Xpo5 cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Xpo5
Entrez Gene ID	110312386
Full Name	exportin 5
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021185944.1	XP_021041603.1	exportin-5
XM_021185944.2	XP_021041603.1	exportin-5

Pathways from BioSystems
Gene Ontology

The following Xpo5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Xpo5 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)
OMv34049	XM_021185944.2 Latest version!	Mus caroli exportin 5 (Xpo5), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
View Old Accession Versions >>
OMv34049	XM_021185944.1	Mus caroli exportin 5 (Xpo5), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
Hide Old Accession Versions >>

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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)

Xpo5 ( XM_021185944.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021041603.1 Mus caroli exportin 5 (Xpo5), mRNA.

Price & Availability↑

CloneID	OMv34049
Clone ID Related Accession (Same CDS sequence)	XM_021185944.1 , XM_021185944.2
Accession Version	XM_021185944.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3615bp) 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	exportin-5
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 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##

ATGGAGATGG AGCAAGTGAA CGCGCTGTGC GAGGAGCTAG TGAAAGCGGT GACGGTCATG 
ATGGACCCCA GCTCTACCCA GCGCTACCGG CTGGAAGCCC TCAAGTTTTG TGAAGAGTTT 
AAAGAAAAAT GCCCTATCTG TGTTCCATGT GGCTTGAAGT TGGCTGAAAA AACACAAATT 
GCCATCGTCA GACATTTTGG CCTTCAGATC CTGGAGCATG TTGTCAAGTT TCGATGGAAC 
AGCATGTCCC GATTGGAGAA GGTCTATCTG AAGAACAGTG TCATGGATCT GATCGCAAAT 
GGAACACTGA GGATTTTGGA GGAGGAGAAC CACATTAAAG ATGTTCTGTC TAGGATTGTG 
GTAGAGATGA TCAAACGGGA GTGGCCACAG CACTGGCCTG ACATGCTCAT GGAGTTGGAT 
ACTCTCTCCA GGCAAGGGGA AACGCAGAGG GAGTTGGTGA TGTTCATCCT TTTACGACTG 
GCCGAGGATG TAGTGACCTT TCAGACGCTC CCCACTCAAA GAAGACGGGA TATTCAGCAA 
ACATTGACGC AGAACATGGA AAGAATCTTG AATTTTCTAC TCAGTACGCT TCAGGAAAAT 
GTAAACAAGT ACCAACAAAT GAAGACAGAT GCGTCTCAGG AGGCAGAGGC TCAAGCCAAC 
TGTCGAGTAA GCGTGGCGGC CCTGAACACT CTAGCAGGCT ACATTGATTG GGTATCTTTG 
AACCATATTA CTGCCGAGAA CTGTAAACTC GTGGAGACTC TGTGCCTGCT TCTCAATGAG 
CAGGAGCTGC AGTTGGGAGC CGCCGAGTGT CTGCTCATTG CAGTCAGCAG AAAAGGCAAG 
CTGGAGGACC GGAAGCGCTT GATGGTTCTG TTTGGAGATG TCGCCATGCA CTATATTCTC 
TCGGCCGCAC AGACTGCAGA TGGAGGAGGC TTGGTAGAAA AACACTACCT CTTCCTGAAG 
AGACTTTGTC AGGTGTTATG TGCACTGGGA AATCTGCTAT GTGCACTGCT GGCCTTAGAT 
GCTAACATAC AAACACCTAT AAACTTTGGA ATGTACCTGG AATCTTTTCT TGCTTTCACA 
ACCCACCCAA GTCAGTTTTT ACGCTCTTCA ACCCATATGA CGTGGGGAGC CCTCTTCAGG 
CATGAAGTTC TGTCCCGTGA TCCGGCGCTG TTAGCAGTAA TACCAAAATA TCTTCGTGCT 
