XPO1 cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	XPO1
Entrez Gene ID	102560721
Full Name	exportin 1
Synonyms	exportin-1
Gene Type	protein-coding
Organism	Alligator mississippiensis(American alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006273751.2	XP_006273813.1	exportin-1 isoform X1
XM_019500725.1	XP_019356270.1	exportin-1 isoform X2

Pathways from BioSystems
Gene Ontology

The following XPO1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the XPO1 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
OAl72541	XM_006273751.2 Latest version!	Alligator mississippiensis exportin 1 (XPO1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl72542	XM_019500725.1 Latest version!	Alligator mississippiensis exportin 1 (XPO1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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5 or more Clone	50% OFF
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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)

XPO1 ( XM_006273751.2 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_006273813.1 Alligator mississippiensis exportin 1 (XPO1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl72541
Clone ID Related Accession (Same CDS sequence)	XM_006273751.2
Accession Version	XM_006273751.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3216bp) 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	exportin-1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017713592.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 10, 2015 this sequence version replaced XM_006273751.1. ##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##

ATGCCAGCAA TTATGACAAT GTTAGCAGAC CATGCAGCTC GCCAGCTGCT GGATTTCAAC 
CAGAAATTGG ATATCAATCT CTTGGACAAC GTGGTGAATT GCTTGTACCA TGGAGAAGGA 
GCACAGCAAA GAATGGCACA AGAAGTCTTG ACTCACTTAA AAGAACACCC TGATGCATGG 
ACAAGAGTTG ATACTATTTT GGAGTTCTCT CAGAATATGA ACACCAAATA TTATGGGCTG 
CAAATCTTGG AAAATGTGAT TAAAACAAGA TGGAAGATTC TTCCAAGGAA CCAGTGTGAA 
GGAATAAAAA AGTATGTTGT TGGCTTAATT ATCAAGACCT CATCTGATCC AACATGTGTA 
GAAAAAGAGA AAGTATATAT TGGAAAACTG AATATGATTC TTGTTCAGAT TCTGAAACAG 
GAATGGCCCA AACACTGGCC AACATTTATA AGTGATATTG TAGGGGCAAG CAGAACAAGT 
GAGAGTCTTT GCCAAAACAA TATGGTGATC CTTAAACTGT TGAGTGAAGA AGTGTTTGAT 
TTCTCTAGTG GACAGATAAC TCAAGTAAAA GCTAAGCATT TGAAGGATAG TATGTGCAAT 
GAGTTCTCAC AGATATTTCA GCTGTGTCAG TTTGTGATGG AAAATTCTCA AAATGCTCCC 
CTTGTTCATG CAACTTTGGA GACTTTATTA CGGTTCCTTA ACTGGATTCC GTTGGGATAC 
ATATTTGAGA CCAAGCTAAT CAGCACATTA ATATACAAGT TTTTAAATGT TCCCATGTTT 
CGAAATGTCT CTTTGAAGTG CCTCACAGAG ATTGCAGGTG TCAGTGTAAG CCAATATGAG 
GAACAGTTCG TAACTCTCTT TACACTGACC ATGATGCAGT TAAAACAGAT GCTTCCTTTA 
