCTC GATCTTCCTC CTTCCCAGGC CCGCCATCAG CCCCAACCGA TGTGACTCCA 
GAGTCCCCTG CCTGTGTTCC TGGACCCATT GGAAAGGTCA CGGTCTCTAA CGTGACCAGT 
ACCAGCTTCT CCCTCGAGTG GCCTGCAGAC ATCCACCTCT CCCCTGCCTT CCACCTCACA 
TGGGTCTCTC CTCGGGGTCC TGCCATGACT ATGGAGACCC AGAACAATAA TGTGACATTG 
TCGGGACTGG AATGGGGAAC CTTGTATCTG GTGGAGATTG TGGCTAAGGT GTGTGGGAAA 
GAAGGTGCCA GAACACAGCT GAAAGTGCGG ACAGTGGCCC AGAAACTTGC CGGGAACGTC 
CAGATCACGA GCATGCAGTA TTCGGAATCC TTCCGCAATA CCAGCAGCAG GGAGCACCGA 
GAGTTCGTAG AGTTGTTCTT CAGAACGGTG CGGGACTCTC TGCCAGCCAC GCTGCGTCAG 
CACATGGATG CAGGCAGGAT CCGTGTGGAC ATCACTAACA TCACAAATGG CAGCATCGTG 
GTGGAGTTTA ATTTGCTAAT GACAGCGGAC CTTGATGTCA GGGAGGTGTC TGCCGGCTTC 
CTCGATGCCT TACAGAACAC ATCGATGCTG GAGGTGGTCA GAGGCAAAAC TTTTATGCAA 
GATTACAACG AGTGTGACAT GAGAGAGGAT GACTGTGCCC CTGGGACATG CAGGAACACC 
TTCGGGTCTT TTACATGTAG CTGTGATGGG GGAGGACCTG ACTCACAGGT GGAATATTCT 
GGAAGGTCCT GTGATGGTGA CCCTTCTGGC AACACGACCC AGACCCCAGG CTCAGAGTGG 
TCTCCTACCC CAGCAGGAAC TAGGGGTGTC CCTGTGCCAA TTGCCAGCTC CACAGCCCAG 
GACCTGCCCC TGCAGCTGAA CCTGACGGAT GCCGTTAGCG TGTCCTGTGA GATCGAGACG 
GTGCTCATCA CCGTCCAGAA GCGCTTTCTG CAGCAGGAGG CCATACCTGA GGCCTCCCTG 
TACCTGGGAG AGCCATCCTG CAACGTGAGC AGAAGCAACA GCACACACGT GTTTCTGGTG 
GCTGGCTGGG GCGAGTGTGG GACCATCTTA CAGAGTAATG TGACCACCAC AGTGGTGACG 
ACCACACTGA GGAACGACCT GTCCCCAGAG GGTGTCATCC ACCACCTGCA ATTCCTCAGT 
CCTATCCACT GTGCCTTCCA GAATGACCTT CTGACCTCCT CGGGCTACAC CCCACAGTGG 
GGGGTCTACA CCGTCATCGA AGACCTCCAC GGTACTGGAA ATTTTGTCAC AGAAATGCAG 
TTGTACATTG GCGATTCTCC CATACCTCAG AACTATAGCG TGTCCGCCAG CGATGAGATC 
AAGATTGAGG TGGGGCTTCA CAGGCAGAAG AGCAGTCTGA AGGTCGTGCT GACTGAGTGC 
TGGGCCACCC CCTCCAGCAA CGCCAAGGAC CCCATCACCT TTGGCTTCAT CAACAACAGC 
TGCCCTGTTC CCAACACCTA CACCAGTGTG ATTCAGAATG GCAACTCCAG CAAGGCCCAG 
TTCAAGCTGA GAATCTTCTC CTTCATCAAC AACTCCATCG TCTACCTGCA CTGCAAGCTG 
AGAGTGTGCA TGGAGAACCC CAGGAACTCG TGCAGGATAA GCTGCAATGA CTTCCGGTTG 
CTGAGAAGTA GTGAAGCCTT GCACCAGATG ACCTGGGGGC CCCTCCATCG GACTGAAGGT 
GCACAGGCAT GTACAAAGCC AGTCCTGGGA ACTGGTTACA TCATTCTCCT AGCGGCAGCT 
GCACTTCTGG TAGTGGCAGG GGCCACAACC CTTCTGATCT TGCGTTACCA GAGAGTAAGG 
CAGAAGTACA ATCTTCGGAT CCAGACCGAC GACTTCAGCT ACCAGGTGTT CTCTCAATAG

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

Umodl1 ( XM_021149286.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021004945.1 Mus caroli uromodulin like 1 (Umodl1), transcript variant X3, mRNA.

