IPO8 cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	IPO8
Entrez Gene ID	106736835
Full Name	importin 8
Synonyms	importin-8
Gene Type	protein-coding
Organism	Alligator mississippiensis(American alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019489377.1	XP_019344922.1	importin-8 isoform X2
XM_019489376.1	XP_019344921.1	importin-8 isoform X1

Pathways from BioSystems
Gene Ontology

The following IPO8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the IPO8 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)	Select
OAl58935	XM_019489376.1 Latest version!	Alligator mississippiensis importin 8 (IPO8), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl58936	XM_019489377.1 Latest version!	Alligator mississippiensis importin 8 (IPO8), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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)

IPO8 ( XM_019489376.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019344921.1 Alligator mississippiensis importin 8 (IPO8), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl58935
Clone ID Related Accession (Same CDS sequence)	XM_019489376.1
Accession Version	XM_019489376.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3054bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	importin-8 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017710370.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACCCTA ACAGGATCAT CCAGGCGCTG AAGGGCACCA TCGACCCCAA GCTGCGCATC 
GCGGCCGAGA ATGAGCTCAA TCAGTCCTAC AAGATCATCA ATTTTGCTCC AAGCCTACTG 
CAAATCATAG TTTCGGATCA GGTTGAATTC CCAGTACGTC AGGCAGCTGC CATTTACCTG 
AAGAACATGG TAACGCAGTA CTGGCCAGAT CGGGAGCCAC CACCAGGAGA AGCAGTGTTT 
CCATTCAACA TTCATGAAAA TGATCGCCAG CAAATTCGTG ATAACATTGT GGAAGGAATA 
ATTCGGTCTC CTGACTTAGT GAGGGCCCAG TTGACAATGT GCCTGCGTGC TATCATTAAA 
CATGACTTTC CTGGCCATTG GACAGCAGTG GTAGACAAGA TAGGCTATTA TTTGCAGTCT 
CAGAACAGTG GAAGCTGGCT TGGCAGCCTG CTGTGCCTGT ATCAGCTGGT AAAGACTTAC 
GAGTACAAGA AAGCAGAGGA GCGCGATCCT CTTATAGCAG CAATGCAAAT ATTTTTGCCT 
CGGATCCAGC AGCAGATGAT CCATCTTCTT CCCGATAGCT CCCATTACTC TGTACTGCTT 
CAGAAACAGA TCTTAAAAAT CTTCTATGCA CTTGTTCAGT ATGCATTGCC TCTTCAGCTG 
GTGAATAATC AGACCATGAC TCAGTGGATG GAGATCTTCC GTACCACCAT TGACAGAAAT 
GTGCCTGCTG AGACTTTACA GATTGATGAA GATGATAGGC CAGAGCTGGT ATGGTGGAAA 
TGTAAGAAGT GGGCATTGCA TATTGTAGCT CGCCTTTTTG AACGGTATGG AAGTCCTGGA 
AATGTCACAA AAGAATACTT TGAATTTTCA GAGTTCTTTT TAAAGACCTA TGCTGTGGGA 
