LOC111144193 cDNA ORF clone, Enhydra lutris kenyoni

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC111144193
Entrez Gene ID	111144193
Full Name	integrin subunit alpha 6
Gene Type	protein-coding
Organism	Enhydra lutris kenyoni

mRNA and Protein(s)

mRNA	Protein	Name
XM_022498401.1	XP_022354109.1	integrin alpha-6 isoform X1
XM_022498410.1	XP_022354118.1	integrin alpha-6 isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC111144193 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111144193 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
OEn56560	XM_022498401.1 Latest version!	Enhydra lutris kenyoni integrin subunit alpha 6 (LOC111144193), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OEn56561	XM_022498410.1 Latest version!	Enhydra lutris kenyoni integrin subunit alpha 6 (LOC111144193), 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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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*Business Day

** 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)

LOC111144193 ( XM_022498401.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022354109.1 Enhydra lutris kenyoni integrin subunit alpha 6 (LOC111144193), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OEn56560
Clone ID Related Accession (Same CDS sequence)	XM_022498401.1
Accession Version	XM_022498401.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3276bp) 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	2017-09-19
Organism	Enhydra lutris kenyoni
Product	integrin alpha-6 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154085.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Enhydra lutris kenyoni 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##

ATGGCGGCCA CGGGGCAGCT GTGGCTGCTC TACCTGTCGG CGGGGCTCCT GCCCCGGCTC 
GGCGCCGCCT TCAACTTGGA CACCCGCGAG GACAATGTGA TCCGGAAAAC GGGGGACCCC 
GGGAGCCTCT TCGGCTTCTC GCTGGCCATG CACTGGCAGC TGGAGCCGGA GGACAGGCGG 
CTGCTGCTGG TGGGGGCCCC TCGGGCTGCG GCCCTTCCAC TGCAGAGGGC CAACAGAACA 
GGAGGCTTGT ACAGCTGTGA CATCACCTCC CCGGGACCTT GTACACGGAT TGAATTCGAT 
AACGATGCGG ACCCTTCATC AGAAAGCAAG GAAGATCAGT GGATGGGGGT CACCGTGCAG 
AGCCAAGGTC CAGGGGGCAA AGTTGTGACA TGTGCTCACC GATATGAAAA AAGGCAACAT 
GTCAATACAA AGCAGGAATC CCGAGATATC TTTGGAAGAT GTTATGTCCT GAGTCAGAAT 
CTGAGGATTG AGGATGACAT GGATGGAGGA GACTGGAGTT TTTGCGATGG CCGATTGCGA 
GGCCATGAAA AATTTGGTTC TTGCCAGCAA GGAGTAGCTG CTACTTTTAC TAAAGACTTT 
CATTACATTG TGTTTGGAGC CCCGGGCACT TACAACTGGA AAGGCATCGT TCGCGTAGAG 
CAAAAGAATA ATACTTTTTT TGACATGAAC ATCTTTGAAG ATGGGCCTTA TGAAGTTGGT 
GGAGAGACTG ACCATGATGA AAGTCTAGTT CCTGTTCCCG CGAACAGTTA CTTAGGCTTT 
TCTTTAGACT CAGGAAAAGG TATTGTTTCT AAAGACGAGA TCACTTTCGT TTCTGGTGCT 
CCAAGAGCCA ATCATAGTGG AGCTGTGGTT TTGCTAAAAA GGGACACGAA GTCTGCTCAT 
CTCCTCCCTG AATACATCTT TGACGGGGAA GGTCTGGCTT CTTCATTTGG TTATGACGTG 
GCAGTGGCAG ACCTTAACAA AGATGGGTGG CAAGATATAA TGATCGGAGC CCCACAGTAT 
TTTGATAGAG ATGGAGAAGT TGGAGGTGCC GTGTATGTTT ACATAAACCA GCAAGGCAGG 
TGGAATAAAG TCAAGCCCAT TCGTCTTAAT GGAACCAAAG ATTCTATGTT TGGCATTGCA 
GTAAAAAATA TTGGCGACAT TAATCAAGAC GGCTACCCAG ATATTGCAGT TGGAGCTCCC 
TACGATGATA TGGGAAAGGT TTTTATCTAT CACGGATCCC CGAATGGAAT AAATACCAAG 
CCGACACAGA TTCTTGAGGG TAAATCCCCT TATTTTGGAT ATTCAATTGC TGGAAATATG 
GACCTTGATC GAAATTCCTA CCCTGATGTT GCAGTTGGTT CCCTCTCAGA CTCAGTGGCT 
GTGTTCAGGT CCCGGCCTGT GATTAATATT CAGAAAACGG TCACTGTGAC ACCAAGCACA 
ATTGATCTCC GCCAGAAAAT GTTCTGCGGG GCACCTAGCG GGATATGCCT CAAGGTGAAG 
GCCTGTTTTG AATACACTGC CAAACCCACA GGTTACAATC CTTCGATAAC CATTTTGGGC 
ACGCTCGAGG CTGAAAAGGA GAGAAGGAAA TCTGGGCTGT CATCAAGAGT TCACTTTCGA 
AACCAAGGCT CTGAGGCCAA GTATACGGAA GAGCTCACTT TGACCAGGCA GAAGCAGAAG 
GCGTGCATAG AGGAGACCCT CTGGCTCCAG GAAAATATCC GAGATAAACT GCGTCCCATT 
CCCATAAGTG CTTCGGTAGA GATCCAAGAG CCAAACACGC GGAGGAGAGT GAATTCACTT 
CCGGAAGTTC TTCCCATTCT GAATTCAAAC GAACCCAAGA CGGTTCACAG AGATGTGCAC 
TTCTTAAAAG AGGGATGTGG AGACGACAAT GTATGTAACA GCAACCTTAA ACTAGAATAT 
AAGTTTTGTA CCCGAGAAGG AAATCAAGAC AAATTTTCTT ATTTACCAAT TCAAAAAGGT 
GTACCAGAAC TAGTTCTAAA AGACCAGAAG GACATTGCTT TGGAAATAAC CGTGACCAAC 
AGCCCTTCCG ATCCGAGGGA CCCCGCAAAA GACGGAGACG ACGCTCACGA AGCAAAGCTT 
GTGGCCACTT TCCCTGACAC TCTGACTTAC TCGGCATACC GAGAACTGCG GGCTTTCCCT 
GAGAAGCAGC TGAGTTGTGT TGCCAATCAA AATGGCTCGC AAGCGGACTG TGAGCTTGGA 
AATCCTTTCA AAAGAAATTC CAGTGTGACT TTTTATTTGA TTTTAAGCAC AACCGAGGTC 
ACCTTTGACA CCACGGATCT GGATATTAAT CTGAAGTTGG AAACAACAAG CAATCAAGAT 
AATTTGGCTT CAATTACAGC TACAGCAAAA GTGGTTATTG AACTGCTTTT ATCGGTCTCT 
GGAGTTGCCA AACCTTCCCA GGTGTATTTT GGAGGTACAG TTGTTGGTGA GCAAGCAATG 
AAGTCTGAAG ACGAGGTGGG AAGTTTAATA GAGTATGAGT TCAGGGTAAT TAACTTGGGG 
AAACCTCTTA AAAACCTTGG CACGGCAACT TTGAACATCC AGTGGCCAAA AGAAATTAGC 
AACGGCAAAT GGTTGCTTTA TTTAGTGAAA GTAGAATCCA AAGGATTGGA AAAGATTGCT 
TGTGAGCCAC GAAATGAAAT AAACTTCCTG AACCTAAAGG AGTCTCACAA CTCAAGAAGA 
AAACGGGAAA TTGCTGAAAA ACAGATAGAT GATAGCCGAA AATTTTCGTT ATTTGCTGAA 
AGAAAATATC AAACCCTTAA CTGCAGCACG AACGTGAAGT GCGTGAACAT CAGCTGCCCG 
CTGCGAGGGC TGGACAGCAA GGCTTCTGTT GTTCTGCGCT CAAGGTTATG GAACAGCACG 
TTTCTAGAGG AATATTCCAA AATGAACTAC TTGGACATTC TCGTGCGGGC TTCCATCGAT 
GTGGCCGCCA CTGCTGAGAA CATCAAGCTG CCAAACGCAG GCACTCAGAT TCGTGTGACT 
GTGTTTCCCT CCAAGACCGT CGCTCAGTAT TCAGGAATAC CGTGGTGGAT TATCCTAGTG 
GCTATCCTCG CTGGGATCCT GATGCTGGCT CTCTTAGTGT TTATACTATG GAAGTGCGGA 
TTCTTTAAAC GCTCCAGGTA CGACGATAGC GTTCCCCGAT ACCATGCTGT GAGGATCCGG 
AAGGAAGAGC GGGAGATCAA AGATGAAAAA TACATCGATA ACCTTGAAAA AAAACAGTGG 
ATCACAAGGT GGAATGAAAA TGAAAGCTAC TCCTAA

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

RefSeq	XP_022354109.1
CDS	24..3299
Translation	MAATGQLWLLYLSAGLLPRLGAAFNLDTREDNVIRKTGDPGSLFGFSLAMHWQLEPEDRRLLLVGAPRAAALPLQRANRTGGLYSCDITSPGPCTRIEFDNDADPSSESKEDQWMGVTVQSQGPGGKVVTCAHRYEKRQHVNTKQESRDIFGRCYVLSQNLRIEDDMDGGDWSFCDGRLRGHEKFGSCQQGVAATFTKDFHYIVFGAPGTYNWKGIVRVEQKNNTFFDMNIFEDGPYEVGGETDHDESLVPVPANSYLGFSLDSGKGIVSKDEITFVSGAPRANHSGAVVLLKRDTKSAHLLPEYIFDGEGLASSFGYDVAVADLNKDGWQDIMIGAPQYFDRDGEVGGAVYVYINQQGRWNKVKPIRLNGTKDSMFGIAVKNIGDINQDGYPDIAVGAPYDDMGKVFIYHGSPNGINTKPTQILEGKSPYFGYSIAGNMDLDRNSYPDVAVGSLSDSVAVFRSRPVINIQKTVTVTPSTIDLRQKMFCGAPSGICLKVKACFEYTAKPTGYNPSITILGTLEAEKERRKSGLSSRVHFRNQGSEAKYTEELTLTRQKQKACIEETLWLQENIRDKLRPIPISASVEIQEPNTRRRVNSLPEVLPILNSNEPKTVHRDVHFLKEGCGDDNVCNSNLKLEYKFCTREGNQDKFSYLPIQKGVPELVLKDQKDIALEITVTNSPSDPRDPAKDGDDAHEAKLVATFPDTLTYSAYRELRAFPEKQLSCVANQNGSQADCELGNPFKRNSSVTFYLILSTTEVTFDTTDLDINLKLETTSNQDNLASITATAKVVIELLLSVSGVAKPSQVYFGGTVVGEQAMKSEDEVGSLIEYEFRVINLGKPLKNLGTATLNIQWPKEISNGKWLLYLVKVESKGLEKIACEPRNEINFLNLKESHNSRRKREIAEKQIDDSRKFSLFAERKYQTLNCSTNVKCVNISCPLRGLDSKASVVLRSRLWNSTFLEEYSKMNYLDILVRASIDVAATAENIKLPNAGTQIRVTVFPSKTVAQYSGIPWWIILVAILAGILMLALLVFILWKCGFFKRSRYDDSVPRYHAVRIRKEEREIKDEKYIDNLEKKQWITRWNENESYS

Target ORF information:

RefSeq Version	XM_022498401.1
Organism	Enhydra lutris kenyoni
Definition	Enhydra lutris kenyoni integrin subunit alpha 6 (LOC111144193), transcript variant X1, mRNA.

Target ORF information:

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

XM_022498401.1

ORF Insert Sequence:

ATGGCGGCCA CGGGGCAGCT GTGGCTGCTC TACCTGTCGG CGGGGCTCCT GCCCCGGCTC 
GGCGCCGCCT TCAACTTGGA CACCCGCGAG GACAATGTGA TCCGGAAAAC GGGGGACCCC 
GGGAGCCTCT TCGGCTTCTC GCTGGCCATG CACTGGCAGC TGGAGCCGGA GGACAGGCGG 
CTGCTGCTGG TGGGGGCCCC TCGGGCTGCG GCCCTTCCAC TGCAGAGGGC CAACAGAACA 
GGAGGCTTGT ACAGCTGTGA CATCACCTCC CCGGGACCTT GTACACGGAT TGAATTCGAT 
AACGATGCGG ACCCTTCATC AGAAAGCAAG GAAGATCAGT GGATGGGGGT CACCGTGCAG 
AGCCAAGGTC CAGGGGGCAA AGTTGTGACA TGTGCTCACC GATATGAAAA AAGGCAACAT 
GTCAATACAA AGCAGGAATC CCGAGATATC TTTGGAAGAT GTTATGTCCT GAGTCAGAAT 
CTGAGGATTG AGGATGACAT GGATGGAGGA GACTGGAGTT TTTGCGATGG CCGATTGCGA 
GGCCATGAAA AATTTGGTTC TTGCCAGCAA GGAGTAGCTG CTACTTTTAC TAAAGACTTT 
CATTACATTG TGTTTGGAGC CCCGGGCACT TACAACTGGA AAGGCATCGT TCGCGTAGAG 
CAAAAGAATA ATACTTTTTT TGACATGAAC ATCTTTGAAG ATGGGCCTTA TGAAGTTGGT 
GGAGAGACTG ACCATGATGA AAGTCTAGTT CCTGTTCCCG CGAACAGTTA CTTAGGCTTT 
TCTTTAGACT CAGGAAAAGG TATTGTTTCT AAAGACGAGA TCACTTTCGT TTCTGGTGCT 
CCAAGAGCCA ATCATAGTGG AGCTGTGGTT TTGCTAAAAA GGGACACGAA GTCTGCTCAT 
CTCCTCCCTG AATACATCTT TGACGGGGAA GGTCTGGCTT CTTCATTTGG TTATGACGTG 
GCAGTGGCAG ACCTTAACAA AGATGGGTGG CAAGATATAA TGATCGGAGC CCCACAGTAT 
TTTGATAGAG ATGGAGAAGT TGGAGGTGCC GTGTATGTTT ACATAAACCA GCAAGGCAGG 
TGGAATAAAG TCAAGCCCAT TCGTCTTAAT GGAACCAAAG ATTCTATGTT TGGCATTGCA 
GTAAAAAATA TTGGCGACAT TAATCAAGAC GGCTACCCAG ATATTGCAGT TGGAGCTCCC 
TACGATGATA TGGGAAAGGT TTTTATCTAT CACGGATCCC CGAATGGAAT AAATACCAAG 
CCGACACAGA TTCTTGAGGG TAAATCCCCT TATTTTGGAT ATTCAATTGC TGGAAATATG 
GACCTTGATC GAAATTCCTA CCCTGATGTT GCAGTTGGTT CCCTCTCAGA CTCAGTGGCT 
GTGTTCAGGT CCCGGCCTGT GATTAATATT CAGAAAACGG TCACTGTGAC ACCAAGCACA 
ATTGATCTCC GCCAGAAAAT GTTCTGCGGG GCACCTAGCG GGATATGCCT CAAGGTGAAG 
GCCTGTTTTG AATACACTGC CAAACCCACA GGTTACAATC CTTCGATAAC CATTTTGGGC 
ACGCTCGAGG CTGAAAAGGA GAGAAGGAAA TCTGGGCTGT CATCAAGAGT TCACTTTCGA 
AACCAAGGCT CTGAGGCCAA GTATACGGAA GAGCTCACTT TGACCAGGCA GAAGCAGAAG 
GCGTGCATAG AGGAGACCCT CTGGCTCCAG GAAAATATCC GAGATAAACT GCGTCCCATT 
CCCATAAGTG CTTCGGTAGA GATCCAAGAG CCAAACACGC GGAGGAGAGT GAATTCACTT 
CCGGAAGTTC TTCCCATTCT GAATTCAAAC GAACCCAAGA CGGTTCACAG AGATGTGCAC 
TTCTTAAAAG AGGGATGTGG AGACGACAAT GTATGTAACA GCAACCTTAA ACTAGAATAT 
AAGTTTTGTA CCCGAGAAGG AAATCAAGAC AAATTTTCTT ATTTACCAAT TCAAAAAGGT 
GTACCAGAAC TAGTTCTAAA AGACCAGAAG GACATTGCTT TGGAAATAAC CGTGACCAAC 
AGCCCTTCCG ATCCGAGGGA CCCCGCAAAA GACGGAGACG ACGCTCACGA AGCAAAGCTT 
GTGGCCACTT TCCCTGACAC TCTGACTTAC TCGGCATACC GAGAACTGCG GGCTTTCCCT 
GAGAAGCAGC TGAGTTGTGT TGCCAATCAA AATGGCTCGC AAGCGGACTG TGAGCTTGGA 
AATCCTTTCA AAAGAAATTC CAGTGTGACT TTTTATTTGA TTTTAAGCAC AACCGAGGTC 
ACCTTTGACA CCACGGATCT GGATATTAAT CTGAAGTTGG AAACAACAAG CAATCAAGAT 
AATTTGGCTT CAATTACAGC TACAGCAAAA GTGGTTATTG AACTGCTTTT ATCGGTCTCT 
GGAGTTGCCA AACCTTCCCA GGTGTATTTT GGAGGTACAG TTGTTGGTGA GCAAGCAATG 
AAGTCTGAAG ACGAGGTGGG AAGTTTAATA GAGTATGAGT TCAGGGTAAT TAACTTGGGG 
AAACCTCTTA AAAACCTTGG CACGGCAACT TTGAACATCC AGTGGCCAAA AGAAATTAGC 
AACGGCAAAT GGTTGCTTTA TTTAGTGAAA GTAGAATCCA AAGGATTGGA AAAGATTGCT 
TGTGAGCCAC GAAATGAAAT AAACTTCCTG AACCTAAAGG AGTCTCACAA CTCAAGAAGA 
AAACGGGAAA TTGCTGAAAA ACAGATAGAT GATAGCCGAA AATTTTCGTT ATTTGCTGAA 
AGAAAATATC AAACCCTTAA CTGCAGCACG AACGTGAAGT GCGTGAACAT CAGCTGCCCG 
CTGCGAGGGC TGGACAGCAA GGCTTCTGTT GTTCTGCGCT CAAGGTTATG GAACAGCACG 
TTTCTAGAGG AATATTCCAA AATGAACTAC TTGGACATTC TCGTGCGGGC TTCCATCGAT 
GTGGCCGCCA CTGCTGAGAA CATCAAGCTG CCAAACGCAG GCACTCAGAT TCGTGTGACT 
GTGTTTCCCT CCAAGACCGT CGCTCAGTAT TCAGGAATAC CGTGGTGGAT TATCCTAGTG 
GCTATCCTCG CTGGGATCCT GATGCTGGCT CTCTTAGTGT TTATACTATG GAAGTGCGGA 
TTCTTTAAAC GCTCCAGGTA CGACGATAGC GTTCCCCGAT ACCATGCTGT GAGGATCCGG 
AAGGAAGAGC GGGAGATCAA AGATGAAAAA TACATCGATA ACCTTGAAAA AAAACAGTGG 
ATCACAAGGT GGAATGAAAA TGAAAGCTAC TCCTAA

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

LOC111144193 ( XM_022498410.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022354118.1 Enhydra lutris kenyoni integrin subunit alpha 6 (LOC111144193), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OEn56561
Clone ID Related Accession (Same CDS sequence)	XM_022498410.1
Accession Version	XM_022498410.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3222bp) 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	2017-09-19
Organism	Enhydra lutris kenyoni
Product	integrin alpha-6 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154085.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Enhydra lutris kenyoni 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##

ATGGCGGCCA CGGGGCAGCT GTGGCTGCTC TACCTGTCGG CGGGGCTCCT GCCCCGGCTC 
GGCGCCGCCT TCAACTTGGA CACCCGCGAG GACAATGTGA TCCGGAAAAC GGGGGACCCC 
GGGAGCCTCT TCGGCTTCTC GCTGGCCATG CACTGGCAGC TGGAGCCGGA GGACAGGCGG 
CTGCTGCTGG TGGGGGCCCC TCGGGCTGCG GCCCTTCCAC TGCAGAGGGC CAACAGAACA 
GGAGGCTTGT ACAGCTGTGA CATCACCTCC CCGGGACCTT GTACACGGAT TGAATTCGAT 
AACGATGCGG ACCCTTCATC AGAAAGCAAG GAAGATCAGT GGATGGGGGT CACCGTGCAG 
AGCCAAGGTC CAGGGGGCAA AGTTGTGACA TGTGCTCACC GATATGAAAA AAGGCAACAT 
GTCAATACAA AGCAGGAATC CCGAGATATC TTTGGAAGAT GTTATGTCCT GAGTCAGAAT 
CTGAGGATTG AGGATGACAT GGATGGAGGA GACTGGAGTT TTTGCGATGG CCGATTGCGA 
GGCCATGAAA AATTTGGTTC TTGCCAGCAA GGAGTAGCTG CTACTTTTAC TAAAGACTTT 
CATTACATTG TGTTTGGAGC CCCGGGCACT TACAACTGGA AAGGCATCGT TCGCGTAGAG 
CAAAAGAATA ATACTTTTTT TGACATGAAC ATCTTTGAAG ATGGGCCTTA TGAAGTTGGT 
GGAGAGACTG ACCATGATGA AAGTCTAGTT CCTGTTCCCG CGAACAGTTA CTTAGGCTTT 
TCTTTAGACT CAGGAAAAGG TATTGTTTCT AAAGACGAGA TCACTTTCGT TTCTGGTGCT 
CCAAGAGCCA ATCATAGTGG AGCTGTGGTT TTGCTAAAAA GGGACACGAA GTCTGCTCAT 
CTCCTCCCTG AATACATCTT TGACGGGGAA GGTCTGGCTT CTTCATTTGG TTATGACGTG 
GCAGTGGCAG ACCTTAACAA AGATGGGTGG CAAGATATAA TGATCGGAGC CCCACAGTAT 
TTTGATAGAG ATGGAGAAGT TGGAGGTGCC GTGTATGTTT ACATAAACCA GCAAGGCAGG 
TGGAATAAAG TCAAGCCCAT TCGTCTTAAT GGAACCAAAG ATTCTATGTT TGGCATTGCA 
GTAAAAAATA TTGGCGACAT TAATCAAGAC GGCTACCCAG ATATTGCAGT TGGAGCTCCC 
TACGATGATA TGGGAAAGGT TTTTATCTAT CACGGATCCC CGAATGGAAT AAATACCAAG 
CCGACACAGA TTCTTGAGGG TAAATCCCCT TATTTTGGAT ATTCAATTGC TGGAAATATG 
GACCTTGATC GAAATTCCTA CCCTGATGTT GCAGTTGGTT CCCTCTCAGA CTCAGTGGCT 
GTGTTCAGGT CCCGGCCTGT GATTAATATT CAGAAAACGG TCACTGTGAC ACCAAGCACA 
ATTGATCTCC GCCAGAAAAT GTTCTGCGGG GCACCTAGCG GGATATGCCT CAAGGTGAAG 
GCCTGTTTTG AATACACTGC CAAACCCACA GGTTACAATC CTTCGATAAC CATTTTGGGC 
ACGCTCGAGG CTGAAAAGGA GAGAAGGAAA TCTGGGCTGT CATCAAGAGT TCACTTTCGA 
AACCAAGGCT CTGAGGCCAA GTATACGGAA GAGCTCACTT TGACCAGGCA GAAGCAGAAG 
GCGTGCATAG AGGAGACCCT CTGGCTCCAG GAAAATATCC GAGATAAACT GCGTCCCATT 
CCCATAAGTG CTTCGGTAGA GATCCAAGAG CCAAACACGC GGAGGAGAGT GAATTCACTT 
CCGGAAGTTC TTCCCATTCT GAATTCAAAC GAACCCAAGA CGGTTCACAG AGATGTGCAC 
TTCTTAAAAG AGGGATGTGG AGACGACAAT GTATGTAACA GCAACCTTAA ACTAGAATAT 
AAGTTTTGTA CCCGAGAAGG AAATCAAGAC AAATTTTCTT ATTTACCAAT TCAAAAAGGT 
GTACCAGAAC TAGTTCTAAA AGACCAGAAG GACATTGCTT TGGAAATAAC CGTGACCAAC 
AGCCCTTCCG ATCCGAGGGA CCCCGCAAAA GACGGAGACG ACGCTCACGA AGCAAAGCTT 
GTGGCCACTT TCCCTGACAC TCTGACTTAC TCGGCATACC GAGAACTGCG GGCTTTCCCT 
GAGAAGCAGC TGAGTTGTGT TGCCAATCAA AATGGCTCGC AAGCGGACTG TGAGCTTGGA 
AATCCTTTCA AAAGAAATTC CAGTGTGACT TTTTATTTGA TTTTAAGCAC AACCGAGGTC 
ACCTTTGACA CCACGGATCT GGATATTAAT CTGAAGTTGG AAACAACAAG CAATCAAGAT 
AATTTGGCTT CAATTACAGC TACAGCAAAA GTGGTTATTG AACTGCTTTT ATCGGTCTCT 
GGAGTTGCCA AACCTTCCCA GGTGTATTTT GGAGGTACAG TTGTTGGTGA GCAAGCAATG 
AAGTCTGAAG ACGAGGTGGG AAGTTTAATA GAGTATGAGT TCAGGGTAAT TAACTTGGGG 
AAACCTCTTA AAAACCTTGG CACGGCAACT TTGAACATCC AGTGGCCAAA AGAAATTAGC 
AACGGCAAAT GGTTGCTTTA TTTAGTGAAA GTAGAATCCA AAGGATTGGA AAAGATTGCT 
TGTGAGCCAC GAAATGAAAT AAACTTCCTG AACCTAAAGG AGTCTCACAA CTCAAGAAGA 
AAACGGGAAA TTGCTGAAAA ACAGATAGAT GATAGCCGAA AATTTTCGTT ATTTGCTGAA 
AGAAAATATC AAACCCTTAA CTGCAGCACG AACGTGAAGT GCGTGAACAT CAGCTGCCCG 
CTGCGAGGGC TGGACAGCAA GGCTTCTGTT GTTCTGCGCT CAAGGTTATG GAACAGCACG 
TTTCTAGAGG AATATTCCAA AATGAACTAC TTGGACATTC TCGTGCGGGC TTCCATCGAT 
GTGGCCGCCA CTGCTGAGAA CATCAAGCTG CCAAACGCAG GCACTCAGAT TCGTGTGACT 
GTGTTTCCCT CCAAGACCGT CGCTCAGTAT TCAGGAATAC CGTGGTGGAT TATCCTAGTG 
GCTATCCTCG CTGGGATCCT GATGCTGGCT CTCTTAGTGT TTATACTATG GAAGTGTGGT 
TTCTTCAAGA GAAATAAGAA AGATCATTAT GATGCCACCT ATCACAAGGC TGAGATCCAT 
GCTCAGCCGT CTGATAAAGA GAGGCTTACT TCTGATGCAT AG

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

RefSeq	XP_022354118.1
CDS	24..3245
Translation	MAATGQLWLLYLSAGLLPRLGAAFNLDTREDNVIRKTGDPGSLFGFSLAMHWQLEPEDRRLLLVGAPRAAALPLQRANRTGGLYSCDITSPGPCTRIEFDNDADPSSESKEDQWMGVTVQSQGPGGKVVTCAHRYEKRQHVNTKQESRDIFGRCYVLSQNLRIEDDMDGGDWSFCDGRLRGHEKFGSCQQGVAATFTKDFHYIVFGAPGTYNWKGIVRVEQKNNTFFDMNIFEDGPYEVGGETDHDESLVPVPANSYLGFSLDSGKGIVSKDEITFVSGAPRANHSGAVVLLKRDTKSAHLLPEYIFDGEGLASSFGYDVAVADLNKDGWQDIMIGAPQYFDRDGEVGGAVYVYINQQGRWNKVKPIRLNGTKDSMFGIAVKNIGDINQDGYPDIAVGAPYDDMGKVFIYHGSPNGINTKPTQILEGKSPYFGYSIAGNMDLDRNSYPDVAVGSLSDSVAVFRSRPVINIQKTVTVTPSTIDLRQKMFCGAPSGICLKVKACFEYTAKPTGYNPSITILGTLEAEKERRKSGLSSRVHFRNQGSEAKYTEELTLTRQKQKACIEETLWLQENIRDKLRPIPISASVEIQEPNTRRRVNSLPEVLPILNSNEPKTVHRDVHFLKEGCGDDNVCNSNLKLEYKFCTREGNQDKFSYLPIQKGVPELVLKDQKDIALEITVTNSPSDPRDPAKDGDDAHEAKLVATFPDTLTYSAYRELRAFPEKQLSCVANQNGSQADCELGNPFKRNSSVTFYLILSTTEVTFDTTDLDINLKLETTSNQDNLASITATAKVVIELLLSVSGVAKPSQVYFGGTVVGEQAMKSEDEVGSLIEYEFRVINLGKPLKNLGTATLNIQWPKEISNGKWLLYLVKVESKGLEKIACEPRNEINFLNLKESHNSRRKREIAEKQIDDSRKFSLFAERKYQTLNCSTNVKCVNISCPLRGLDSKASVVLRSRLWNSTFLEEYSKMNYLDILVRASIDVAATAENIKLPNAGTQIRVTVFPSKTVAQYSGIPWWIILVAILAGILMLALLVFILWKCGFFKRNKKDHYDATYHKAEIHAQPSDKERLTSDA

Target ORF information:

RefSeq Version	XM_022498410.1
Organism	Enhydra lutris kenyoni
Definition	Enhydra lutris kenyoni integrin subunit alpha 6 (LOC111144193), transcript variant X2, mRNA.

Target ORF information:

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

XM_022498410.1

ORF Insert Sequence:

ATGGCGGCCA CGGGGCAGCT GTGGCTGCTC TACCTGTCGG CGGGGCTCCT GCCCCGGCTC 
GGCGCCGCCT TCAACTTGGA CACCCGCGAG GACAATGTGA TCCGGAAAAC GGGGGACCCC 
GGGAGCCTCT TCGGCTTCTC GCTGGCCATG CACTGGCAGC TGGAGCCGGA GGACAGGCGG 
CTGCTGCTGG TGGGGGCCCC TCGGGCTGCG GCCCTTCCAC TGCAGAGGGC CAACAGAACA 
GGAGGCTTGT ACAGCTGTGA CATCACCTCC CCGGGACCTT GTACACGGAT TGAATTCGAT 
AACGATGCGG ACCCTTCATC AGAAAGCAAG GAAGATCAGT GGATGGGGGT CACCGTGCAG 
AGCCAAGGTC CAGGGGGCAA AGTTGTGACA TGTGCTCACC GATATGAAAA AAGGCAACAT 
GTCAATACAA AGCAGGAATC CCGAGATATC TTTGGAAGAT GTTATGTCCT GAGTCAGAAT 
CTGAGGATTG AGGATGACAT GGATGGAGGA GACTGGAGTT TTTGCGATGG CCGATTGCGA 
GGCCATGAAA AATTTGGTTC TTGCCAGCAA GGAGTAGCTG CTACTTTTAC TAAAGACTTT 
CATTACATTG TGTTTGGAGC CCCGGGCACT TACAACTGGA AAGGCATCGT TCGCGTAGAG 
CAAAAGAATA ATACTTTTTT TGACATGAAC ATCTTTGAAG ATGGGCCTTA TGAAGTTGGT 
GGAGAGACTG ACCATGATGA AAGTCTAGTT CCTGTTCCCG CGAACAGTTA CTTAGGCTTT 
TCTTTAGACT CAGGAAAAGG TATTGTTTCT AAAGACGAGA TCACTTTCGT TTCTGGTGCT 
CCAAGAGCCA ATCATAGTGG AGCTGTGGTT TTGCTAAAAA GGGACACGAA GTCTGCTCAT 
CTCCTCCCTG AATACATCTT TGACGGGGAA GGTCTGGCTT CTTCATTTGG TTATGACGTG 
GCAGTGGCAG ACCTTAACAA AGATGGGTGG CAAGATATAA TGATCGGAGC CCCACAGTAT 
TTTGATAGAG ATGGAGAAGT TGGAGGTGCC GTGTATGTTT ACATAAACCA GCAAGGCAGG 
TGGAATAAAG TCAAGCCCAT TCGTCTTAAT GGAACCAAAG ATTCTATGTT TGGCATTGCA 
GTAAAAAATA TTGGCGACAT TAATCAAGAC GGCTACCCAG ATATTGCAGT TGGAGCTCCC 
TACGATGATA TGGGAAAGGT TTTTATCTAT CACGGATCCC CGAATGGAAT AAATACCAAG 
CCGACACAGA TTCTTGAGGG TAAATCCCCT TATTTTGGAT ATTCAATTGC TGGAAATATG 
GACCTTGATC GAAATTCCTA CCCTGATGTT GCAGTTGGTT CCCTCTCAGA CTCAGTGGCT 
GTGTTCAGGT CCCGGCCTGT GATTAATATT CAGAAAACGG TCACTGTGAC ACCAAGCACA 
ATTGATCTCC GCCAGAAAAT GTTCTGCGGG GCACCTAGCG GGATATGCCT CAAGGTGAAG 
GCCTGTTTTG AATACACTGC CAAACCCACA GGTTACAATC CTTCGATAAC CATTTTGGGC 
ACGCTCGAGG CTGAAAAGGA GAGAAGGAAA TCTGGGCTGT CATCAAGAGT TCACTTTCGA 
AACCAAGGCT CTGAGGCCAA GTATACGGAA GAGCTCACTT TGACCAGGCA GAAGCAGAAG 
GCGTGCATAG AGGAGACCCT CTGGCTCCAG GAAAATATCC GAGATAAACT GCGTCCCATT 
CCCATAAGTG CTTCGGTAGA GATCCAAGAG CCAAACACGC GGAGGAGAGT GAATTCACTT 
CCGGAAGTTC TTCCCATTCT GAATTCAAAC GAACCCAAGA CGGTTCACAG AGATGTGCAC 
TTCTTAAAAG AGGGATGTGG AGACGACAAT GTATGTAACA GCAACCTTAA ACTAGAATAT 
AAGTTTTGTA CCCGAGAAGG AAATCAAGAC AAATTTTCTT ATTTACCAAT TCAAAAAGGT 
GTACCAGAAC TAGTTCTAAA AGACCAGAAG GACATTGCTT TGGAAATAAC CGTGACCAAC 
AGCCCTTCCG ATCCGAGGGA CCCCGCAAAA GACGGAGACG ACGCTCACGA AGCAAAGCTT 
GTGGCCACTT TCCCTGACAC TCTGACTTAC TCGGCATACC GAGAACTGCG GGCTTTCCCT 
GAGAAGCAGC TGAGTTGTGT TGCCAATCAA AATGGCTCGC AAGCGGACTG TGAGCTTGGA 
AATCCTTTCA AAAGAAATTC CAGTGTGACT TTTTATTTGA TTTTAAGCAC AACCGAGGTC 
ACCTTTGACA CCACGGATCT GGATATTAAT CTGAAGTTGG AAACAACAAG CAATCAAGAT 
AATTTGGCTT CAATTACAGC TACAGCAAAA GTGGTTATTG AACTGCTTTT ATCGGTCTCT 
GGAGTTGCCA AACCTTCCCA GGTGTATTTT GGAGGTACAG TTGTTGGTGA GCAAGCAATG 
AAGTCTGAAG ACGAGGTGGG AAGTTTAATA GAGTATGAGT TCAGGGTAAT TAACTTGGGG 
AAACCTCTTA AAAACCTTGG CACGGCAACT TTGAACATCC AGTGGCCAAA AGAAATTAGC 
AACGGCAAAT GGTTGCTTTA TTTAGTGAAA GTAGAATCCA AAGGATTGGA AAAGATTGCT 
TGTGAGCCAC GAAATGAAAT AAACTTCCTG AACCTAAAGG AGTCTCACAA CTCAAGAAGA 
AAACGGGAAA TTGCTGAAAA ACAGATAGAT GATAGCCGAA AATTTTCGTT ATTTGCTGAA 
AGAAAATATC AAACCCTTAA CTGCAGCACG AACGTGAAGT GCGTGAACAT CAGCTGCCCG 
CTGCGAGGGC TGGACAGCAA GGCTTCTGTT GTTCTGCGCT CAAGGTTATG GAACAGCACG 
TTTCTAGAGG AATATTCCAA AATGAACTAC TTGGACATTC TCGTGCGGGC TTCCATCGAT 
GTGGCCGCCA CTGCTGAGAA CATCAAGCTG CCAAACGCAG GCACTCAGAT TCGTGTGACT 
GTGTTTCCCT CCAAGACCGT CGCTCAGTAT TCAGGAATAC CGTGGTGGAT TATCCTAGTG 
GCTATCCTCG CTGGGATCCT GATGCTGGCT CTCTTAGTGT TTATACTATG GAAGTGTGGT 
TTCTTCAAGA GAAATAAGAA AGATCATTAT GATGCCACCT ATCACAAGGC TGAGATCCAT 
GCTCAGCCGT CTGATAAAGA GAGGCTTACT TCTGATGCAT AG