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CloneID	OMv34766
Clone ID Related Accession (Same CDS sequence)	XM_021149286.1
Accession Version	XM_021149286.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3702bp) 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	2019-06-09
Organism	Mus caroli(Ryukyu mouse)
Product	uromodulin-like 1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) 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 caroli 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##

ATGATGTCCC GGACTCTGAG GCTGTTCCTG CTGGCTTTGG CCTGTACTGT GGACCTGAGC 
CAGGCCAGTG GCTTTACAGA AAATGGCCTC TCCCTGCTGA GCTACCAGCT CTGCAGCTAC 
CCGGTGACCC GAAGTGTCCA GAAGCTGCAG GCTGTGCAGA CCTCTCACAC AGCCTACGTG 
TACTGCGGAG GATGGATCCC CTGGAAAAAG TGCCCCAAGA CTGTGTACCG GACCCAGTAC 
CTGGCGATGG ATGTCCCTGA GTCCAGGAAT GTGACTGACT GCTGTGCGGG CTTTGAGCAA 
CTTGGCCTCT ACTGCGTTCT GTCCCTGAAC CGGTCCCGGG AGTTTGCATC GAGGCCCGGG 
GTCTGCCCAA CAGCTGAAGC AGAGCCACTT AGCCCTTCAT GCAGCTTGGA TACAGACTGC 
TCTGGACTTC AGAAGTGCTG TTCCTGGCCA GGGGGCCGTC ACTGTGTGTC CCCCACTCCC 
ACAGGTACAG AGAAGAGCAT GGTGAGCTGG TACAATGTGA CTGTGCTGGT GAAGATGGGC 
TTTGAGGACC TGCAGCGAGA GGACCCTGGG CTCCGGAACC ACACTCGCCT GCTCTACTCT 
TTGGTTACCA GTGCCTTGCA GCCTCTGAAC CCAGCTGTAC ACTACCTGAC CTCAACTGGT 
GGCAGGGACA CATTCACCAC TGTGTCATGG CTACTGGTGG GCTTTCCACG GCTCATGACA 
GTAGCCAATT TCTCCGTCAT GTTGGATGGC ATGGTGAATC GGGTCTATGA GGTGGTCAGC 
ATCCAGGTGC AAGATGTGAA CGAGTGTCTT CACAGTGAGC TGCAAGCCTG CTCTGTAGGA 
GAGCAGTGCC GCAACCTGGA GGGCTCCTAC CAATGTGTGT CTTCCCAGCG GCTGAACCAC 
ACAGATGAAG ATTGCCCTCC AATCCGAGAT TTCATGGCAC TTAATGTCAC CAGCAGCAGT 
TTCCATGTGT CCTGGAGTTT GAATTCCACT CAGAACCACA CTTTCCACGT TCAAGTGTAC 
AAAGGCAAAG AGATACTCAG AAGCGATTGG ATAAGGGGCC ACACTATGGC TGTGTCTGAG 
TTGGAGGCTG GAGTACTTTA CAGCGTGAGG ACTAGCTACC TGGGGTGCCA GGCCAATGTT 
TCTGCCACAC TGGTTGTCAA GACAGATGCC CAGGTTTTCC AAGTCACAAT ACGGATCATG 
GACCGTAACC TGACAGAGCA GATTCTTGAC TGCAGCAGCG GGGAATTCTG GAACTTTTCT 
CGACAGCTGT TTCATGAGGT GGAAAACTCC TTCCCCCAAG CCATCTCTGA CCTGTACAGA 
CAAGGGAGGC TGAGGATGCA GATCGTGTCT CTGCAGGCAG GGAGTCTAGT GGTGACGCTT 
AGACTCACCC TGCAAGATCC TGACTTTTCA GTGGGTGTCC ACACACTGAA GCCCATGCTG 
CTCCCCCTGT CTGTGAGCAA CGTGTTCCAG GTTGACCAGC AGAGGACATT CGTGCAAGAC 
TGGGATGAGT GTGCACACAG CTCGGAGCAT GACTGCCACC CGAGCGCACG CTGCATCAAC 
CTGGAGGGCT CCTACACGTG CCAGTGCCTC ACAGCCAGGG ATGCCAGCCC CTCCAGGGCT 