ATCCAACAGG TTCTCTTGAA AATCGTAGAC CAGTACAGGC AAAAAGAATA TGTTGCTCCA 
CGTGTCATTC AGCAGATCTT AAACTATCTG AACCAAGGGG TCATTCACTC TGTAACCTGG 
AAACAGATGA AACCACACAT ACAGAGTATA ACAGAAGAAG TGATATTCTC TCTAATGTGT 
TACAAAGATG AAGATGAAGA GCTCTGGCAG GAGGATCCTT ATGAGTACAT TCGCATGAAA 
TTTGATGTGT TTGAGGATTA TGCATCCCCT ACAACAGCAG CACAGAATCT CCTCTATACT 
GCAGCTAAGA AGAGAAAAGA GGTACTACCA AAGATGATGG CATTTTGTTA TCAGATCTTA 
ACGGAGCCAA ACATTGACCC AAGGAAGAAA GACGGAGCTT TGCATGTGAT AGGTTCTCTA 
GCAGATATTT TACTGAAGAA GAGTGTGTTC AAGGATCAAA TGGAACTGAT GCTACAGAAC 
CATGTATTTC CACTGTTCAT GTCTAACCTG GGGTACCTCA GAGCTAGATC CTGTTGGGTT 
CTTCGATCAT TCAGTACTTT GAAATTCCAC AATGAACTAA ACCTGAGAAA TGCAGTAGAG 
CTGGCAAAAA AGAGCCTAAT TGATGATAAG GAAATGCCAG TCAAAGTAGA AGCAGCCATA 
GCTCTTCAGA CTTTAATAAG TAACCAGGAG CAAGCCAAGG AGTATGTAAA GCCATATGTC 
AGACCTGTTA TGCAGGAGCT GTTGCACATA GTTAGAGAGA CAGAAAATGA TGACCTTACT 
AACGTTATCC AGAAGATGAT CTGTGAGTAC AGTCAGGAGG TTGCTACCAT CGCTGTTGAC 
ATGACACAAC ACCTGGCTGA GATATTTGGT AAAGTTCTTC AAAGTGAAGA ATATGAGGAG 
GTGGAGGACA AAACAGTTAT GGCCATGGGA ATTTTACACA CAATTGACAC TATCCTAACA 
GTTGTGGAAG ATCACAAAGA GATAACTCAA CAGCTGGAGA GCATATGCTT ACAGATCATT 
GGCCTCGTTT TGCAGAAACA CGTAATAGAA TTTTATGAAG AAATTCTCTC TCTGGCATAC 
AGCTTGACAT GCCAGATGAT TTCCCTCCAG ATGTGGCAGC TTTTAGGTGT GTTATATGAA 
GTTTTCCAGC AGGATTGTTT TGAGTACTTT GCAGATATGA TGCCTCTCTT ACACAATTAT 
GTGACCATTG ACACTGATAC TTTACTGTCT AATCCAAAAC ATTTAGAAAT CATTTACACT 
ATGTGTAAAA AGGTATTAAC TGGAGATGCA GGAGAAGATG CAGAATGTCA TGCAGCTAAA 
CTTTTAGAAG TAATTGTCCT TCAGTGCAAA GGGAGGGGTA TTGACCAGTG CATCCCACTC 
TTTGTAGAAG CTGTACTAGA GCGGCTAACC CGAGGAGTTA AGACAAGTGA GCTTCGTACC 
ATGTGTCTCC AGGTTGCCAT AGCTGCTCTT TATTACAATC CTGACCTACT TCTGCACACA 
TTAGAGAACA TCAGATTTCC GCACAACCCT GAGCCTATCA CTGCGCAGTT TATAAACCAA 
TGGATGAACG ACACTGATTG TTTTCTTGGA CTCCATGACA GGAAGATGTG TATAATAGGC 
CTAAGCATCC TAATGGAGTT GCAAAATCGG CCCCCTGCAG TAGATGCTGT GGCTGCTCAG 
ATTGTTCCTT CAATCCTTCT CTTATTTCTG GGATTAAAGC AAGTGTGTGC ATCACGCGAG 
GTCACAGTAC CTGAAGAGCA TGCTAAAGAT GAAAAGCACA TTGCAGAAGA CAATGAAGAG 
ATCCCAAGTG ATGAAGAGGA GACCAATGAA GTGGGCCAGG CAATGCAGGA GAATCATGGA 
GGAGGTGGTG GCGGAGGAGG GGATGAAGCC GATGATGAGG ATGACGATGA CGATTGGGAT 
GAAGATGCAT TAGAAGAGAC TGCTCTAGAA GGATTCAGTA CCCCTCTTGA CCTTGAGAAT 
GGTGTAGATG AATATCAGTT TTTTACACAA GCACTATTAA CGGTGCAGAG CCGGGATGCA 
GCCTGGTACC ACTCACTAAC AGCACCACTT AGCGATGATC AGAAGAAACA ACTTCAAGAA 
ATTTACACAC TGGCAGAACA GCGGCGAAAT GCAGCAGTCA ATTTTAGAGA CTAA