AATACAAATA TCCGGCTTGC ATACTCCAAT GGAAAAGATG ACGAACAGAA CTTCATTCAG 
AATCTCAGTT TATTTCTCTG CACATTTCTT AAGGAACATG GTCAACTTAT AGAAAAGAGA 
TTAAATCTGA GGGAAACCTT AATGGAGGCT CTTCACTACA TGTTGCTTGT GTCAGAAGTT 
GAAGAAACTG AAATTTTCAA AATCTGTCTT GAATACTGGA ATCATTTGGC TGCTGAACTT 
TATAGGGAGA GCCCCTTTTC AACGTCTGCT TCTCCATTGC TTTCGGGAAG TCAGCACTTT 
GATGTTCCTC CTAGGAGACA GCTTTATCTG CCTGTGCTGT CCAAGGTCCG GCTGTTGATG 
GTTAGCCGCA TGGCAAAGCC AGAAGAAGTG CTAGTTGTGG AAAATGATCA GGGGGAAGTT 
GTGCGAGAAT TCATGAAGGA CACAGATTCC ATAAACTTGT ACAAGAATAT GAGAGAAACG 
CTGGTTTATC TTACACATCT GGATTATGCT GATACTGAGC GAATAATGAC AGAGAAACTT 
CATAATCAAG TCAATGGAAC AGAATGGTCA TGGAAAAATT TGAATACTCT GTGTTGGGCT 
ATAGGCTCAA TTAGTGGAGC AATGCATGAA GAGGATGAAA AAAGATTTCT TGTTACAGTA 
ATTAAGGACC TTTTGGGACT CTGTGAACAA AAGCGAGGGA AAGATAACAA AGCTATCATT 
GCATCAAATA TCATGTATAT AGTAGGTCAA TATCCACGTT TTTTGAGAGC GCACTGGAAA 
TTTTTGAAGA CGGTAGTTAA CAAGCTGTTT GAGTTCATGC ATGAAACTCA TGATGGCGTC 
CAGGACATGG CTTGTGATAC CTTCATAAAA ATAGCACAGA AATGCCGCCG ACATTTTGTT 
CAGGTCCAAG TGGGAGAAGT CATGCCATTT ATTGACGAAA TACTGAATAA TATTAATACA 
ATCATTTGCG ACCTTCAGCC ACAACAGGTC CATACGTTCT ATGAAGCTGT TGGATACATG 
ATTGGGGCAC AGACTGACCA AACAGTACAA GAGCATCTGA TAGAAAAATA CATGTTGCTC 
CCTAATCAAG TGTGGGACAG TATAATTCAA CAAGCAACAA AAAATGTTGA TATTCTAAAG 
GATCCTGAAA CAGTTAAACA GCTGGGTAGC ATCCTGAAAA CAAATGTAAG AGCATGTAAA 
GCAGTCGGCC ACCCCTTTGT GATTCAGCTT GGAAGAATTT ATTTAGATAT GCTGAATGTA 
TACAAGTGCC TAAGTGAAAA CATTTCTGCA GCTATTCAGG CAAATGGTGA AATGGTTACA 
AAGCAACCTT TGATTAGAAG TATGAGGACA GTAAAAAGGG AAACTTTAAA ATTAATTTCT 
GGTTGGGTGA GCAGGTCCAA TGATCCTCAG ATGGTAGCTG AAAATTTTGT TCCTCCCCTG 
TTGGATGCAG TTCTTATTGA TTACCAGAGA AACGTTCCAG CTGCTAGAGA ACCTGAAGTA 
CTCAGTACAA TGGCTATCAT TGTAAACAAG CTTGGGGGAC ATATTACTGC TGAAATACCT 
CAGATATTTG ATGCTGTTTT TGAATGCACG TTAAATATGA TCAATAAGGA TTTTGAAGAA 
TATCCTGAAC ATAGAACAAA CTTTTTCTTA CTACTCCAAG CAGTAAATTC TCATTGCTTT 
CCAGCATTCC TGGCCATTCC ACCTGCACAG TTCAAACTAG TTTTGGATTC TATTATTTGG 
GCCTTCAAAC ACACAATGAG AAATGTTGCA GATACAGGCC TTCAGATACT GTATACGCTA 
TTACAAAACG TTGCGCAAGA GGAAGCTGCT GCCCAGAGTT TTTATCAGAC TTATTTCTGT 
GATATTCTTC AGCATATTTT CTCTGTTGTC ACAGACACGT CTCACACAGC TGGTTTGACA 
ATGCATGCAT CAATACTTGC ATATATGTTC AATTTAGTAG AAGAAGGAAA AATAAGTACT 
CCCTTAAACC CCGGAAATCC CGTAAACAAC CAAATGTTTA TTCAGGAGTA TGTTGCTAAT 
CTTCTTAAAT CTGCATTTCC TCATCTGCAA GATGCACAGG TTAAGCTATT TGTAACAGGA 
CTCTTCAGTT TAAATCAGGA TATTCCTGCA TTCAAAGAAC ATCTAAGGGA TTTCCTAGTC 
CAAATTAAGG AATTTGCAGG TGAAGACACA TCTGACTTAT TCTTGGAAGA AAGAGAAACA 
GCTCTTCGAC AGGCTCAAGA GGAAAAACAT AAACTTCAGA TGTCTGTCCC TGGCATCCTT 
AATCCACATG AAATTCCTGA GGAAATGTGT GATTAA

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

RefSeq	XP_006273813.1
CDS	33..3248
Translation	MPAIMTMLADHAARQLLDFNQKLDINLLDNVVNCLYHGEGAQQRMAQEVLTHLKEHPDAWTRVDTILEFSQNMNTKYYGLQILENVIKTRWKILPRNQCEGIKKYVVGLIIKTSSDPTCVEKEKVYIGKLNMILVQILKQEWPKHWPTFISDIVGASRTSESLCQNNMVILKLLSEEVFDFSSGQITQVKAKHLKDSMCNEFSQIFQLCQFVMENSQNAPLVHATLETLLRFLNWIPLGYIFETKLISTLIYKFLNVPMFRNVSLKCLTEIAGVSVSQYEEQFVTLFTLTMMQLKQMLPLNTNIRLAYSNGKDDEQNFIQNLSLFLCTFLKEHGQLIEKRLNLRETLMEALHYMLLVSEVEETEIFKICLEYWNHLAAELYRESPFSTSASPLLSGSQHFDVPPRRQLYLPVLSKVRLLMVSRMAKPEEVLVVENDQGEVVREFMKDTDSINLYKNMRETLVYLTHLDYADTERIMTEKLHNQVNGTEWSWKNLNTLCWAIGSISGAMHEEDEKRFLVTVIKDLLGLCEQKRGKDNKAIIASNIMYIVGQYPRFLRAHWKFLKTVVNKLFEFMHETHDGVQDMACDTFIKIAQKCRRHFVQVQVGEVMPFIDEILNNINTIICDLQPQQVHTFYEAVGYMIGAQTDQTVQEHLIEKYMLLPNQVWDSIIQQATKNVDILKDPETVKQLGSILKTNVRACKAVGHPFVIQLGRIYLDMLNVYKCLSENISAAIQANGEMVTKQPLIRSMRTVKRETLKLISGWVSRSNDPQMVAENFVPPLLDAVLIDYQRNVPAAREPEVLSTMAIIVNKLGGHITAEIPQIFDAVFECTLNMINKDFEEYPEHRTNFFLLLQAVNSHCFPAFLAIPPAQFKLVLDSIIWAFKHTMRNVADTGLQILYTLLQNVAQEEAAAQSFYQTYFCDILQHIFSVVTDTSHTAGLTMHASILAYMFNLVEEGKISTPLNPGNPVNNQMFIQEYVANLLKSAFPHLQDAQVKLFVTGLFSLNQDIPAFKEHLRDFLVQIKEFAGEDTSDLFLEERETALRQAQEEKHKLQMSVPGILNPHEIPEEMCD

Target ORF information:

RefSeq Version	XM_006273751.2
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis exportin 1 (XPO1), transcript variant X1, mRNA.

Target ORF information:

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

XM_006273751.2

ORF Insert Sequence:

ATGCCAGCAA TTATGACAAT GTTAGCAGAC CATGCAGCTC GCCAGCTGCT GGATTTCAAC 
CAGAAATTGG ATATCAATCT CTTGGACAAC GTGGTGAATT GCTTGTACCA TGGAGAAGGA 
GCACAGCAAA GAATGGCACA AGAAGTCTTG ACTCACTTAA AAGAACACCC TGATGCATGG 
ACAAGAGTTG ATACTATTTT GGAGTTCTCT CAGAATATGA ACACCAAATA TTATGGGCTG 
CAAATCTTGG AAAATGTGAT TAAAACAAGA TGGAAGATTC TTCCAAGGAA CCAGTGTGAA 
GGAATAAAAA AGTATGTTGT TGGCTTAATT ATCAAGACCT CATCTGATCC AACATGTGTA 
GAAAAAGAGA AAGTATATAT TGGAAAACTG AATATGATTC TTGTTCAGAT TCTGAAACAG 
GAATGGCCCA AACACTGGCC AACATTTATA AGTGATATTG TAGGGGCAAG CAGAACAAGT 
GAGAGTCTTT GCCAAAACAA TATGGTGATC CTTAAACTGT TGAGTGAAGA AGTGTTTGAT 
TTCTCTAGTG GACAGATAAC TCAAGTAAAA GCTAAGCATT TGAAGGATAG TATGTGCAAT 
GAGTTCTCAC AGATATTTCA GCTGTGTCAG TTTGTGATGG AAAATTCTCA AAATGCTCCC 
CTTGTTCATG CAACTTTGGA GACTTTATTA CGGTTCCTTA ACTGGATTCC GTTGGGATAC 
ATATTTGAGA CCAAGCTAAT CAGCACATTA ATATACAAGT TTTTAAATGT TCCCATGTTT 
CGAAATGTCT CTTTGAAGTG CCTCACAGAG ATTGCAGGTG TCAGTGTAAG CCAATATGAG 
GAACAGTTCG TAACTCTCTT TACACTGACC ATGATGCAGT TAAAACAGAT GCTTCCTTTA 
AATACAAATA TCCGGCTTGC ATACTCCAAT GGAAAAGATG ACGAACAGAA CTTCATTCAG 
AATCTCAGTT TATTTCTCTG CACATTTCTT AAGGAACATG GTCAACTTAT AGAAAAGAGA 
TTAAATCTGA GGGAAACCTT AATGGAGGCT CTTCACTACA TGTTGCTTGT GTCAGAAGTT 
GAAGAAACTG AAATTTTCAA AATCTGTCTT GAATACTGGA ATCATTTGGC TGCTGAACTT 
TATAGGGAGA GCCCCTTTTC AACGTCTGCT TCTCCATTGC TTTCGGGAAG TCAGCACTTT 
GATGTTCCTC CTAGGAGACA GCTTTATCTG CCTGTGCTGT CCAAGGTCCG GCTGTTGATG 
GTTAGCCGCA TGGCAAAGCC AGAAGAAGTG CTAGTTGTGG AAAATGATCA GGGGGAAGTT 
GTGCGAGAAT TCATGAAGGA CACAGATTCC ATAAACTTGT ACAAGAATAT GAGAGAAACG 
CTGGTTTATC TTACACATCT GGATTATGCT GATACTGAGC GAATAATGAC AGAGAAACTT 
CATAATCAAG TCAATGGAAC AGAATGGTCA TGGAAAAATT TGAATACTCT GTGTTGGGCT 
ATAGGCTCAA TTAGTGGAGC AATGCATGAA GAGGATGAAA AAAGATTTCT TGTTACAGTA 
ATTAAGGACC TTTTGGGACT CTGTGAACAA AAGCGAGGGA AAGATAACAA AGCTATCATT 