GGCAGGGTCT GCGAGGGTGA CATGGTGATC CCCACAGGAG ATGGACTGTC TGTAACAACG 
AAGGTCACAG TCCCAGCTGT CAGTACGGGA ATAACAACCT TTGGCCCAGA GACCCTCACT 
GAGTCACTAA GTTCCAAGCA CCCAAGGAGC ACCCCAGCAA GAAGTCAAAC CTGGACCTCA 
GTGCCCCCAT CAGTGAGAGA TGGGGGTAGC ATAGTCAGGC AGGATAGGAA TAGCACAGGA 
CAAGGACAGA CCCATGGAAC CCATCAGGGG ACCACAGATG CCCCACTGCA CACCACTGGA 
GAGTCACAGG AATTTATCAC CAAAGATCCA CCCTTCCTGA CTGCTACAAC CACGGGCTAT 
GTTGTGTGGC ACTCCAGTCC CACTTGGAAG ACACTTCCAA ACTCCATAAG ACTACCAAAT 
GAAGACCCTC GATCTTCCTC CTTCCCAGGC CCGCCATCAG CCCCAACCGA TGTGACTCCA 
GAGTCCCCTG CCTGTGTGGC CCAGAAACTT GCCGGGAACG TCCAGATCAC GAGCATGCAG 
TATTCGGAAT CCTTCCGCAA TACCAGCAGC AGGGAGCACC GAGAGTTCGT AGAGTTGTTC 
TTCAGAACGG TGCGGGACTC TCTGCCAGCC ACGCTGCGTC AGCACATGGA TGCAGGCAGG 
ATCCGTGTGG ACATCACTAA CATCACAAAT GGCAGCATCG TGGTGGAGTT TAATTTGCTA 
ATGACAGCGG ACCTTGATGT CAGGGAGGTG TCTGCCGGCT TCCTCGATGC CTTACAGAAC 
ACATCGATGC TGGAGGTGGT CAGAGGCAAA ACTTTTATGC AAGATTACAA CGAGTGTGAC 
ATGAGAGAGG ATGACTGTGC CCCTGGGACA TGCAGGAACA CCTTCGGGTC TTTTACATGT 
AGCTGTGATG GGGGAGGACC TGACTCACAG GTGGAATATT CTGGAAGGTC CTGTGATGGT 
GACCCTTCTG GCAACACGAC CCAGACCCCA GGCTCAGAGT GGTCTCCTAC CCCAGCAGGA 
ACTAGGGGTG TCCCTGTGCC AATTGCCAGC TCCACAGCCC AGGACCTGCC CCTGCAGCTG 
AACCTGACGG ATGCCGTTAG CGTGTCCTGT GAGATCGAGA CGGTGCTCAT CACCGTCCAG 
AAGCGCTTTC TGCAGCAGGA GGCCATACCT GAGGCCTCCC TGTACCTGGG AGAGCCATCC 
TGCAACGTGA GCAGAAGCAA CAGCACACAC GTGTTTCTGG TGGCTGGCTG GGGCGAGTGT 
GGGACCATCT TACAGAGTAA TGTGACCACC ACAGTGGTGA CGACCACACT GAGGAACGAC 
CTGTCCCCAG AGGGTGTCAT CCACCACCTG CAATTCCTCA GTCCTATCCA CTGTGCCTTC 
CAGAATGACC TTCTGACCTC CTCGGGCTAC ACCCCACAGT GGGGGGTCTA CACCGTCATC 
GAAGACCTCC ACGGTACTGG AAATTTTGTC ACAGAAATGC AGTTGTACAT TGGCGATTCT 
CCCATACCTC AGAACTATAG CGTGTCCGCC AGCGATGAGA TCAAGATTGA GGTGGGGCTT 
CACAGGCAGA AGAGCAGTCT GAAGGTCGTG CTGACTGAGT GCTGGGCCAC CCCCTCCAGC 
AACGCCAAGG ACCCCATCAC CTTTGGCTTC ATCAACAACA GCTGCCCTGT TCCCAACACC 
TACACCAGTG TGATTCAGAA TGGCAACTCC AGCAAGGCCC AGTTCAAGCT GAGAATCTTC 
TCCTTCATCA ACAACTCCAT CGTCTACCTG CACTGCAAGC TGAGAGTGTG CATGGAGAAC 
CCCAGGAACT CGTGCAGGAT AAGCTGCAAT GACTTCCGGT TGCTGAGAAG TAGTGAAGCC 
TTGCACCAGA TGACCTGGGG GCCCCTCCAT CGGACTGAAG GTGCACAGGC ATGTACAAAG 
CCAGTCCTGG GAACTGGTTA CATCATTCTC CTAGCGGCAG CTGCACTTCT GGTAGTGGCA 
GGGGCCACAA CCCTTCTGAT CTTGCGTTAC CAGAGAGTAA GGCAGAAGTA CAATCTTCGG 
ATCCAGACCG ACGACTTCAG CTACCAGGTG TTCTCTCAAT AG