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

RefSeq	XP_019344921.1
CDS	36..3089
Translation	MDPNRIIQALKGTIDPKLRIAAENELNQSYKIINFAPSLLQIIVSDQVEFPVRQAAAIYLKNMVTQYWPDREPPPGEAVFPFNIHENDRQQIRDNIVEGIIRSPDLVRAQLTMCLRAIIKHDFPGHWTAVVDKIGYYLQSQNSGSWLGSLLCLYQLVKTYEYKKAEERDPLIAAMQIFLPRIQQQMIHLLPDSSHYSVLLQKQILKIFYALVQYALPLQLVNNQTMTQWMEIFRTTIDRNVPAETLQIDEDDRPELVWWKCKKWALHIVARLFERYGSPGNVTKEYFEFSEFFLKTYAVGIQQVLLKIVDQYRQKEYVAPRVIQQILNYLNQGVIHSVTWKQMKPHIQSITEEVIFSLMCYKDEDEELWQEDPYEYIRMKFDVFEDYASPTTAAQNLLYTAAKKRKEVLPKMMAFCYQILTEPNIDPRKKDGALHVIGSLADILLKKSVFKDQMELMLQNHVFPLFMSNLGYLRARSCWVLRSFSTLKFHNELNLRNAVELAKKSLIDDKEMPVKVEAAIALQTLISNQEQAKEYVKPYVRPVMQELLHIVRETENDDLTNVIQKMICEYSQEVATIAVDMTQHLAEIFGKVLQSEEYEEVEDKTVMAMGILHTIDTILTVVEDHKEITQQLESICLQIIGLVLQKHVIEFYEEILSLAYSLTCQMISLQMWQLLGVLYEVFQQDCFEYFADMMPLLHNYVTIDTDTLLSNPKHLEIIYTMCKKVLTGDAGEDAECHAAKLLEVIVLQCKGRGIDQCIPLFVEAVLERLTRGVKTSELRTMCLQVAIAALYYNPDLLLHTLENIRFPHNPEPITAQFINQWMNDTDCFLGLHDRKMCIIGLSILMELQNRPPAVDAVAAQIVPSILLLFLGLKQVCASREVTVPEEHAKDEKHIAEDNEEIPSDEEETNEVGQAMQENHGGGGGGGGDEADDEDDDDDWDEDALEETALEGFSTPLDLENGVDEYQFFTQALLTVQSRDAAWYHSLTAPLSDDQKKQLQEIYTLAEQRRNAAVNFRD

Target ORF information:

RefSeq Version	XM_019489376.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis importin 8 (IPO8), transcript variant X1, mRNA.

Target ORF information:

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

XM_019489376.1

ORF Insert Sequence:

ATGGACCCTA ACAGGATCAT CCAGGCGCTG AAGGGCACCA TCGACCCCAA GCTGCGCATC 
GCGGCCGAGA ATGAGCTCAA TCAGTCCTAC AAGATCATCA ATTTTGCTCC AAGCCTACTG 
CAAATCATAG TTTCGGATCA GGTTGAATTC CCAGTACGTC AGGCAGCTGC CATTTACCTG 
AAGAACATGG TAACGCAGTA CTGGCCAGAT CGGGAGCCAC CACCAGGAGA AGCAGTGTTT 
CCATTCAACA TTCATGAAAA TGATCGCCAG CAAATTCGTG ATAACATTGT GGAAGGAATA 
ATTCGGTCTC CTGACTTAGT GAGGGCCCAG TTGACAATGT GCCTGCGTGC TATCATTAAA 
CATGACTTTC CTGGCCATTG GACAGCAGTG GTAGACAAGA TAGGCTATTA TTTGCAGTCT 
CAGAACAGTG GAAGCTGGCT TGGCAGCCTG CTGTGCCTGT ATCAGCTGGT AAAGACTTAC 
GAGTACAAGA AAGCAGAGGA GCGCGATCCT CTTATAGCAG CAATGCAAAT ATTTTTGCCT 
CGGATCCAGC AGCAGATGAT CCATCTTCTT CCCGATAGCT CCCATTACTC TGTACTGCTT 
CAGAAACAGA TCTTAAAAAT CTTCTATGCA CTTGTTCAGT ATGCATTGCC TCTTCAGCTG 
GTGAATAATC AGACCATGAC TCAGTGGATG GAGATCTTCC GTACCACCAT TGACAGAAAT 
GTGCCTGCTG AGACTTTACA GATTGATGAA GATGATAGGC CAGAGCTGGT ATGGTGGAAA 
TGTAAGAAGT GGGCATTGCA TATTGTAGCT CGCCTTTTTG AACGGTATGG AAGTCCTGGA 
AATGTCACAA AAGAATACTT TGAATTTTCA GAGTTCTTTT TAAAGACCTA TGCTGTGGGA 
ATCCAACAGG TTCTCTTGAA AATCGTAGAC CAGTACAGGC AAAAAGAATA TGTTGCTCCA 
CGTGTCATTC AGCAGATCTT AAACTATCTG AACCAAGGGG TCATTCACTC TGTAACCTGG 
AAACAGATGA AACCACACAT ACAGAGTATA ACAGAAGAAG TGATATTCTC TCTAATGTGT 
TACAAAGATG AAGATGAAGA GCTCTGGCAG GAGGATCCTT ATGAGTACAT TCGCATGAAA 
TTTGATGTGT TTGAGGATTA TGCATCCCCT ACAACAGCAG CACAGAATCT CCTCTATACT 
GCAGCTAAGA AGAGAAAAGA GGTACTACCA AAGATGATGG CATTTTGTTA TCAGATCTTA 
ACGGAGCCAA ACATTGACCC AAGGAAGAAA GACGGAGCTT TGCATGTGAT AGGTTCTCTA 
GCAGATATTT TACTGAAGAA GAGTGTGTTC AAGGATCAAA TGGAACTGAT GCTACAGAAC 
CATGTATTTC CACTGTTCAT GTCTAACCTG GGGTACCTCA GAGCTAGATC CTGTTGGGTT 
CTTCGATCAT TCAGTACTTT GAAATTCCAC AATGAACTAA ACCTGAGAAA TGCAGTAGAG 
CTGGCAAAAA AGAGCCTAAT TGATGATAAG GAAATGCCAG TCAAAGTAGA AGCAGCCATA 
GCTCTTCAGA CTTTAATAAG TAACCAGGAG CAAGCCAAGG AGTATGTAAA GCCATATGTC 
AGACCTGTTA TGCAGGAGCT GTTGCACATA GTTAGAGAGA CAGAAAATGA TGACCTTACT 
AACGTTATCC AGAAGATGAT CTGTGAGTAC AGTCAGGAGG TTGCTACCAT CGCTGTTGAC 
ATGACACAAC ACCTGGCTGA GATATTTGGT AAAGTTCTTC AAAGTGAAGA ATATGAGGAG 
GTGGAGGACA AAACAGTTAT GGCCATGGGA ATTTTACACA CAATTGACAC TATCCTAACA 
GTTGTGGAAG ATCACAAAGA GATAACTCAA CAGCTGGAGA GCATATGCTT ACAGATCATT 
GGCCTCGTTT TGCAGAAACA CGTAATAGAA TTTTATGAAG AAATTCTCTC TCTGGCATAC 
AGCTTGACAT GCCAGATGAT TTCCCTCCAG ATGTGGCAGC TTTTAGGTGT GTTATATGAA 
GTTTTCCAGC AGGATTGTTT TGAGTACTTT GCAGATATGA TGCCTCTCTT ACACAATTAT 
GTGACCATTG ACACTGATAC TTTACTGTCT AATCCAAAAC ATTTAGAAAT CATTTACACT 
ATGTGTAAAA AGGTATTAAC TGGAGATGCA GGAGAAGATG CAGAATGTCA TGCAGCTAAA 
CTTTTAGAAG TAATTGTCCT TCAGTGCAAA GGGAGGGGTA TTGACCAGTG CATCCCACTC 
TTTGTAGAAG CTGTACTAGA GCGGCTAACC CGAGGAGTTA AGACAAGTGA GCTTCGTACC 
ATGTGTCTCC AGGTTGCCAT AGCTGCTCTT TATTACAATC CTGACCTACT TCTGCACACA 
TTAGAGAACA TCAGATTTCC GCACAACCCT GAGCCTATCA CTGCGCAGTT TATAAACCAA 
TGGATGAACG ACACTGATTG TTTTCTTGGA CTCCATGACA GGAAGATGTG TATAATAGGC 
CTAAGCATCC TAATGGAGTT GCAAAATCGG CCCCCTGCAG TAGATGCTGT GGCTGCTCAG 
ATTGTTCCTT CAATCCTTCT CTTATTTCTG GGATTAAAGC AAGTGTGTGC ATCACGCGAG 
GTCACAGTAC CTGAAGAGCA TGCTAAAGAT GAAAAGCACA TTGCAGAAGA CAATGAAGAG 
ATCCCAAGTG ATGAAGAGGA GACCAATGAA GTGGGCCAGG CAATGCAGGA GAATCATGGA 
GGAGGTGGTG GCGGAGGAGG GGATGAAGCC GATGATGAGG ATGACGATGA CGATTGGGAT 
GAAGATGCAT TAGAAGAGAC TGCTCTAGAA GGATTCAGTA CCCCTCTTGA CCTTGAGAAT 
GGTGTAGATG AATATCAGTT TTTTACACAA GCACTATTAA CGGTGCAGAG CCGGGATGCA 
GCCTGGTACC ACTCACTAAC AGCACCACTT AGCGATGATC AGAAGAAACA ACTTCAAGAA 
ATTTACACAC TGGCAGAACA GCGGCGAAAT GCAGCAGTCA ATTTTAGAGA CTAA

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

IPO8 ( XM_019489377.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019344922.1 Alligator mississippiensis importin 8 (IPO8), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl58936
Clone ID Related Accession (Same CDS sequence)	XM_019489377.1
Accession Version	XM_019489377.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3135bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	importin-8 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017710370.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACCCTA ACAGGATCAT CCAGGCGCTG AAGGGCACCA TCGACCCCAA GCTGCGCATC 
GCGGCCGAGA ATGAGCTCAA TCAGTCCTAC AAGATCATCA ATTTTGCTCC AAGCCTACTG 
CAAATCATAG TTTCGGATCA GGTTGAATTC CCAGTACGTC AGGCAGCTGC CATTTACCTG 
AAGAACATGG TAACGCAGTA CTGGCCAGAT CGGGAGCCAC CACCAGGAGA AGCAGTGTTT 
CCATTCAACA TTCATGAAAA TGATCGCCAG CAAATTCGTG ATAACATTGT GGAAGGAATA 
ATTCGGTCTC CTGACTTAGT GAGGGCCCAG TTGACAATGT GCCTGCGTGC TATCATTAAA 
CATGACTTTC CTGGCCATTG GACAGCAGTG GTAGACAAGA TAGGCTATTA TTTGCAGTCT 
CAGAACAGTG GAAGCTGGCT TGGCAGCCTG CTGTGCCTGT ATCAGCTGGT AAAGACTTAC 
GAGTACAAGA AAGCAGAGGA GCGCGATCCT CTTATAGCAG CAATGCAAAT ATTTTTGCCT 
CGGATCCAGC AGCAGATGAT CCATCTTCTT CCCGATAGCT CCCATTACTC TGTACTGCTT 
CAGAAACAGA TCTTAAAAAT CTTCTATGCA CTTGTTCAGT ATGCATTGCC TCTTCAGCTG 
GTGAATAATC AGACCATGAC TCAGTGGATG GAGATCTTCC GTACCACCAT TGACAGAAAT 
GTGCCTGCTG AGACTTTACA GATTGATGAA GATGATAGGC CAGAGCTGGT ATGGTGGAAA 
TGTAAGAAGT GGGCATTGCA TATTGTAGCT CGCCTTTTTG AACGGTATGG AAGTCCTGGA 
AATGTCACAA AAGAATACTT TGAATTTTCA GAGTTCTTTT TAAAGACCTA TGCTGTGGGA 
ATCCAACAGG TTCTCTTGAA AATCGTAGAC CAGTACAGGC AAAAAGAATA TGTTGCTCCA 
CGTGTCATTC AGCAGATCTT AAACTATCTG AACCAAGGGG TCATTCACTC TGTAACCTGG 
AAACAGATGA AACCACACAT ACAGAGTATA ACAGAAGAAG TGATATTCTC TCTAATGTGT 
TACAAAGATG AAGATGAAGA GCTCTGGCAG GAGGATCCTT ATGAGTACAT TCGCATGAAA 
TTTGATGTGT TTGAGGATTA TGCATCCCCT ACAACAGCAG CACAGAATCT CCTCTATACT 
GCAGCTAAGA AGAGAAAAGA GGTACTACCA AAGATGATGG CATTTTGTTA TCAGATCTTA 
ACGGAGCCAA ACATTGACCC AAGGAAGAAA GACGGAGCTT TGCATGTGAT AGGTTCTCTA 
GCAGATATTT TACTGAAGAA GAGTGTGTTC AAGGATCAAA TGGAACTGAT GCTACAGAAC 
CATGTATTTC CACTGTTCAT GTCTAACCTG GGGTACCTCA GAGCTAGATC CTGTTGGGTT 
CTTCGATCAT TCAGTACTTT GAAATTCCAC AATGAACTAA ACCTGAGAAA TGCAGTAGAG 
CTGGCAAAAA AGAGCCTAAT TGATGATAAG GAAATGCCAG TCAAAGTAGA AGCAGCCATA 
GCTCTTCAGA CTTTAATAAG TAACCAGGAG CAAGCCAAGG AGTATGTAAA GCCATATGTC 
AGACCTGTTA TGCAGGAGCT GTTGCACATA GTTAGAGAGA CAGAAAATGA TGACCTTACT 
AACGTTATCC AGAAGATGAT CTGTGAGTAC AGTCAGGAGG TTGCTACCAT CGCTGTTGAC 
ATGACACAAC ACCTGGCTGA GATATTTGGT AAAGTTCTTC AAAGTGAAGA ATATGAGGAG 
GTGGAGGACA AAACAGTTAT GGCCATGGGA ATTTTACACA CAATTGACAC TATCCTAACA 
GTTGTGGAAG ATCACAAAGA GATAACTCAA CAGCTGGAGA GCATATGCTT ACAGATCATT 
GGCCTCGTTT TGCAGAAACA CGTAATAGAA TTTTATGAAG AAATTCTCTC TCTGGCATAC 
AGCTTGACAT GCCAGATGAT TTCCCTCCAG ATGTGGCAGC TTTTAGGTGT GTTATATGAA 
GTTTTCCAGC AGGATTGTTT TGAGTACTTT GCAGATATGA TGCCTCTCTT ACACAATTAT 
GTGACCATTG ACACTGATAC TTTACTGTCT AATCCAAAAC ATTTAGAAAT CATTTACACT 
ATGTGTAAAA AGGTATTAAC TGGAGATGCA GGAGAAGATG CAGAATGTCA TGCAGCTAAA 
CTTTTAGAAG TAATTGTCCT TCAGTGCAAA GGGAGGGGTA TTGACCAGTG CATCCCACTC 
TTTGTAGAAG CTGTACTAGA GCGGCTAACC CGAGGAGTTA AGACAAGTGA GCTTCGTACC 
ATGTGTCTCC AGGTTGCCAT AGCTGCTCTT TATTACAATC CTGACCTACT TCTGCACACA 
TTAGAGAACA TCAGATTTCC GCACAACCCT GAGCCTATCA CTGCGCAGTT TATAAACCAA 
TGGATGAACG ACACTGATTG TTTTCTTGGA CTCCATGACA GGAAGATGTG TATAATAGGC 
CTAAGCATCC TAATGGAGTT GCAAAATCGG CCCCCTGCAG TAGATGCTGT GGCTGCTCAG 
ATTGTTCCTT CAATCCTTCT CTTATTTCTG GGATTAAAGC AAGTGTGTGC ATCACGCGAG 
GTCACAGTAC CTGAAGAGCA TGCTAAAGAT GAAAAGCACA TTGCAGAAGA CAATGAAGAG 
ATCCCAAGTG ATGAAGAGGA GACCAATGAA GTGGGCCAGG CAATGCAGGA GAATCATGGA 
GGAGGTGGTG GCGGAGGAGG GGATGAAGCC GATGATGAGG ATGACGATGA CGATTGGGAT 
GAAGATGCAT TAGAAGAGAC TGCTCTAGAA GGATTCAGTA CCCCTCTTGA CCTTGAGAAT 
GGTGTAGATG AATATCAGTT TTTTACACAA GCACTATTAA CGGTGCAGAG CCGGGATGCA 
GCCTGGTACC ACTCACTAAC AGCACCACTT AGCGATGATC AGAAGAAACA ACTTCAAGAA 
ATTTACACAC TGGCAGAACA GCGGCGAAAT GCAGCAGAGA CTAAGACTAT AGAACAACAA 
AGTGGCTACA CATTTGACAA CAAAGGACTC ATCCCATCAT TTAACTTTGG TGGAAGTGCT 
CCTGGTGGCA ACTGA

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

RefSeq	XP_019344922.1
CDS	36..3170
Translation	MDPNRIIQALKGTIDPKLRIAAENELNQSYKIINFAPSLLQIIVSDQVEFPVRQAAAIYLKNMVTQYWPDREPPPGEAVFPFNIHENDRQQIRDNIVEGIIRSPDLVRAQLTMCLRAIIKHDFPGHWTAVVDKIGYYLQSQNSGSWLGSLLCLYQLVKTYEYKKAEERDPLIAAMQIFLPRIQQQMIHLLPDSSHYSVLLQKQILKIFYALVQYALPLQLVNNQTMTQWMEIFRTTIDRNVPAETLQIDEDDRPELVWWKCKKWALHIVARLFERYGSPGNVTKEYFEFSEFFLKTYAVGIQQVLLKIVDQYRQKEYVAPRVIQQILNYLNQGVIHSVTWKQMKPHIQSITEEVIFSLMCYKDEDEELWQEDPYEYIRMKFDVFEDYASPTTAAQNLLYTAAKKRKEVLPKMMAFCYQILTEPNIDPRKKDGALHVIGSLADILLKKSVFKDQMELMLQNHVFPLFMSNLGYLRARSCWVLRSFSTLKFHNELNLRNAVELAKKSLIDDKEMPVKVEAAIALQTLISNQEQAKEYVKPYVRPVMQELLHIVRETENDDLTNVIQKMICEYSQEVATIAVDMTQHLAEIFGKVLQSEEYEEVEDKTVMAMGILHTIDTILTVVEDHKEITQQLESICLQIIGLVLQKHVIEFYEEILSLAYSLTCQMISLQMWQLLGVLYEVFQQDCFEYFADMMPLLHNYVTIDTDTLLSNPKHLEIIYTMCKKVLTGDAGEDAECHAAKLLEVIVLQCKGRGIDQCIPLFVEAVLERLTRGVKTSELRTMCLQVAIAALYYNPDLLLHTLENIRFPHNPEPITAQFINQWMNDTDCFLGLHDRKMCIIGLSILMELQNRPPAVDAVAAQIVPSILLLFLGLKQVCASREVTVPEEHAKDEKHIAEDNEEIPSDEEETNEVGQAMQENHGGGGGGGGDEADDEDDDDDWDEDALEETALEGFSTPLDLENGVDEYQFFTQALLTVQSRDAAWYHSLTAPLSDDQKKQLQEIYTLAEQRRNAAETKTIEQQSGYTFDNKGLIPSFNFGGSAPGGN

Target ORF information:

RefSeq Version	XM_019489377.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis importin 8 (IPO8), transcript variant X2, mRNA.

Target ORF information:

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

XM_019489377.1

ORF Insert Sequence:

ATGGACCCTA ACAGGATCAT CCAGGCGCTG AAGGGCACCA TCGACCCCAA GCTGCGCATC 
GCGGCCGAGA ATGAGCTCAA TCAGTCCTAC AAGATCATCA ATTTTGCTCC AAGCCTACTG 
CAAATCATAG TTTCGGATCA GGTTGAATTC CCAGTACGTC AGGCAGCTGC CATTTACCTG 
AAGAACATGG TAACGCAGTA CTGGCCAGAT CGGGAGCCAC CACCAGGAGA AGCAGTGTTT 
CCATTCAACA TTCATGAAAA TGATCGCCAG CAAATTCGTG ATAACATTGT GGAAGGAATA 
ATTCGGTCTC CTGACTTAGT GAGGGCCCAG TTGACAATGT GCCTGCGTGC TATCATTAAA 
CATGACTTTC CTGGCCATTG GACAGCAGTG GTAGACAAGA TAGGCTATTA TTTGCAGTCT 
CAGAACAGTG GAAGCTGGCT TGGCAGCCTG CTGTGCCTGT ATCAGCTGGT AAAGACTTAC 
GAGTACAAGA AAGCAGAGGA GCGCGATCCT CTTATAGCAG CAATGCAAAT ATTTTTGCCT 
CGGATCCAGC AGCAGATGAT CCATCTTCTT CCCGATAGCT CCCATTACTC TGTACTGCTT 
CAGAAACAGA TCTTAAAAAT CTTCTATGCA CTTGTTCAGT ATGCATTGCC TCTTCAGCTG 
GTGAATAATC AGACCATGAC TCAGTGGATG GAGATCTTCC GTACCACCAT TGACAGAAAT 
GTGCCTGCTG AGACTTTACA GATTGATGAA GATGATAGGC CAGAGCTGGT ATGGTGGAAA 
TGTAAGAAGT GGGCATTGCA TATTGTAGCT CGCCTTTTTG AACGGTATGG AAGTCCTGGA 
AATGTCACAA AAGAATACTT TGAATTTTCA GAGTTCTTTT TAAAGACCTA TGCTGTGGGA 
ATCCAACAGG TTCTCTTGAA AATCGTAGAC CAGTACAGGC AAAAAGAATA TGTTGCTCCA 
CGTGTCATTC AGCAGATCTT AAACTATCTG AACCAAGGGG TCATTCACTC TGTAACCTGG 
AAACAGATGA AACCACACAT ACAGAGTATA ACAGAAGAAG TGATATTCTC TCTAATGTGT 
TACAAAGATG AAGATGAAGA GCTCTGGCAG GAGGATCCTT ATGAGTACAT TCGCATGAAA 
TTTGATGTGT TTGAGGATTA TGCATCCCCT ACAACAGCAG CACAGAATCT CCTCTATACT 
GCAGCTAAGA AGAGAAAAGA GGTACTACCA AAGATGATGG CATTTTGTTA TCAGATCTTA 
ACGGAGCCAA ACATTGACCC AAGGAAGAAA GACGGAGCTT TGCATGTGAT AGGTTCTCTA 
GCAGATATTT TACTGAAGAA GAGTGTGTTC AAGGATCAAA TGGAACTGAT GCTACAGAAC 
CATGTATTTC CACTGTTCAT GTCTAACCTG GGGTACCTCA GAGCTAGATC CTGTTGGGTT 
CTTCGATCAT TCAGTACTTT GAAATTCCAC AATGAACTAA ACCTGAGAAA TGCAGTAGAG 
CTGGCAAAAA AGAGCCTAAT TGATGATAAG GAAATGCCAG TCAAAGTAGA AGCAGCCATA 
GCTCTTCAGA CTTTAATAAG TAACCAGGAG CAAGCCAAGG AGTATGTAAA GCCATATGTC 
AGACCTGTTA TGCAGGAGCT GTTGCACATA GTTAGAGAGA CAGAAAATGA TGACCTTACT 
AACGTTATCC AGAAGATGAT CTGTGAGTAC AGTCAGGAGG TTGCTACCAT CGCTGTTGAC 
ATGACACAAC ACCTGGCTGA GATATTTGGT AAAGTTCTTC AAAGTGAAGA ATATGAGGAG 
GTGGAGGACA AAACAGTTAT GGCCATGGGA ATTTTACACA CAATTGACAC TATCCTAACA 
GTTGTGGAAG ATCACAAAGA GATAACTCAA CAGCTGGAGA GCATATGCTT ACAGATCATT 
GGCCTCGTTT TGCAGAAACA CGTAATAGAA TTTTATGAAG AAATTCTCTC TCTGGCATAC 
AGCTTGACAT GCCAGATGAT TTCCCTCCAG ATGTGGCAGC TTTTAGGTGT GTTATATGAA 
GTTTTCCAGC AGGATTGTTT TGAGTACTTT GCAGATATGA TGCCTCTCTT ACACAATTAT 
GTGACCATTG ACACTGATAC TTTACTGTCT AATCCAAAAC ATTTAGAAAT CATTTACACT 
ATGTGTAAAA AGGTATTAAC TGGAGATGCA GGAGAAGATG CAGAATGTCA TGCAGCTAAA 
CTTTTAGAAG TAATTGTCCT TCAGTGCAAA GGGAGGGGTA TTGACCAGTG CATCCCACTC 
TTTGTAGAAG CTGTACTAGA GCGGCTAACC CGAGGAGTTA AGACAAGTGA GCTTCGTACC 
ATGTGTCTCC AGGTTGCCAT AGCTGCTCTT TATTACAATC CTGACCTACT TCTGCACACA 
TTAGAGAACA TCAGATTTCC GCACAACCCT GAGCCTATCA CTGCGCAGTT TATAAACCAA 
TGGATGAACG ACACTGATTG TTTTCTTGGA CTCCATGACA GGAAGATGTG TATAATAGGC 
CTAAGCATCC TAATGGAGTT GCAAAATCGG CCCCCTGCAG TAGATGCTGT GGCTGCTCAG 
ATTGTTCCTT CAATCCTTCT CTTATTTCTG GGATTAAAGC AAGTGTGTGC ATCACGCGAG 
GTCACAGTAC CTGAAGAGCA TGCTAAAGAT GAAAAGCACA TTGCAGAAGA CAATGAAGAG 
ATCCCAAGTG ATGAAGAGGA GACCAATGAA GTGGGCCAGG CAATGCAGGA GAATCATGGA 
GGAGGTGGTG GCGGAGGAGG GGATGAAGCC GATGATGAGG ATGACGATGA CGATTGGGAT 
GAAGATGCAT TAGAAGAGAC TGCTCTAGAA GGATTCAGTA CCCCTCTTGA CCTTGAGAAT 
GGTGTAGATG AATATCAGTT TTTTACACAA GCACTATTAA CGGTGCAGAG CCGGGATGCA 
GCCTGGTACC ACTCACTAAC AGCACCACTT AGCGATGATC AGAAGAAACA ACTTCAAGAA 
ATTTACACAC TGGCAGAACA GCGGCGAAAT GCAGCAGAGA CTAAGACTAT AGAACAACAA 
AGTGGCTACA CATTTGACAA CAAAGGACTC ATCCCATCAT TTAACTTTGG TGGAAGTGCT 
CCTGGTGGCA ACTGA