GCATCAAATA TCATGTATAT AGTAGGTCAA TATCCACGTT TTTTGAGAGC GCACTGGAAA 
TTTTTGAAGA CGGTAGTTAA CAAGCTGTTT GAGTTCATGC ATGAAACTCA TGATGGCGTC 
CAGGACATGG CTTGTGATAC CTTCATAAAA ATAGCACAGA AATGCCGCCG ACATTTTGTT 
CAGGTCCAAG TGGGAGAAGT CATGCCATTT ATTGACGAAA TACTGAATAA TATTAATACA 
ATCATTTGCG ACCTTCAGCC ACAACAGGTC CATACGTTCT ATGAAGCTGT TGGATACATG 
ATTGGGGCAC AGACTGACCA AACAGTACAA GAGCATCTGA TAGAAAAATA CATGTTGCTC 
CCTAATCAAG TGTGGGACAG TATAATTCAA CAAGCAACAA AAAATGTTGA TATTCTAAAG 
GATCCTGAAA CAGTTAAACA GCTGGGTAGC ATCCTGAAAA CAAATGTAAG AGCATGTAAA 
GCAGTCGGCC ACCCCTTTGT GATTCAGCTT GGAAGAATTT ATTTAGATAT GCTGAATGTA 
TACAAGTGCC TAAGTGAAAA CATTTCTGCA GCTATTCAGG CAAATGGTGA AATGGTTACA 
AAGCAACCTT TGATTAGAAG TATGAGGACA GTAAAAAGGG AAACTTTAAA ATTAATTTCT 
GGTTGGGTGA GCAGGTCCAA TGATCCTCAG ATGGTAGCTG AAAATTTTGT TCCTCCCCTG 
TTGGATGCAG TTCTTATTGA TTACCAGAGA AACGTTCCAG CTGCTAGAGA ACCTGAAGTA 
CTCAGTACAA TGGCTATCAT TGTAAACAAG CTTGGGGGAC ATATTACTGC TGAAATACCT 
CAGATATTTG ATGCTGTTTT TGAATGCACG TTAAATATGA TCAATAAGGA TTTTGAAGAA 
TATCCTGAAC ATAGAACAAA CTTTTTCTTA CTACTCCAAG CAGTAAATTC TCATTGCTTT 
CCAGCATTCC TGGCCATTCC ACCTGCACAG TTCAAACTAG TTTTGGATTC TATTATTTGG 
GCCTTCAAAC ACACAATGAG AAATGTTGCA GATACAGGCC TTCAGATACT GTATACGCTA 
TTACAAAACG TTGCGCAAGA GGAAGCTGCT GCCCAGAGTT TTTATCAGAC TTATTTCTGT 
GATATTCTTC AGCATATTTT CTCTGTTGTC ACAGACACGT CTCACACAGC TGGTTTGACA 
ATGCATGCAT CAATACTTGC ATATATGTTC AATTTAGTAG AAGAAGGAAA AATAAGTACT 
CCCTTAAACC CCGGAAATCC CGTAAACAAC CAAATGTTTA TTCAGGAGTA TGTTGCTAAT 
CTTCTTAAAT CTGCATTTCC TCATCTGCAA GATGCACAGG TTAAGCTATT TGTAACAGGA 
CTCTTCAGTT TAAATCAGGA TATTCCTGCA TTCAAAGAAC ATCTAAGGGA TTTCCTAGTC 
CAAATTAAGG AATTTGCAGG TGAAGACACA TCTGACTTAT TCTTGGAAGA AAGAGAAACA 
GCTCTTCGAC AGGCTCAAGA GGAAAAACAT AAACTTCAGA TGTCTGTCCC TGGCATCCTT 
AATCCACATG AAATTCCTGA GGAAATGTGT GATTAA

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

XPO1 ( XM_019500725.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019356270.1 Alligator mississippiensis exportin 1 (XPO1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl72542
Clone ID Related Accession (Same CDS sequence)	XM_019500725.1
Accession Version	XM_019500725.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3018bp) 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	exportin-1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017713592.1) 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##

ATGATTAGAG GAACAGAAAG AAAGCAACAG TATTATGGGC TGCAAATCTT GGAAAATGTG 
ATTAAAACAA GATGGAAGAT TCTTCCAAGG AACCAGTGTG AAGGAATAAA AAAGTATGTT 
GTTGGCTTAA TTATCAAGAC CTCATCTGAT CCAACATGTG TAGAAAAAGA GAAAGTATAT 
ATTGGAAAAC TGAATATGAT TCTTGTTCAG ATTCTGAAAC AGGAATGGCC CAAACACTGG 
CCAACATTTA TAAGTGATAT TGTAGGGGCA AGCAGAACAA GTGAGAGTCT TTGCCAAAAC 
AATATGGTGA TCCTTAAACT GTTGAGTGAA GAAGTGTTTG ATTTCTCTAG TGGACAGATA 
ACTCAAGTAA AAGCTAAGCA TTTGAAGGAT AGTATGTGCA ATGAGTTCTC ACAGATATTT 
CAGCTGTGTC AGTTTGTGAT GGAAAATTCT CAAAATGCTC CCCTTGTTCA TGCAACTTTG 
GAGACTTTAT TACGGTTCCT TAACTGGATT CCGTTGGGAT ACATATTTGA GACCAAGCTA 
ATCAGCACAT TAATATACAA GTTTTTAAAT GTTCCCATGT TTCGAAATGT CTCTTTGAAG 
TGCCTCACAG AGATTGCAGG TGTCAGTGTA AGCCAATATG AGGAACAGTT CGTAACTCTC 
TTTACACTGA CCATGATGCA GTTAAAACAG ATGCTTCCTT TAAATACAAA TATCCGGCTT 
GCATACTCCA ATGGAAAAGA TGACGAACAG AACTTCATTC AGAATCTCAG TTTATTTCTC 
TGCACATTTC TTAAGGAACA TGGTCAACTT ATAGAAAAGA GATTAAATCT GAGGGAAACC 
TTAATGGAGG CTCTTCACTA CATGTTGCTT GTGTCAGAAG TTGAAGAAAC TGAAATTTTC 
AAAATCTGTC TTGAATACTG GAATCATTTG GCTGCTGAAC TTTATAGGGA GAGCCCCTTT 
TCAACGTCTG CTTCTCCATT GCTTTCGGGA AGTCAGCACT TTGATGTTCC TCCTAGGAGA 
CAGCTTTATC TGCCTGTGCT GTCCAAGGTC CGGCTGTTGA TGGTTAGCCG CATGGCAAAG 
CCAGAAGAAG TGCTAGTTGT GGAAAATGAT CAGGGGGAAG TTGTGCGAGA ATTCATGAAG 
GACACAGATT CCATAAACTT GTACAAGAAT ATGAGAGAAA CGCTGGTTTA TCTTACACAT 
CTGGATTATG CTGATACTGA GCGAATAATG ACAGAGAAAC TTCATAATCA AGTCAATGGA 
ACAGAATGGT CATGGAAAAA TTTGAATACT CTGTGTTGGG CTATAGGCTC AATTAGTGGA 
GCAATGCATG AAGAGGATGA AAAAAGATTT CTTGTTACAG TAATTAAGGA CCTTTTGGGA 
CTCTGTGAAC AAAAGCGAGG GAAAGATAAC AAAGCTATCA TTGCATCAAA TATCATGTAT 
ATAGTAGGTC AATATCCACG TTTTTTGAGA GCGCACTGGA AATTTTTGAA GACGGTAGTT 
AACAAGCTGT TTGAGTTCAT GCATGAAACT CATGATGGCG TCCAGGACAT GGCTTGTGAT 
ACCTTCATAA AAATAGCACA GAAATGCCGC CGACATTTTG TTCAGGTCCA AGTGGGAGAA 
GTCATGCCAT TTATTGACGA AATACTGAAT AATATTAATA CAATCATTTG CGACCTTCAG 
CCACAACAGG TCCATACGTT CTATGAAGCT GTTGGATACA TGATTGGGGC ACAGACTGAC 
CAAACAGTAC AAGAGCATCT GATAGAAAAA TACATGTTGC TCCCTAATCA AGTGTGGGAC 
AGTATAATTC AACAAGCAAC AAAAAATGTT GATATTCTAA AGGATCCTGA AACAGTTAAA 
CAGCTGGGTA GCATCCTGAA AACAAATGTA AGAGCATGTA AAGCAGTCGG CCACCCCTTT 
GTGATTCAGC TTGGAAGAAT TTATTTAGAT ATGCTGAATG TATACAAGTG CCTAAGTGAA 
AACATTTCTG CAGCTATTCA GGCAAATGGT GAAATGGTTA CAAAGCAACC TTTGATTAGA 
AGTATGAGGA CAGTAAAAAG GGAAACTTTA AAATTAATTT CTGGTTGGGT GAGCAGGTCC 
AATGATCCTC AGATGGTAGC TGAAAATTTT GTTCCTCCCC TGTTGGATGC AGTTCTTATT 
GATTACCAGA GAAACGTTCC AGCTGCTAGA GAACCTGAAG TACTCAGTAC AATGGCTATC 
ATTGTAAACA AGCTTGGGGG ACATATTACT GCTGAAATAC CTCAGATATT TGATGCTGTT 
TTTGAATGCA CGTTAAATAT GATCAATAAG GATTTTGAAG AATATCCTGA ACATAGAACA 
AACTTTTTCT TACTACTCCA AGCAGTAAAT TCTCATTGCT TTCCAGCATT CCTGGCCATT 
CCACCTGCAC AGTTCAAACT AGTTTTGGAT TCTATTATTT GGGCCTTCAA ACACACAATG 
AGAAATGTTG CAGATACAGG CCTTCAGATA CTGTATACGC TATTACAAAA CGTTGCGCAA 
GAGGAAGCTG CTGCCCAGAG TTTTTATCAG ACTTATTTCT GTGATATTCT TCAGCATATT 
TTCTCTGTTG TCACAGACAC GTCTCACACA GCTGGTTTGA CAATGCATGC ATCAATACTT 
GCATATATGT TCAATTTAGT AGAAGAAGGA AAAATAAGTA CTCCCTTAAA CCCCGGAAAT 
CCCGTAAACA ACCAAATGTT TATTCAGGAG TATGTTGCTA ATCTTCTTAA ATCTGCATTT 
CCTCATCTGC AAGATGCACA GGTTAAGCTA TTTGTAACAG GACTCTTCAG TTTAAATCAG 
GATATTCCTG CATTCAAAGA ACATCTAAGG GATTTCCTAG TCCAAATTAA GGAATTTGCA 
GGTGAAGACA CATCTGACTT ATTCTTGGAA GAAAGAGAAA CAGCTCTTCG ACAGGCTCAA 
GAGGAAAAAC ATAAACTTCA GATGTCTGTC CCTGGCATCC TTAATCCACA TGAAATTCCT 
GAGGAAATGT GTGATTAA

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

RefSeq	XP_019356270.1
CDS	991..4008
Translation	MIRGTERKQQYYGLQILENVIKTRWKILPRNQCEGIKKYVVGLIIKTSSDPTCVEKEKVYIGKLNMILVQILKQEWPKHWPTFISDIVGASRTSESLCQNNMVILKLLSEEVFDFSSGQITQVKAKHLKDSMCNEFSQIFQLCQFVMENSQNAPLVHATLETLLRFLNWIPLGYIFETKLISTLIYKFLNVPMFRNVSLKCLTEIAGVSVSQYEEQFVTLFTLTMMQLKQMLPLNTNIRLAYSNGKDDEQNFIQNLSLFLCTFLKEHGQLIEKRLNLRETLMEALHYMLLVSEVEETEIFKICLEYWNHLAAELYRESPFSTSASPLLSGSQHFDVPPRRQLYLPVLSKVRLLMVSRMAKPEEVLVVENDQGEVVREFMKDTDSINLYKNMRETLVYLTHLDYADTERIMTEKLHNQVNGTEWSWKNLNTLCWAIGSISGAMHEEDEKRFLVTVIKDLLGLCEQKRGKDNKAIIASNIMYIVGQYPRFLRAHWKFLKTVVNKLFEFMHETHDGVQDMACDTFIKIAQKCRRHFVQVQVGEVMPFIDEILNNINTIICDLQPQQVHTFYEAVGYMIGAQTDQTVQEHLIEKYMLLPNQVWDSIIQQATKNVDILKDPETVKQLGSILKTNVRACKAVGHPFVIQLGRIYLDMLNVYKCLSENISAAIQANGEMVTKQPLIRSMRTVKRETLKLISGWVSRSNDPQMVAENFVPPLLDAVLIDYQRNVPAAREPEVLSTMAIIVNKLGGHITAEIPQIFDAVFECTLNMINKDFEEYPEHRTNFFLLLQAVNSHCFPAFLAIPPAQFKLVLDSIIWAFKHTMRNVADTGLQILYTLLQNVAQEEAAAQSFYQTYFCDILQHIFSVVTDTSHTAGLTMHASILAYMFNLVEEGKISTPLNPGNPVNNQMFIQEYVANLLKSAFPHLQDAQVKLFVTGLFSLNQDIPAFKEHLRDFLVQIKEFAGEDTSDLFLEERETALRQAQEEKHKLQMSVPGILNPHEIPEEMCD

Target ORF information:

RefSeq Version	XM_019500725.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis exportin 1 (XPO1), transcript variant X2, mRNA.

Target ORF information:

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

XM_019500725.1

ORF Insert Sequence:

ATGATTAGAG GAACAGAAAG AAAGCAACAG TATTATGGGC TGCAAATCTT GGAAAATGTG 
ATTAAAACAA GATGGAAGAT TCTTCCAAGG AACCAGTGTG AAGGAATAAA AAAGTATGTT 
GTTGGCTTAA TTATCAAGAC CTCATCTGAT CCAACATGTG TAGAAAAAGA GAAAGTATAT 
ATTGGAAAAC TGAATATGAT TCTTGTTCAG ATTCTGAAAC AGGAATGGCC CAAACACTGG 
CCAACATTTA TAAGTGATAT TGTAGGGGCA AGCAGAACAA GTGAGAGTCT TTGCCAAAAC 
AATATGGTGA TCCTTAAACT GTTGAGTGAA GAAGTGTTTG ATTTCTCTAG TGGACAGATA 
ACTCAAGTAA AAGCTAAGCA TTTGAAGGAT AGTATGTGCA ATGAGTTCTC ACAGATATTT 
CAGCTGTGTC AGTTTGTGAT GGAAAATTCT CAAAATGCTC CCCTTGTTCA TGCAACTTTG 
GAGACTTTAT TACGGTTCCT TAACTGGATT CCGTTGGGAT ACATATTTGA GACCAAGCTA 
ATCAGCACAT TAATATACAA GTTTTTAAAT GTTCCCATGT TTCGAAATGT CTCTTTGAAG 
TGCCTCACAG AGATTGCAGG TGTCAGTGTA AGCCAATATG AGGAACAGTT CGTAACTCTC 
TTTACACTGA CCATGATGCA GTTAAAACAG ATGCTTCCTT TAAATACAAA TATCCGGCTT 
GCATACTCCA ATGGAAAAGA TGACGAACAG AACTTCATTC AGAATCTCAG TTTATTTCTC 
TGCACATTTC TTAAGGAACA TGGTCAACTT ATAGAAAAGA GATTAAATCT GAGGGAAACC 
TTAATGGAGG CTCTTCACTA CATGTTGCTT GTGTCAGAAG TTGAAGAAAC TGAAATTTTC 
AAAATCTGTC TTGAATACTG GAATCATTTG GCTGCTGAAC TTTATAGGGA GAGCCCCTTT 
TCAACGTCTG CTTCTCCATT GCTTTCGGGA AGTCAGCACT TTGATGTTCC TCCTAGGAGA 
CAGCTTTATC TGCCTGTGCT GTCCAAGGTC CGGCTGTTGA TGGTTAGCCG CATGGCAAAG 
CCAGAAGAAG TGCTAGTTGT GGAAAATGAT CAGGGGGAAG TTGTGCGAGA ATTCATGAAG 
GACACAGATT CCATAAACTT GTACAAGAAT ATGAGAGAAA CGCTGGTTTA TCTTACACAT 
CTGGATTATG CTGATACTGA GCGAATAATG ACAGAGAAAC TTCATAATCA AGTCAATGGA 
ACAGAATGGT CATGGAAAAA TTTGAATACT CTGTGTTGGG CTATAGGCTC AATTAGTGGA 
GCAATGCATG AAGAGGATGA AAAAAGATTT CTTGTTACAG TAATTAAGGA CCTTTTGGGA 
CTCTGTGAAC AAAAGCGAGG GAAAGATAAC AAAGCTATCA TTGCATCAAA TATCATGTAT 
ATAGTAGGTC AATATCCACG TTTTTTGAGA GCGCACTGGA AATTTTTGAA GACGGTAGTT 
AACAAGCTGT TTGAGTTCAT GCATGAAACT CATGATGGCG TCCAGGACAT GGCTTGTGAT 
ACCTTCATAA AAATAGCACA GAAATGCCGC CGACATTTTG TTCAGGTCCA AGTGGGAGAA 
GTCATGCCAT TTATTGACGA AATACTGAAT AATATTAATA CAATCATTTG CGACCTTCAG 
CCACAACAGG TCCATACGTT CTATGAAGCT GTTGGATACA TGATTGGGGC ACAGACTGAC 
CAAACAGTAC AAGAGCATCT GATAGAAAAA TACATGTTGC TCCCTAATCA AGTGTGGGAC 
AGTATAATTC AACAAGCAAC AAAAAATGTT GATATTCTAA AGGATCCTGA AACAGTTAAA 
CAGCTGGGTA GCATCCTGAA AACAAATGTA AGAGCATGTA AAGCAGTCGG CCACCCCTTT 
GTGATTCAGC TTGGAAGAAT TTATTTAGAT ATGCTGAATG TATACAAGTG CCTAAGTGAA 
AACATTTCTG CAGCTATTCA GGCAAATGGT GAAATGGTTA CAAAGCAACC TTTGATTAGA 
AGTATGAGGA CAGTAAAAAG GGAAACTTTA AAATTAATTT CTGGTTGGGT GAGCAGGTCC 
AATGATCCTC AGATGGTAGC TGAAAATTTT GTTCCTCCCC TGTTGGATGC AGTTCTTATT 
GATTACCAGA GAAACGTTCC AGCTGCTAGA GAACCTGAAG TACTCAGTAC AATGGCTATC 
ATTGTAAACA AGCTTGGGGG ACATATTACT GCTGAAATAC CTCAGATATT TGATGCTGTT 
TTTGAATGCA CGTTAAATAT GATCAATAAG GATTTTGAAG AATATCCTGA ACATAGAACA 
AACTTTTTCT TACTACTCCA AGCAGTAAAT TCTCATTGCT TTCCAGCATT CCTGGCCATT 
CCACCTGCAC AGTTCAAACT AGTTTTGGAT TCTATTATTT GGGCCTTCAA ACACACAATG 
AGAAATGTTG CAGATACAGG CCTTCAGATA CTGTATACGC TATTACAAAA CGTTGCGCAA 
GAGGAAGCTG CTGCCCAGAG TTTTTATCAG ACTTATTTCT GTGATATTCT TCAGCATATT 
TTCTCTGTTG TCACAGACAC GTCTCACACA GCTGGTTTGA CAATGCATGC ATCAATACTT 
GCATATATGT TCAATTTAGT AGAAGAAGGA AAAATAAGTA CTCCCTTAAA CCCCGGAAAT 
CCCGTAAACA ACCAAATGTT TATTCAGGAG TATGTTGCTA ATCTTCTTAA ATCTGCATTT 
CCTCATCTGC AAGATGCACA GGTTAAGCTA TTTGTAACAG GACTCTTCAG TTTAAATCAG 
GATATTCCTG CATTCAAAGA ACATCTAAGG GATTTCCTAG TCCAAATTAA GGAATTTGCA 
GGTGAAGACA CATCTGACTT ATTCTTGGAA GAAAGAGAAA CAGCTCTTCG ACAGGCTCAA 
GAGGAAAAAC ATAAACTTCA GATGTCTGTC CCTGGCATCC TTAATCCACA TGAAATTCCT 
GAGGAAATGT GTGATTAA