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

RefSeq	XP_021004945.1
CDS	66..3767
Translation	MMSRTLRLFLLALACTVDLSQASGFTENGLSLLSYQLCSYPVTRSVQKLQAVQTSHTAYVYCGGWIPWKKCPKTVYRTQYLAMDVPESRNVTDCCAGFEQLGLYCVLSLNRSREFASRPGVCPTAEAEPLSPSCSLDTDCSGLQKCCSWPGGRHCVSPTPTGTEKSMVSWYNVTVLVKMGFEDLQREDPGLRNHTRLLYSLVTSALQPLNPAVHYLTSTGGRDTFTTVSWLLVGFPRLMTVANFSVMLDGMVNRVYEVVSIQVQDVNECLHSELQACSVGEQCRNLEGSYQCVSSQRLNHTDEDCPPIRDFMALNVTSSSFHVSWSLNSTQNHTFHVQVYKGKEILRSDWIRGHTMAVSELEAGVLYSVRTSYLGCQANVSATLVVKTDAQVFQVTIRIMDRNLTEQILDCSSGEFWNFSRQLFHEVENSFPQAISDLYRQGRLRMQIVSLQAGSLVVTLRLTLQDPDFSVGVHTLKPMLLPLSVSNVFQVDQQRTFVQDWDECAHSSEHDCHPSARCINLEGSYTCQCLTARDASPSRAGRVCEGDMVIPTGDGLSVTTKVTVPAVSTGITTFGPETLTESLSSKHPRSTPARSQTWTSVPPSVRDGGSIVRQDRNSTGQGQTHGTHQGTTDAPLHTTGESQEFITKDPPFLTATTTGYVVWHSSPTWKTLPNSIRLPNEDPRSSSFPGPPSAPTDVTPESPACVAQKLAGNVQITSMQYSESFRNTSSREHREFVELFFRTVRDSLPATLRQHMDAGRIRVDITNITNGSIVVEFNLLMTADLDVREVSAGFLDALQNTSMLEVVRGKTFMQDYNECDMREDDCAPGTCRNTFGSFTCSCDGGGPDSQVEYSGRSCDGDPSGNTTQTPGSEWSPTPAGTRGVPVPIASSTAQDLPLQLNLTDAVSVSCEIETVLITVQKRFLQQEAIPEASLYLGEPSCNVSRSNSTHVFLVAGWGECGTILQSNVTTTVVTTTLRNDLSPEGVIHHLQFLSPIHCAFQNDLLTSSGYTPQWGVYTVIEDLHGTGNFVTEMQLYIGDSPIPQNYSVSASDEIKIEVGLHRQKSSLKVVLTECWATPSSNAKDPITFGFINNSCPVPNTYTSVIQNGNSSKAQFKLRIFSFINNSIVYLHCKLRVCMENPRNSCRISCNDFRLLRSSEALHQMTWGPLHRTEGAQACTKPVLGTGYIILLAAAALLVVAGATTLLILRYQRVRQKYNLRIQTDDFSYQVFSQ

Target ORF information:

RefSeq Version	XM_021149286.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli uromodulin like 1 (Umodl1), transcript variant X3, mRNA.