TCTATGACAA ACTTGGTCAA GATGGGCTTT CCTTCTAAAA CAGATAGCCC CAGCTGTGAA 
TATTCCCGAT TTGATTTCGA TAGTGATGAG GACTTCAATG CTTTCTTCAA CTCCTCCAGA 
GCCCAGCATG GAGAGGTGGT GAGGTGTGTA TGTCGACTGG ATCCTAAGAC TAGCTTCCAG 
ATGGCGGCAG AATGGCTCAA GTATCAGCTG TCAGCTTCTA TTGACACTGG AGCTGTGAAC 
TCATGTTCTG CAGCTGGAAC TGGAGAGGGA GGCCTCTGCT CCATCTTCTC ACCTTCATAT 
GTGCAGTGGG AAGCTATGAC TTTTTTTTTG GAAAGTGTGA TCAACCAGAT GTTTCGAACA 
CTAGACAAAG AAGAGCTCCC GGTTAGTGAT GGGATAGAGC TGCTGCAGCT GGTTTTGAAC 
TTTGAGATCA AGGATCCCCT CGTCCTCTCC TGCGTCCTCA CTAATGTCTC AGCGCTCTTT 
CCATTTGTCA CATACAAGCC TGCGTTCTTG CCCCAGGTCT TCTCTAAGCT CTTTTCATTT 
GTTACTTTTG AATCTGTTGG GGAAAGTAAG GCCCCCAGGA CTCGGGCAGT CAGGAATGTA 
AGGAGACATG CTTGCTCCTC CATCAACAAG ATGTGTCGGG ACTACCCAGA CCTTGTTCTG 
CCCAATTTTG ACATGCTTTA TAGCCACGTG AAGCAACTCC TCTCCAATGA GCTCCTCCTG 
ACCCAGATGG AGAAGTGTGC CCTCATGGAA GCCCTGGTTC TCGTTAGCAA CCAATTCAAG 
GATTATGAGC GGCAGAAGTT ATTCCTAGAG GAGCTGATGG CACCGGTGGT CAACATCTGG 
CTTTCTGAAG AAATGTGCAG AGCGCTGTCA GATATTGACG CCTTTATTGC CTATGTGGGT 
GCTGATCTGA AAAGCTGTGA CCCAGCTGTG GAGGATCCAT GTGGCTTGAA CCGTGCACGA 
ATGAGCTTTT GTGTGTACAG CATCCTGGGG GTTATGAGAC GCACTAGCTG GCCTTCCGAC 
CTAGAAGAAG CCAAAGCTGG GGGCTTTGTG GTGGGCTACA CACCCAGCGG GAATCCCATC 
TTCCGCAACC CCTGCACAGA GCACATCCTC AGACTTCTCG ACAACTTGCT TGCCCTTGTA 
AGAACCCATA ATACTTTATA TACACCGGAA ATGCTAACCA AAATGGCAGA ACCCTTCACC 
AAGGCTCTGG ATATAGTTGA ATCTGAAAAA ACGGCAATAT TAGGATTACC TCAGCCTCTC 
TTGGAATTCA ACGACCACCC TGTCTATAGA ACCACTTTGG AGAGGATGCA GCGGTTCTTC 
GGCATTCTCT ATGAAAACTG TTACCATATC CTGGGGAAGG CGGGCCCTTC CATGCAGCAA 
GACTTCTACA CTGTGGAGGA CCTTGCTTCC CAGCTCCTTG GATCAGCTTT CGTCAACTTG 
AACAATATTC CTGACTTCCG GCTTAGATCT ATGCTTCGTG TCTTCGTGAA GCCCCTCGTG 
CTCTTCTGCC CCCCAGAACA CTATGAAACC CTGATATCTC CCATCCTTGG ACCTCTCTTC 
ACCTACCTCC ACATGAGGCT CTCCCAGAAG TGGCATGTCA TCAACCAGAG GAGCATCCTG 
TGTGGAGAAG ATGAGATTGC AGAGGACAAC CCCGAGTCTC AGGAAATGCT CGAGGAACAG 
CTGGTGAGGA TGCTCACCCG AGAAGCCATG GACCTAATCA TGGCTTGCTG TGTGTCAAAG 
AAGACTGCCG ACCACACTGC CGCTCCCACT GCGGATGGAG ATGATGAAGA GATGATGGCC 
ACTGAAGTAG CCCCCTCGTC TGTGGTGGAG CTCACAGACC TGGGCAAATG CCTCATGAAG 
CACGAGGATG TCTGCACAGC ACTGCTAATC ACAGCATTTA ATTCTCTGAC CTGGAAGGAC 
ACGCTGTCTT GCCAGAGGGC TACCACACAG CTCTGCTGGC CCCTCCTCAA ACAGGTGATG 
TCTGGGACCC TGCTCGCAGA CGCTGTCACT TGGCTTTTCA CCAGCGTGCT GAAAGGACTG 
CAGATGCACG GGCAGCACGA CGGGTGCATG GCTTCCCTGG TCCACTTGGC CTTCCAGATA 
TACGAGGCGC TGCGCCCCAG GTACCTAGAG ATAAGAGCAG TAATGGAGCA GATCCCTGAA 
ATAAACAAGG AGTCTCTGGA CCAATTTGAC TGCAAGCTTT TAAACCCCTC CCTTCAAAAA 
GCAGCTGATA AACGACGGAA GGACCACTTC AAACGTCTAA TCGCTGGCTG CATTGGGAAA 
CCCTTGGGAG AACAGTTCCG AAAAGAAGTT CACATTAAGA ACCTTCCCTG GCTTTTCAAA 
AAACCCAAAC CAATGCTGGA GACAGAAGTG CTGGACAGTG AGGAGGGTGG ACTGGCCACC 
ATCTTTGAAC CCTGA

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

RefSeq	XP_021041603.1
CDS	149..3763
Translation	MEMEQVNALCEELVKAVTVMMDPSSTQRYRLEALKFCEEFKEKCPICVPCGLKLAEKTQIAIVRHFGLQILEHVVKFRWNSMSRLEKVYLKNSVMDLIANGTLRILEEENHIKDVLSRIVVEMIKREWPQHWPDMLMELDTLSRQGETQRELVMFILLRLAEDVVTFQTLPTQRRRDIQQTLTQNMERILNFLLSTLQENVNKYQQMKTDASQEAEAQANCRVSVAALNTLAGYIDWVSLNHITAENCKLVETLCLLLNEQELQLGAAECLLIAVSRKGKLEDRKRLMVLFGDVAMHYILSAAQTADGGGLVEKHYLFLKRLCQVLCALGNLLCALLALDANIQTPINFGMYLESFLAFTTHPSQFLRSSTHMTWGALFRHEVLSRDPALLAVIPKYLRASMTNLVKMGFPSKTDSPSCEYSRFDFDSDEDFNAFFNSSRAQHGEVVRCVCRLDPKTSFQMAAEWLKYQLSASIDTGAVNSCSAAGTGEGGLCSIFSPSYVQWEAMTFFLESVINQMFRTLDKEELPVSDGIELLQLVLNFEIKDPLVLSCVLTNVSALFPFVTYKPAFLPQVFSKLFSFVTFESVGESKAPRTRAVRNVRRHACSSINKMCRDYPDLVLPNFDMLYSHVKQLLSNELLLTQMEKCALMEALVLVSNQFKDYERQKLFLEELMAPVVNIWLSEEMCRALSDIDAFIAYVGADLKSCDPAVEDPCGLNRARMSFCVYSILGVMRRTSWPSDLEEAKAGGFVVGYTPSGNPIFRNPCTEHILRLLDNLLALVRTHNTLYTPEMLTKMAEPFTKALDIVESEKTAILGLPQPLLEFNDHPVYRTTLERMQRFFGILYENCYHILGKAGPSMQQDFYTVEDLASQLLGSAFVNLNNIPDFRLRSMLRVFVKPLVLFCPPEHYETLISPILGPLFTYLHMRLSQKWHVINQRSILCGEDEIAEDNPESQEMLEEQLVRMLTREAMDLIMACCVSKKTADHTAAPTADGDDEEMMATEVAPSSVVELTDLGKCLMKHEDVCTALLITAFNSLTWKDTLSCQRATTQLCWPLLKQVMSGTLLADAVTWLFTSVLKGLQMHGQHDGCMASLVHLAFQIYEALRPRYLEIRAVMEQIPEINKESLDQFDCKLLNPSLQKAADKRRKDHFKRLIAGCIGKPLGEQFRKEVHIKNLPWLFKKPKPMLETEVLDSEEGGLATIFEP

Target ORF information:

RefSeq Version	XM_021185944.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli exportin 5 (Xpo5), mRNA.

Target ORF information:

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

XM_021185944.1

ORF Insert Sequence:

ATGGAGATGG AGCAAGTGAA CGCGCTGTGC GAGGAGCTAG TGAAAGCGGT GACGGTCATG 
ATGGACCCCA GCTCTACCCA GCGCTACCGG CTGGAAGCCC TCAAGTTTTG TGAAGAGTTT 
AAAGAAAAAT GCCCTATCTG TGTTCCATGT GGCTTGAAGT TGGCTGAAAA AACACAAATT 
GCCATCGTCA GACATTTTGG CCTTCAGATC CTGGAGCATG TTGTCAAGTT TCGATGGAAC 
AGCATGTCCC GATTGGAGAA GGTCTATCTG AAGAACAGTG TCATGGATCT GATCGCAAAT 
GGAACACTGA GGATTTTGGA GGAGGAGAAC CACATTAAAG ATGTTCTGTC TAGGATTGTG 
GTAGAGATGA TCAAACGGGA GTGGCCACAG CACTGGCCTG ACATGCTCAT GGAGTTGGAT 
ACTCTCTCCA GGCAAGGGGA AACGCAGAGG GAGTTGGTGA TGTTCATCCT TTTACGACTG 
GCCGAGGATG TAGTGACCTT TCAGACGCTC CCCACTCAAA GAAGACGGGA TATTCAGCAA 
ACATTGACGC AGAACATGGA AAGAATCTTG AATTTTCTAC TCAGTACGCT TCAGGAAAAT 
GTAAACAAGT ACCAACAAAT GAAGACAGAT GCGTCTCAGG AGGCAGAGGC TCAAGCCAAC 
TGTCGAGTAA GCGTGGCGGC CCTGAACACT CTAGCAGGCT ACATTGATTG GGTATCTTTG 
AACCATATTA CTGCCGAGAA CTGTAAACTC GTGGAGACTC TGTGCCTGCT TCTCAATGAG 
CAGGAGCTGC AGTTGGGAGC CGCCGAGTGT CTGCTCATTG CAGTCAGCAG AAAAGGCAAG 
CTGGAGGACC GGAAGCGCTT GATGGTTCTG TTTGGAGATG TCGCCATGCA CTATATTCTC 
TCGGCCGCAC AGACTGCAGA TGGAGGAGGC TTGGTAGAAA AACACTACCT CTTCCTGAAG 
AGACTTTGTC AGGTGTTATG TGCACTGGGA AATCTGCTAT GTGCACTGCT GGCCTTAGAT 
GCTAACATAC AAACACCTAT AAACTTTGGA ATGTACCTGG AATCTTTTCT TGCTTTCACA 
ACCCACCCAA GTCAGTTTTT ACGCTCTTCA ACCCATATGA CGTGGGGAGC CCTCTTCAGG 
CATGAAGTTC TGTCCCGTGA TCCGGCGCTG TTAGCAGTAA TACCAAAATA TCTTCGTGCT 
TCTATGACAA ACTTGGTCAA GATGGGCTTT CCTTCTAAAA CAGATAGCCC CAGCTGTGAA 
TATTCCCGAT TTGATTTCGA TAGTGATGAG GACTTCAATG CTTTCTTCAA CTCCTCCAGA 
GCCCAGCATG GAGAGGTGGT GAGGTGTGTA TGTCGACTGG ATCCTAAGAC TAGCTTCCAG 
ATGGCGGCAG AATGGCTCAA GTATCAGCTG TCAGCTTCTA TTGACACTGG AGCTGTGAAC 
TCATGTTCTG CAGCTGGAAC TGGAGAGGGA GGCCTCTGCT CCATCTTCTC ACCTTCATAT 
GTGCAGTGGG AAGCTATGAC TTTTTTTTTG GAAAGTGTGA TCAACCAGAT GTTTCGAACA 
CTAGACAAAG AAGAGCTCCC GGTTAGTGAT GGGATAGAGC TGCTGCAGCT GGTTTTGAAC 
TTTGAGATCA AGGATCCCCT CGTCCTCTCC TGCGTCCTCA CTAATGTCTC AGCGCTCTTT 
CCATTTGTCA CATACAAGCC TGCGTTCTTG CCCCAGGTCT TCTCTAAGCT CTTTTCATTT 
GTTACTTTTG AATCTGTTGG GGAAAGTAAG GCCCCCAGGA CTCGGGCAGT CAGGAATGTA 
AGGAGACATG CTTGCTCCTC CATCAACAAG ATGTGTCGGG ACTACCCAGA CCTTGTTCTG 
CCCAATTTTG ACATGCTTTA TAGCCACGTG AAGCAACTCC TCTCCAATGA GCTCCTCCTG 
ACCCAGATGG AGAAGTGTGC CCTCATGGAA GCCCTGGTTC TCGTTAGCAA CCAATTCAAG 
GATTATGAGC GGCAGAAGTT ATTCCTAGAG GAGCTGATGG CACCGGTGGT CAACATCTGG 
CTTTCTGAAG AAATGTGCAG AGCGCTGTCA GATATTGACG CCTTTATTGC CTATGTGGGT 
GCTGATCTGA AAAGCTGTGA CCCAGCTGTG GAGGATCCAT GTGGCTTGAA CCGTGCACGA 
ATGAGCTTTT GTGTGTACAG CATCCTGGGG GTTATGAGAC GCACTAGCTG GCCTTCCGAC 
CTAGAAGAAG CCAAAGCTGG GGGCTTTGTG GTGGGCTACA CACCCAGCGG GAATCCCATC 
TTCCGCAACC CCTGCACAGA GCACATCCTC AGACTTCTCG ACAACTTGCT TGCCCTTGTA 
AGAACCCATA ATACTTTATA TACACCGGAA ATGCTAACCA AAATGGCAGA ACCCTTCACC 
AAGGCTCTGG ATATAGTTGA ATCTGAAAAA ACGGCAATAT TAGGATTACC TCAGCCTCTC 
TTGGAATTCA ACGACCACCC TGTCTATAGA ACCACTTTGG AGAGGATGCA GCGGTTCTTC 
GGCATTCTCT ATGAAAACTG TTACCATATC CTGGGGAAGG CGGGCCCTTC CATGCAGCAA 
GACTTCTACA CTGTGGAGGA CCTTGCTTCC CAGCTCCTTG GATCAGCTTT CGTCAACTTG 
AACAATATTC CTGACTTCCG GCTTAGATCT ATGCTTCGTG TCTTCGTGAA GCCCCTCGTG 
CTCTTCTGCC CCCCAGAACA CTATGAAACC CTGATATCTC CCATCCTTGG ACCTCTCTTC 
ACCTACCTCC ACATGAGGCT CTCCCAGAAG TGGCATGTCA TCAACCAGAG GAGCATCCTG 
TGTGGAGAAG ATGAGATTGC AGAGGACAAC CCCGAGTCTC AGGAAATGCT CGAGGAACAG 
CTGGTGAGGA TGCTCACCCG AGAAGCCATG GACCTAATCA TGGCTTGCTG TGTGTCAAAG 
AAGACTGCCG ACCACACTGC CGCTCCCACT GCGGATGGAG ATGATGAAGA GATGATGGCC 
ACTGAAGTAG CCCCCTCGTC TGTGGTGGAG CTCACAGACC TGGGCAAATG CCTCATGAAG 
CACGAGGATG TCTGCACAGC ACTGCTAATC ACAGCATTTA ATTCTCTGAC CTGGAAGGAC 
ACGCTGTCTT GCCAGAGGGC TACCACACAG CTCTGCTGGC CCCTCCTCAA ACAGGTGATG 
TCTGGGACCC TGCTCGCAGA CGCTGTCACT TGGCTTTTCA CCAGCGTGCT GAAAGGACTG 
CAGATGCACG GGCAGCACGA CGGGTGCATG GCTTCCCTGG TCCACTTGGC CTTCCAGATA 
TACGAGGCGC TGCGCCCCAG GTACCTAGAG ATAAGAGCAG TAATGGAGCA GATCCCTGAA 
ATAAACAAGG AGTCTCTGGA CCAATTTGAC TGCAAGCTTT TAAACCCCTC CCTTCAAAAA 
GCAGCTGATA AACGACGGAA GGACCACTTC AAACGTCTAA TCGCTGGCTG CATTGGGAAA 
CCCTTGGGAG AACAGTTCCG AAAAGAAGTT CACATTAAGA ACCTTCCCTG GCTTTTCAAA 
AAACCCAAAC CAATGCTGGA GACAGAAGTG CTGGACAGTG AGGAGGGTGG ACTGGCCACC 
ATCTTTGAAC CCTGA

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

Xpo5 ( XM_021185944.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021041603.1 Mus caroli exportin 5 (Xpo5), mRNA.

Price & Availability↑

CloneID	OMv34049
Clone ID Related Accession (Same CDS sequence)	XM_021185944.1 , XM_021185944.2
Accession Version	XM_021185944.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3615bp) 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	exportin-5
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 On Jun 10, 2019 this sequence version replaced XM_021185944.1. ##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##

ATGGAGATGG AGCAAGTGAA CGCGCTGTGC GAGGAGCTAG TGAAAGCGGT GACGGTCATG 
ATGGACCCCA GCTCTACCCA GCGCTACCGG CTGGAAGCCC TCAAGTTTTG TGAAGAGTTT 
AAAGAAAAAT GCCCTATCTG TGTTCCATGT GGCTTGAAGT TGGCTGAAAA AACACAAATT 
GCCATCGTCA GACATTTTGG CCTTCAGATC CTGGAGCATG TTGTCAAGTT TCGATGGAAC 
AGCATGTCCC GATTGGAGAA GGTCTATCTG AAGAACAGTG TCATGGATCT GATCGCAAAT 
GGAACACTGA GGATTTTGGA GGAGGAGAAC CACATTAAAG ATGTTCTGTC TAGGATTGTG 
GTAGAGATGA TCAAACGGGA GTGGCCACAG CACTGGCCTG ACATGCTCAT GGAGTTGGAT 
ACTCTCTCCA GGCAAGGGGA AACGCAGAGG GAGTTGGTGA TGTTCATCCT TTTACGACTG 
GCCGAGGATG TAGTGACCTT TCAGACGCTC CCCACTCAAA GAAGACGGGA TATTCAGCAA 
ACATTGACGC AGAACATGGA AAGAATCTTG AATTTTCTAC TCAGTACGCT TCAGGAAAAT 
GTAAACAAGT ACCAACAAAT GAAGACAGAT GCGTCTCAGG AGGCAGAGGC TCAAGCCAAC 
TGTCGAGTAA GCGTGGCGGC CCTGAACACT CTAGCAGGCT ACATTGATTG GGTATCTTTG 
AACCATATTA CTGCCGAGAA CTGTAAACTC GTGGAGACTC TGTGCCTGCT TCTCAATGAG 
CAGGAGCTGC AGTTGGGAGC CGCCGAGTGT CTGCTCATTG CAGTCAGCAG AAAAGGCAAG 
CTGGAGGACC GGAAGCGCTT GATGGTTCTG TTTGGAGATG TCGCCATGCA CTATATTCTC 
TCGGCCGCAC AGACTGCAGA TGGAGGAGGC TTGGTAGAAA AACACTACCT CTTCCTGAAG 
AGACTTTGTC AGGTGTTATG TGCACTGGGA AATCTGCTAT GTGCACTGCT GGCCTTAGAT 
GCTAACATAC AAACACCTAT AAACTTTGGA ATGTACCTGG AATCTTTTCT TGCTTTCACA 
ACCCACCCAA GTCAGTTTTT ACGCTCTTCA ACCCATATGA CGTGGGGAGC CCTCTTCAGG 
CATGAAGTTC TGTCCCGTGA TCCGGCGCTG TTAGCAGTAA TACCAAAATA TCTTCGTGCT 
TCTATGACAA ACTTGGTCAA GATGGGCTTT CCTTCTAAAA CAGATAGCCC CAGCTGTGAA 
TATTCCCGAT TTGATTTCGA TAGTGATGAG GACTTCAATG CTTTCTTCAA CTCCTCCAGA 
GCCCAGCATG GAGAGGTGGT GAGGTGTGTA TGTCGACTGG ATCCTAAGAC TAGCTTCCAG 
ATGGCGGCAG AATGGCTCAA GTATCAGCTG TCAGCTTCTA TTGACACTGG AGCTGTGAAC 
TCATGTTCTG CAGCTGGAAC TGGAGAGGGA GGCCTCTGCT CCATCTTCTC ACCTTCATAT 
GTGCAGTGGG AAGCTATGAC TTTTTTTTTG GAAAGTGTGA TCAACCAGAT GTTTCGAACA 
CTAGACAAAG AAGAGCTCCC GGTTAGTGAT GGGATAGAGC TGCTGCAGCT GGTTTTGAAC 
TTTGAGATCA AGGATCCCCT CGTCCTCTCC TGCGTCCTCA CTAATGTCTC AGCGCTCTTT 
CCATTTGTCA CATACAAGCC TGCGTTCTTG CCCCAGGTCT TCTCTAAGCT CTTTTCATTT 
GTTACTTTTG AATCTGTTGG GGAAAGTAAG GCCCCCAGGA CTCGGGCAGT CAGGAATGTA 
AGGAGACATG CTTGCTCCTC CATCAACAAG ATGTGTCGGG ACTACCCAGA CCTTGTTCTG 
CCCAATTTTG ACATGCTTTA TAGCCACGTG AAGCAACTCC TCTCCAATGA GCTCCTCCTG 
ACCCAGATGG AGAAGTGTGC CCTCATGGAA GCCCTGGTTC TCGTTAGCAA CCAATTCAAG 
GATTATGAGC GGCAGAAGTT ATTCCTAGAG GAGCTGATGG CACCGGTGGT CAACATCTGG 
CTTTCTGAAG AAATGTGCAG AGCGCTGTCA GATATTGACG CCTTTATTGC CTATGTGGGT 
GCTGATCTGA AAAGCTGTGA CCCAGCTGTG GAGGATCCAT GTGGCTTGAA CCGTGCACGA 
ATGAGCTTTT GTGTGTACAG CATCCTGGGG GTTATGAGAC GCACTAGCTG GCCTTCCGAC 
CTAGAAGAAG CCAAAGCTGG GGGCTTTGTG GTGGGCTACA CACCCAGCGG GAATCCCATC 
TTCCGCAACC CCTGCACAGA GCACATCCTC AGACTTCTCG ACAACTTGCT TGCCCTTGTA 
AGAACCCATA ATACTTTATA TACACCGGAA ATGCTAACCA AAATGGCAGA ACCCTTCACC 
AAGGCTCTGG ATATAGTTGA ATCTGAAAAA ACGGCAATAT TAGGATTACC TCAGCCTCTC 
TTGGAATTCA ACGACCACCC TGTCTATAGA ACCACTTTGG AGAGGATGCA GCGGTTCTTC 
GGCATTCTCT ATGAAAACTG TTACCATATC CTGGGGAAGG CGGGCCCTTC CATGCAGCAA 
GACTTCTACA CTGTGGAGGA CCTTGCTTCC CAGCTCCTTG GATCAGCTTT CGTCAACTTG 
AACAATATTC CTGACTTCCG GCTTAGATCT ATGCTTCGTG TCTTCGTGAA GCCCCTCGTG 
CTCTTCTGCC CCCCAGAACA CTATGAAACC CTGATATCTC CCATCCTTGG ACCTCTCTTC 
ACCTACCTCC ACATGAGGCT CTCCCAGAAG TGGCATGTCA TCAACCAGAG GAGCATCCTG 
TGTGGAGAAG ATGAGATTGC AGAGGACAAC CCCGAGTCTC AGGAAATGCT CGAGGAACAG 
CTGGTGAGGA TGCTCACCCG AGAAGCCATG GACCTAATCA TGGCTTGCTG TGTGTCAAAG 
AAGACTGCCG ACCACACTGC CGCTCCCACT GCGGATGGAG ATGATGAAGA GATGATGGCC 
ACTGAAGTAG CCCCCTCGTC TGTGGTGGAG CTCACAGACC TGGGCAAATG CCTCATGAAG 
CACGAGGATG TCTGCACAGC ACTGCTAATC ACAGCATTTA ATTCTCTGAC CTGGAAGGAC 
ACGCTGTCTT GCCAGAGGGC TACCACACAG CTCTGCTGGC CCCTCCTCAA ACAGGTGATG 
TCTGGGACCC TGCTCGCAGA CGCTGTCACT TGGCTTTTCA CCAGCGTGCT GAAAGGACTG 
CAGATGCACG GGCAGCACGA CGGGTGCATG GCTTCCCTGG TCCACTTGGC CTTCCAGATA 
TACGAGGCGC TGCGCCCCAG GTACCTAGAG ATAAGAGCAG TAATGGAGCA GATCCCTGAA 
ATAAACAAGG AGTCTCTGGA CCAATTTGAC TGCAAGCTTT TAAACCCCTC CCTTCAAAAA 
GCAGCTGATA AACGACGGAA GGACCACTTC AAACGTCTAA TCGCTGGCTG CATTGGGAAA 
CCCTTGGGAG AACAGTTCCG AAAAGAAGTT CACATTAAGA ACCTTCCCTG GCTTTTCAAA 
AAACCCAAAC CAATGCTGGA GACAGAAGTG CTGGACAGTG AGGAGGGTGG ACTGGCCACC 
ATCTTTGAAC CCTGA

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

RefSeq	XP_021041603.1
CDS	160..3774
Translation	MEMEQVNALCEELVKAVTVMMDPSSTQRYRLEALKFCEEFKEKCPICVPCGLKLAEKTQIAIVRHFGLQILEHVVKFRWNSMSRLEKVYLKNSVMDLIANGTLRILEEENHIKDVLSRIVVEMIKREWPQHWPDMLMELDTLSRQGETQRELVMFILLRLAEDVVTFQTLPTQRRRDIQQTLTQNMERILNFLLSTLQENVNKYQQMKTDASQEAEAQANCRVSVAALNTLAGYIDWVSLNHITAENCKLVETLCLLLNEQELQLGAAECLLIAVSRKGKLEDRKRLMVLFGDVAMHYILSAAQTADGGGLVEKHYLFLKRLCQVLCALGNLLCALLALDANIQTPINFGMYLESFLAFTTHPSQFLRSSTHMTWGALFRHEVLSRDPALLAVIPKYLRASMTNLVKMGFPSKTDSPSCEYSRFDFDSDEDFNAFFNSSRAQHGEVVRCVCRLDPKTSFQMAAEWLKYQLSASIDTGAVNSCSAAGTGEGGLCSIFSPSYVQWEAMTFFLESVINQMFRTLDKEELPVSDGIELLQLVLNFEIKDPLVLSCVLTNVSALFPFVTYKPAFLPQVFSKLFSFVTFESVGESKAPRTRAVRNVRRHACSSINKMCRDYPDLVLPNFDMLYSHVKQLLSNELLLTQMEKCALMEALVLVSNQFKDYERQKLFLEELMAPVVNIWLSEEMCRALSDIDAFIAYVGADLKSCDPAVEDPCGLNRARMSFCVYSILGVMRRTSWPSDLEEAKAGGFVVGYTPSGNPIFRNPCTEHILRLLDNLLALVRTHNTLYTPEMLTKMAEPFTKALDIVESEKTAILGLPQPLLEFNDHPVYRTTLERMQRFFGILYENCYHILGKAGPSMQQDFYTVEDLASQLLGSAFVNLNNIPDFRLRSMLRVFVKPLVLFCPPEHYETLISPILGPLFTYLHMRLSQKWHVINQRSILCGEDEIAEDNPESQEMLEEQLVRMLTREAMDLIMACCVSKKTADHTAAPTADGDDEEMMATEVAPSSVVELTDLGKCLMKHEDVCTALLITAFNSLTWKDTLSCQRATTQLCWPLLKQVMSGTLLADAVTWLFTSVLKGLQMHGQHDGCMASLVHLAFQIYEALRPRYLEIRAVMEQIPEINKESLDQFDCKLLNPSLQKAADKRRKDHFKRLIAGCIGKPLGEQFRKEVHIKNLPWLFKKPKPMLETEVLDSEEGGLATIFEP

Target ORF information:

RefSeq Version	XM_021185944.2
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli exportin 5 (Xpo5), mRNA.

Target ORF information:

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

XM_021185944.2

ORF Insert Sequence:

ATGGAGATGG AGCAAGTGAA CGCGCTGTGC GAGGAGCTAG TGAAAGCGGT GACGGTCATG 
ATGGACCCCA GCTCTACCCA GCGCTACCGG CTGGAAGCCC TCAAGTTTTG TGAAGAGTTT 
AAAGAAAAAT GCCCTATCTG TGTTCCATGT GGCTTGAAGT TGGCTGAAAA AACACAAATT 
GCCATCGTCA GACATTTTGG CCTTCAGATC CTGGAGCATG TTGTCAAGTT TCGATGGAAC 
AGCATGTCCC GATTGGAGAA GGTCTATCTG AAGAACAGTG TCATGGATCT GATCGCAAAT 
GGAACACTGA GGATTTTGGA GGAGGAGAAC CACATTAAAG ATGTTCTGTC TAGGATTGTG 
GTAGAGATGA TCAAACGGGA GTGGCCACAG CACTGGCCTG ACATGCTCAT GGAGTTGGAT 
ACTCTCTCCA GGCAAGGGGA AACGCAGAGG GAGTTGGTGA TGTTCATCCT TTTACGACTG 
GCCGAGGATG TAGTGACCTT TCAGACGCTC CCCACTCAAA GAAGACGGGA TATTCAGCAA 
ACATTGACGC AGAACATGGA AAGAATCTTG AATTTTCTAC TCAGTACGCT TCAGGAAAAT 
GTAAACAAGT ACCAACAAAT GAAGACAGAT GCGTCTCAGG AGGCAGAGGC TCAAGCCAAC 
TGTCGAGTAA GCGTGGCGGC CCTGAACACT CTAGCAGGCT ACATTGATTG GGTATCTTTG 
AACCATATTA CTGCCGAGAA CTGTAAACTC GTGGAGACTC TGTGCCTGCT TCTCAATGAG 
CAGGAGCTGC AGTTGGGAGC CGCCGAGTGT CTGCTCATTG CAGTCAGCAG AAAAGGCAAG 
CTGGAGGACC GGAAGCGCTT GATGGTTCTG TTTGGAGATG TCGCCATGCA CTATATTCTC 
TCGGCCGCAC AGACTGCAGA TGGAGGAGGC TTGGTAGAAA AACACTACCT CTTCCTGAAG 
AGACTTTGTC AGGTGTTATG TGCACTGGGA AATCTGCTAT GTGCACTGCT GGCCTTAGAT 
GCTAACATAC AAACACCTAT AAACTTTGGA ATGTACCTGG AATCTTTTCT TGCTTTCACA 
ACCCACCCAA GTCAGTTTTT ACGCTCTTCA ACCCATATGA CGTGGGGAGC CCTCTTCAGG 
CATGAAGTTC TGTCCCGTGA TCCGGCGCTG TTAGCAGTAA TACCAAAATA TCTTCGTGCT 
TCTATGACAA ACTTGGTCAA GATGGGCTTT CCTTCTAAAA CAGATAGCCC CAGCTGTGAA 
TATTCCCGAT TTGATTTCGA TAGTGATGAG GACTTCAATG CTTTCTTCAA CTCCTCCAGA 
GCCCAGCATG GAGAGGTGGT GAGGTGTGTA TGTCGACTGG ATCCTAAGAC TAGCTTCCAG 
ATGGCGGCAG AATGGCTCAA GTATCAGCTG TCAGCTTCTA TTGACACTGG AGCTGTGAAC 
TCATGTTCTG CAGCTGGAAC TGGAGAGGGA GGCCTCTGCT CCATCTTCTC ACCTTCATAT 
GTGCAGTGGG AAGCTATGAC TTTTTTTTTG GAAAGTGTGA TCAACCAGAT GTTTCGAACA 
CTAGACAAAG AAGAGCTCCC GGTTAGTGAT GGGATAGAGC TGCTGCAGCT GGTTTTGAAC 
TTTGAGATCA AGGATCCCCT CGTCCTCTCC TGCGTCCTCA CTAATGTCTC AGCGCTCTTT 
CCATTTGTCA CATACAAGCC TGCGTTCTTG CCCCAGGTCT TCTCTAAGCT CTTTTCATTT 
GTTACTTTTG AATCTGTTGG GGAAAGTAAG GCCCCCAGGA CTCGGGCAGT CAGGAATGTA 
AGGAGACATG CTTGCTCCTC CATCAACAAG ATGTGTCGGG ACTACCCAGA CCTTGTTCTG 
CCCAATTTTG ACATGCTTTA TAGCCACGTG AAGCAACTCC TCTCCAATGA GCTCCTCCTG 
ACCCAGATGG AGAAGTGTGC CCTCATGGAA GCCCTGGTTC TCGTTAGCAA CCAATTCAAG 
GATTATGAGC GGCAGAAGTT ATTCCTAGAG GAGCTGATGG CACCGGTGGT CAACATCTGG 
CTTTCTGAAG AAATGTGCAG AGCGCTGTCA GATATTGACG CCTTTATTGC CTATGTGGGT 
GCTGATCTGA AAAGCTGTGA CCCAGCTGTG GAGGATCCAT GTGGCTTGAA CCGTGCACGA 
ATGAGCTTTT GTGTGTACAG CATCCTGGGG GTTATGAGAC GCACTAGCTG GCCTTCCGAC 
CTAGAAGAAG CCAAAGCTGG GGGCTTTGTG GTGGGCTACA CACCCAGCGG GAATCCCATC 
TTCCGCAACC CCTGCACAGA GCACATCCTC AGACTTCTCG ACAACTTGCT TGCCCTTGTA 
AGAACCCATA ATACTTTATA TACACCGGAA ATGCTAACCA AAATGGCAGA ACCCTTCACC 
AAGGCTCTGG ATATAGTTGA ATCTGAAAAA ACGGCAATAT TAGGATTACC TCAGCCTCTC 
TTGGAATTCA ACGACCACCC TGTCTATAGA ACCACTTTGG AGAGGATGCA GCGGTTCTTC 
GGCATTCTCT ATGAAAACTG TTACCATATC CTGGGGAAGG CGGGCCCTTC CATGCAGCAA 
GACTTCTACA CTGTGGAGGA CCTTGCTTCC CAGCTCCTTG GATCAGCTTT CGTCAACTTG 
AACAATATTC CTGACTTCCG GCTTAGATCT ATGCTTCGTG TCTTCGTGAA GCCCCTCGTG 
CTCTTCTGCC CCCCAGAACA CTATGAAACC CTGATATCTC CCATCCTTGG ACCTCTCTTC 
ACCTACCTCC ACATGAGGCT CTCCCAGAAG TGGCATGTCA TCAACCAGAG GAGCATCCTG 
TGTGGAGAAG ATGAGATTGC AGAGGACAAC CCCGAGTCTC AGGAAATGCT CGAGGAACAG 
CTGGTGAGGA TGCTCACCCG AGAAGCCATG GACCTAATCA TGGCTTGCTG TGTGTCAAAG 
AAGACTGCCG ACCACACTGC CGCTCCCACT GCGGATGGAG ATGATGAAGA GATGATGGCC 
ACTGAAGTAG CCCCCTCGTC TGTGGTGGAG CTCACAGACC TGGGCAAATG CCTCATGAAG 
CACGAGGATG TCTGCACAGC ACTGCTAATC ACAGCATTTA ATTCTCTGAC CTGGAAGGAC 
ACGCTGTCTT GCCAGAGGGC TACCACACAG CTCTGCTGGC CCCTCCTCAA ACAGGTGATG 
TCTGGGACCC TGCTCGCAGA CGCTGTCACT TGGCTTTTCA CCAGCGTGCT GAAAGGACTG 
CAGATGCACG GGCAGCACGA CGGGTGCATG GCTTCCCTGG TCCACTTGGC CTTCCAGATA 
TACGAGGCGC TGCGCCCCAG GTACCTAGAG ATAAGAGCAG TAATGGAGCA GATCCCTGAA 
ATAAACAAGG AGTCTCTGGA CCAATTTGAC TGCAAGCTTT TAAACCCCTC CCTTCAAAAA 
GCAGCTGATA AACGACGGAA GGACCACTTC AAACGTCTAA TCGCTGGCTG CATTGGGAAA 
CCCTTGGGAG AACAGTTCCG AAAAGAAGTT CACATTAAGA ACCTTCCCTG GCTTTTCAAA 
AAACCCAAAC CAATGCTGGA GACAGAAGTG CTGGACAGTG AGGAGGGTGG ACTGGCCACC 
ATCTTTGAAC CCTGA