Target ORF information:

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

XM_021149286.1

ORF Insert Sequence:

ATGATGTCCC GGACTCTGAG GCTGTTCCTG CTGGCTTTGG CCTGTACTGT GGACCTGAGC 
CAGGCCAGTG GCTTTACAGA AAATGGCCTC TCCCTGCTGA GCTACCAGCT CTGCAGCTAC 
CCGGTGACCC GAAGTGTCCA GAAGCTGCAG GCTGTGCAGA CCTCTCACAC AGCCTACGTG 
TACTGCGGAG GATGGATCCC CTGGAAAAAG TGCCCCAAGA CTGTGTACCG GACCCAGTAC 
CTGGCGATGG ATGTCCCTGA GTCCAGGAAT GTGACTGACT GCTGTGCGGG CTTTGAGCAA 
CTTGGCCTCT ACTGCGTTCT GTCCCTGAAC CGGTCCCGGG AGTTTGCATC GAGGCCCGGG 
GTCTGCCCAA CAGCTGAAGC AGAGCCACTT AGCCCTTCAT GCAGCTTGGA TACAGACTGC 
TCTGGACTTC AGAAGTGCTG TTCCTGGCCA GGGGGCCGTC ACTGTGTGTC CCCCACTCCC 
ACAGGTACAG AGAAGAGCAT GGTGAGCTGG TACAATGTGA CTGTGCTGGT GAAGATGGGC 
TTTGAGGACC TGCAGCGAGA GGACCCTGGG CTCCGGAACC ACACTCGCCT GCTCTACTCT 
TTGGTTACCA GTGCCTTGCA GCCTCTGAAC CCAGCTGTAC ACTACCTGAC CTCAACTGGT 
GGCAGGGACA CATTCACCAC TGTGTCATGG CTACTGGTGG GCTTTCCACG GCTCATGACA 
GTAGCCAATT TCTCCGTCAT GTTGGATGGC ATGGTGAATC GGGTCTATGA GGTGGTCAGC 
ATCCAGGTGC AAGATGTGAA CGAGTGTCTT CACAGTGAGC TGCAAGCCTG CTCTGTAGGA 
GAGCAGTGCC GCAACCTGGA GGGCTCCTAC CAATGTGTGT CTTCCCAGCG GCTGAACCAC 
ACAGATGAAG ATTGCCCTCC AATCCGAGAT TTCATGGCAC TTAATGTCAC CAGCAGCAGT 
TTCCATGTGT CCTGGAGTTT GAATTCCACT CAGAACCACA CTTTCCACGT TCAAGTGTAC 
AAAGGCAAAG AGATACTCAG AAGCGATTGG ATAAGGGGCC ACACTATGGC TGTGTCTGAG 
TTGGAGGCTG GAGTACTTTA CAGCGTGAGG ACTAGCTACC TGGGGTGCCA GGCCAATGTT 
TCTGCCACAC TGGTTGTCAA GACAGATGCC CAGGTTTTCC AAGTCACAAT ACGGATCATG 
GACCGTAACC TGACAGAGCA GATTCTTGAC TGCAGCAGCG GGGAATTCTG GAACTTTTCT 
CGACAGCTGT TTCATGAGGT GGAAAACTCC TTCCCCCAAG CCATCTCTGA CCTGTACAGA 
CAAGGGAGGC TGAGGATGCA GATCGTGTCT CTGCAGGCAG GGAGTCTAGT GGTGACGCTT 
AGACTCACCC TGCAAGATCC TGACTTTTCA GTGGGTGTCC ACACACTGAA GCCCATGCTG 
CTCCCCCTGT CTGTGAGCAA CGTGTTCCAG GTTGACCAGC AGAGGACATT CGTGCAAGAC 
TGGGATGAGT GTGCACACAG CTCGGAGCAT GACTGCCACC CGAGCGCACG CTGCATCAAC 
CTGGAGGGCT CCTACACGTG CCAGTGCCTC ACAGCCAGGG ATGCCAGCCC CTCCAGGGCT 
GGCAGGGTCT GCGAGGGTGA CATGGTGATC CCCACAGGAG ATGGACTGTC TGTAACAACG 
AAGGTCACAG TCCCAGCTGT CAGTACGGGA ATAACAACCT TTGGCCCAGA GACCCTCACT 
GAGTCACTAA GTTCCAAGCA CCCAAGGAGC ACCCCAGCAA GAAGTCAAAC CTGGACCTCA 
GTGCCCCCAT CAGTGAGAGA TGGGGGTAGC ATAGTCAGGC AGGATAGGAA TAGCACAGGA 
CAAGGACAGA CCCATGGAAC CCATCAGGGG ACCACAGATG CCCCACTGCA CACCACTGGA 
GAGTCACAGG AATTTATCAC CAAAGATCCA CCCTTCCTGA CTGCTACAAC CACGGGCTAT 
GTTGTGTGGC ACTCCAGTCC CACTTGGAAG ACACTTCCAA ACTCCATAAG ACTACCAAAT 
GAAGACCCTC GATCTTCCTC CTTCCCAGGC CCGCCATCAG CCCCAACCGA TGTGACTCCA 
GAGTCCCCTG CCTGTGTGGC CCAGAAACTT GCCGGGAACG TCCAGATCAC GAGCATGCAG 
TATTCGGAAT CCTTCCGCAA TACCAGCAGC AGGGAGCACC GAGAGTTCGT AGAGTTGTTC 
TTCAGAACGG TGCGGGACTC TCTGCCAGCC ACGCTGCGTC AGCACATGGA TGCAGGCAGG 
ATCCGTGTGG ACATCACTAA CATCACAAAT GGCAGCATCG TGGTGGAGTT TAATTTGCTA 
ATGACAGCGG ACCTTGATGT CAGGGAGGTG TCTGCCGGCT TCCTCGATGC CTTACAGAAC 
ACATCGATGC TGGAGGTGGT CAGAGGCAAA ACTTTTATGC AAGATTACAA CGAGTGTGAC 
ATGAGAGAGG ATGACTGTGC CCCTGGGACA TGCAGGAACA CCTTCGGGTC TTTTACATGT 
AGCTGTGATG GGGGAGGACC TGACTCACAG GTGGAATATT CTGGAAGGTC CTGTGATGGT 
GACCCTTCTG GCAACACGAC CCAGACCCCA GGCTCAGAGT GGTCTCCTAC CCCAGCAGGA 
ACTAGGGGTG TCCCTGTGCC AATTGCCAGC TCCACAGCCC AGGACCTGCC CCTGCAGCTG 
AACCTGACGG ATGCCGTTAG CGTGTCCTGT GAGATCGAGA CGGTGCTCAT CACCGTCCAG 
AAGCGCTTTC TGCAGCAGGA GGCCATACCT GAGGCCTCCC TGTACCTGGG AGAGCCATCC 
TGCAACGTGA GCAGAAGCAA CAGCACACAC GTGTTTCTGG TGGCTGGCTG GGGCGAGTGT 
GGGACCATCT TACAGAGTAA TGTGACCACC ACAGTGGTGA CGACCACACT GAGGAACGAC 
CTGTCCCCAG AGGGTGTCAT CCACCACCTG CAATTCCTCA GTCCTATCCA CTGTGCCTTC 
CAGAATGACC TTCTGACCTC CTCGGGCTAC ACCCCACAGT GGGGGGTCTA CACCGTCATC 
GAAGACCTCC ACGGTACTGG AAATTTTGTC ACAGAAATGC AGTTGTACAT TGGCGATTCT 
CCCATACCTC AGAACTATAG CGTGTCCGCC AGCGATGAGA TCAAGATTGA GGTGGGGCTT 
CACAGGCAGA AGAGCAGTCT GAAGGTCGTG CTGACTGAGT GCTGGGCCAC CCCCTCCAGC 
AACGCCAAGG ACCCCATCAC CTTTGGCTTC ATCAACAACA GCTGCCCTGT TCCCAACACC 
TACACCAGTG TGATTCAGAA TGGCAACTCC AGCAAGGCCC AGTTCAAGCT GAGAATCTTC 
TCCTTCATCA ACAACTCCAT CGTCTACCTG CACTGCAAGC TGAGAGTGTG CATGGAGAAC 
CCCAGGAACT CGTGCAGGAT AAGCTGCAAT GACTTCCGGT TGCTGAGAAG TAGTGAAGCC 
TTGCACCAGA TGACCTGGGG GCCCCTCCAT CGGACTGAAG GTGCACAGGC ATGTACAAAG 
CCAGTCCTGG GAACTGGTTA CATCATTCTC CTAGCGGCAG CTGCACTTCT GGTAGTGGCA 
GGGGCCACAA CCCTTCTGAT CTTGCGTTAC CAGAGAGTAA GGCAGAAGTA CAATCTTCGG 
ATCCAGACCG ACGACTTCAG CTACCAGGTG TTCTCTCAAT AG

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

PubMed

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Umodl1 cDNA ORF clone, Mus caroli(Ryukyu 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:

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Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム