abl1 cDNA ORF clone, Callorhinchus milii(elephant shark)

Gene
Clones
gRNAs

Summary

Gene Symbol	abl1
Entrez Gene ID	103183028
Full Name	ABL proto-oncogene 1, non-receptor tyrosine kinase
Gene Type	protein-coding
Organism	Callorhinchus milii(elephant shark)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007900250.1	XP_007898441.1	tyrosine-protein kinase ABL1 isoform X1
XM_007900251.1	XP_007898442.1	tyrosine-protein kinase ABL1 isoform X2

Pathways from BioSystems
Gene Ontology

The following abl1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the abl1 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
OCa381044	XM_007900250.1 Latest version!	Callorhinchus milii c-abl oncogene 1, non-receptor tyrosine kinase (abl1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OCa381045	XM_007900251.1 Latest version!	Callorhinchus milii c-abl oncogene 1, non-receptor tyrosine kinase (abl1), 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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** 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)

abl1 ( XM_007900250.1 ) cDNA ORF clone, Callorhinchus milii(elephant shark) -> XP_007898441.1 Callorhinchus milii c-abl oncogene 1, non-receptor tyrosine kinase (abl1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OCa381044
Clone ID Related Accession (Same CDS sequence)	XM_007900250.1
Accession Version	XM_007900250.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3429bp) 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	2014-05-08
Organism	Callorhinchus milii(elephant shark)
Product	tyrosine-protein kinase ABL1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006890130.1) 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 :: Callorhinchus milii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAAATGC TGGAGATTTG CCGTAAACTG GTGGGGTGTA AATCGCGAAA GACCCTCTCT 
GCTTCGTCCA GCTGCTATTT GGAAGAAGCC CTGCACCGTC CAGAGTTTGA AACCCAGGGT 
CTGAATGAGG CTGCCCGGTG GAACTCTAAA GAGAACTTGC TCGCTTGCCC CAGTGAAAAT 
GACCCAAATC TTTTTGTTGC ACTGTACGAT TTTGTCGCCA GTGGGGACAA CACACTCAGC 
ATAACCAAAG GTGAAAAACT TCGGGTTTTG GGCTACAACC ACAATGGAGA ATGGTGCGAG 
GCTCAGACTA AAAATGGGCA GGGCTGGGTT CCTAGCAACT ATATTACACC CGTTAACAGT 
CTCGAGAAAC ATTCCTGGTA CCATGGGCCA GTTTCACGCA ATGCTGCAGA GTACCTACTC 
AGCAGTGGTA TTAATGGGAG TTTTCTGGTG CGGGAGAGTG AAAGTAGCCC CGGACAGAGA 
TCCATATCAC TTCGTTACGA AGGAAGGGTA TACCACTACA GGATAAACAG TGCGTCTGAT 
GGGAAGCTGT ATGTATCCTC AGAAAGTCGA TTCAATACTT TGGCAGAACT TGTGCACCAC 
CACTCAACAG TGGCTGATGG CCTTATCACA ACACTACACT ATCCAGCACC CAAACGCAAC 
AAGCCAACCA TTTACGGTGT CTCCCCAAAC TACGACAAGT GGGAGATAGA AAGAACAGAT 
ATTACAATGA AACACAAGTT GGGTGGCGGA CAGTATGGTG AGGTGTACGA GGGAGTCTGG 
AAGAAATACA ATCTAACTGT GGCAGTGAAG ACACTAAAGG AAGATACTAT GGAAGTGGAA 
GAGTTCTTGA AAGAAGCTGC AGTTATGAAG GAAATTAAAC ATCCCAATCT GGTTCAGCTG 
CTGGGTGTAT GTACTCGAGA GCCTCCGTTT TACATTATCA CTGAGTTTAT GACTCATGGT 
AATCTCCTGG ACTACTTGCG GGATTGCAAC AAGGAAGAGG TGAATGCAGT TGTGCTGCTT 
TATATGGCAA CTCAGATATC ATCGGCGATG GAGTATTTGG AGAAGAAAAA TTTCATTCAC 
AGGGATCTTG CTGCCAGAAA CTGCCTCGTA GGGGAGAACC ACTTGGTTAA AGTGGCTGAT 
TTTGGGCTCA GCAGGTTGAT GACGGGGGAC ACTTACACGG CACACGCTGG AGCTAAATTT 
CCCATTAAAT GGACAGCTCC TGAGAGCCTG GCCTACAATA AATTTTCAAT CAAATCGGAT 
GTGTGGGCGT TTGGTGTTCT TTTGTGGGAG ATTGCGACCT ACGGTATGTC TCCTTACCCC 
GGGATTGACC TCTCACAGGT TTACGACCTG TTGGAAAAAG ACTACAGGAT GGAGAGGCCA 
GAGGGCTGTC CTGAGAAAGT GTACGAGTTG ATGCGAGCGT GTTGGAAGTG GAACCCAGGG 
GACAGGCCAT CGTTTGCAGA TGTACATCGA GCTTTTGACA CGATGTTCCA AGAATCCAGC 
ATATCTGAAG AGGTAGAAAA AGAACTTGGA AAGAAAGGAG GCAAGAGCTC TGCTAGTCAT 
AAGCCTCAGG CGCCAGAACT TCCAACCAAA ACCCGAACTC TTAGGAGAAC AACAGAAAGC 
AAAGAGGCAA ATGAAGTTCA AGAGATGCCC CTTTCAACAT TTAAACTTCC AGGTGAATTT 
GATGGACTGG ATCACGAGAT GGCCATTTCC CCAATGCTTC CACGGAAGGA CAGAGAACCG 
GATAGCAACT GCAACGATGA GGAGCGTTTG CAGTCGTTCA CTAAAGAGAA AGGAAAGACC 
GCTTCCATCT TTAGTTCTTT CATCAAGAAA AAGAAAAAGA CTGCGCCGAC CCCTCCTAAA 
CGCAGCAGCT CCTTTCGGGA TATGGATGGA CATTCGGAGA AAAGAGGGGA AACAGCGGAA 
GACAGCAGTG TAGCTGGTAA AGATGTGAAC AACGGTGCCT TTGTGAACAG TGTGGGGCCT 
CACAATGACG CAATCGATCC GACCAAGTTT CAGCAGTCGT TTAGCACTGG GGCACAAAGC 
GCTAACAACG GAGCAGGGGT CACCAACGGG AGCCCGGCAG GACCGACTGG TTTCTTCTCC 
CCAAATTCGA AGAAGTCCAG TACTCTAGTT CTGGTAAAGC CTATTGGGAA TGATGAGGAG 
TCCACGACAA ATACAAAACA TTTCATGAGG TCTTGTTCTG CATCGTCCAT GCCCCCGGGA 
AATAAAGACT CGGAGAGGAA AGCACTGACT CTCCCTCGGG ATCTGCAATC CGCAGGAAAG 
CAGTCCGAAT CCGTGGCCTT GGGTTGCGAC CGAAACGAGA AGCCAGCCTT GCCCCGAAAG 
AGGACAAACG ATAACAAGGT GGACGTTCTT CCCAGAGGAA ACATGACCAC TCCTCCTCGG 
CTGCCCAAGA AGAACGAGGA GGTAACTGAT GACACGTTCA ACAACTTGGA GTCGAGCCCC 
AGTTCAAGTC CACCGGCATC AACGCTGAAA CTCGTGCGCA GACAGCCGGC AGGTCACACC 
CAGAAAGAAC TCAAAGAAGA GAATGCAAAG TCTTGTGCCT TAGTCCCTCC TTTGCACGAT 
CAGGCCTCCA GCATCACGTC CCCCACGCTG AAACCAAGCT CCACCTACTT GGGTGGAGTT 
AAACTGTCGA ACGATGACTT GCGGATACGA AGGTTCAAGC AGCCTTCTGA TCAGCTCACG 
TCCGTTCCTG TGAAGGACAG GGGAAAGCTA CAGAAGCCCA AGCCCGCGCC CCCTCCTCCG 
CCAGGCGTGA AATCGGTGAA ACCTCCTCGA AGCCCTACCC ACGAGACTGC GGGGGAGACG 
GGAACGGGCG TCAAGCACAA ACAGCCAACT CAGGTCACAG ACACTGTGAG TAGTGATGCC 
TCGAAACCAA GCCAATCAGG GGATGTGATG AAAAGGCCTC TCCTCCATTC TGCACCAAAG 
CCTCAATCCT CTATGAAGCC ATCAGCTACA GTGGTCCCGT TAACCACATC AGCTGCACCT 
TCACCCACAC AACCTGCCTT ACCAAACACA AGCGGAGACC AGCAATCCTT GCCCACAACG 
CCCTTCATTC CACTTATCTC CACCAGAGTT TCCTTGCGCA AGACACGGCA GCAGCCAGAG 
AAGATTACCA GCGCCAACAT TACCAAGGAC ACAGTTTTGG AAAGCACAGA AGCATTGCGA 
GCGGCTATCG GAAAGAATTC TGAGCAAATG GCCAGTCACA GCGCAGTACT GGAGGCTGGT 
AAAAACCTGT ATACGTTCTG TGTGAGCTAC GTGGACTCGA TTCAACAGAT GCGCAACAAG 
TTTGCCTTCA GGGAGGCCAT CAACAAGCTG GAGAACAACC TGCGGGAGCT GCAGATCTGC 
TCAGCCAGTC AGGACTTCAC CAAACTTCTC TCGTCTGTGA AAGAAATCAG TGACATCGTC 
CAGAGGTAG

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

RefSeq	XP_007898441.1
CDS	462..3890
Translation	MKMLEICRKLVGCKSRKTLSASSSCYLEEALHRPEFETQGLNEAARWNSKENLLACPSENDPNLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSNYITPVNSLEKHSWYHGPVSRNAAEYLLSSGINGSFLVRESESSPGQRSISLRYEGRVYHYRINSASDGKLYVSSESRFNTLAELVHHHSTVADGLITTLHYPAPKRNKPTIYGVSPNYDKWEIERTDITMKHKLGGGQYGEVYEGVWKKYNLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTHGNLLDYLRDCNKEEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAHAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYDLLEKDYRMERPEGCPEKVYELMRACWKWNPGDRPSFADVHRAFDTMFQESSISEEVEKELGKKGGKSSASHKPQAPELPTKTRTLRRTTESKEANEVQEMPLSTFKLPGEFDGLDHEMAISPMLPRKDREPDSNCNDEERLQSFTKEKGKTASIFSSFIKKKKKTAPTPPKRSSSFRDMDGHSEKRGETAEDSSVAGKDVNNGAFVNSVGPHNDAIDPTKFQQSFSTGAQSANNGAGVTNGSPAGPTGFFSPNSKKSSTLVLVKPIGNDEESTTNTKHFMRSCSASSMPPGNKDSERKALTLPRDLQSAGKQSESVALGCDRNEKPALPRKRTNDNKVDVLPRGNMTTPPRLPKKNEEVTDDTFNNLESSPSSSPPASTLKLVRRQPAGHTQKELKEENAKSCALVPPLHDQASSITSPTLKPSSTYLGGVKLSNDDLRIRRFKQPSDQLTSVPVKDRGKLQKPKPAPPPPPGVKSVKPPRSPTHETAGETGTGVKHKQPTQVTDTVSSDASKPSQSGDVMKRPLLHSAPKPQSSMKPSATVVPLTTSAAPSPTQPALPNTSGDQQSLPTTPFIPLISTRVSLRKTRQQPEKITSANITKDTVLESTEALRAAIGKNSEQMASHSAVLEAGKNLYTFCVSYVDSIQQMRNKFAFREAINKLENNLRELQICSASQDFTKLLSSVKEISDIVQR

Target ORF information:

RefSeq Version	XM_007900250.1
Organism	Callorhinchus milii(elephant shark)
Definition	Callorhinchus milii c-abl oncogene 1, non-receptor tyrosine kinase (abl1), transcript variant X1, mRNA.

Target ORF information:

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

XM_007900250.1

ORF Insert Sequence:

ATGAAAATGC TGGAGATTTG CCGTAAACTG GTGGGGTGTA AATCGCGAAA GACCCTCTCT 
GCTTCGTCCA GCTGCTATTT GGAAGAAGCC CTGCACCGTC CAGAGTTTGA AACCCAGGGT 
CTGAATGAGG CTGCCCGGTG GAACTCTAAA GAGAACTTGC TCGCTTGCCC CAGTGAAAAT 
GACCCAAATC TTTTTGTTGC ACTGTACGAT TTTGTCGCCA GTGGGGACAA CACACTCAGC 
ATAACCAAAG GTGAAAAACT TCGGGTTTTG GGCTACAACC ACAATGGAGA ATGGTGCGAG 
GCTCAGACTA AAAATGGGCA GGGCTGGGTT CCTAGCAACT ATATTACACC CGTTAACAGT 
CTCGAGAAAC ATTCCTGGTA CCATGGGCCA GTTTCACGCA ATGCTGCAGA GTACCTACTC 
AGCAGTGGTA TTAATGGGAG TTTTCTGGTG CGGGAGAGTG AAAGTAGCCC CGGACAGAGA 
TCCATATCAC TTCGTTACGA AGGAAGGGTA TACCACTACA GGATAAACAG TGCGTCTGAT 
GGGAAGCTGT ATGTATCCTC AGAAAGTCGA TTCAATACTT TGGCAGAACT TGTGCACCAC 
CACTCAACAG TGGCTGATGG CCTTATCACA ACACTACACT ATCCAGCACC CAAACGCAAC 
AAGCCAACCA TTTACGGTGT CTCCCCAAAC TACGACAAGT GGGAGATAGA AAGAACAGAT 
ATTACAATGA AACACAAGTT GGGTGGCGGA CAGTATGGTG AGGTGTACGA GGGAGTCTGG 
AAGAAATACA ATCTAACTGT GGCAGTGAAG ACACTAAAGG AAGATACTAT GGAAGTGGAA 
GAGTTCTTGA AAGAAGCTGC AGTTATGAAG GAAATTAAAC ATCCCAATCT GGTTCAGCTG 
CTGGGTGTAT GTACTCGAGA GCCTCCGTTT TACATTATCA CTGAGTTTAT GACTCATGGT 
AATCTCCTGG ACTACTTGCG GGATTGCAAC AAGGAAGAGG TGAATGCAGT TGTGCTGCTT 
TATATGGCAA CTCAGATATC ATCGGCGATG GAGTATTTGG AGAAGAAAAA TTTCATTCAC 
AGGGATCTTG CTGCCAGAAA CTGCCTCGTA GGGGAGAACC ACTTGGTTAA AGTGGCTGAT 
TTTGGGCTCA GCAGGTTGAT GACGGGGGAC ACTTACACGG CACACGCTGG AGCTAAATTT 
CCCATTAAAT GGACAGCTCC TGAGAGCCTG GCCTACAATA AATTTTCAAT CAAATCGGAT 
GTGTGGGCGT TTGGTGTTCT TTTGTGGGAG ATTGCGACCT ACGGTATGTC TCCTTACCCC 
GGGATTGACC TCTCACAGGT TTACGACCTG TTGGAAAAAG ACTACAGGAT GGAGAGGCCA 
GAGGGCTGTC CTGAGAAAGT GTACGAGTTG ATGCGAGCGT GTTGGAAGTG GAACCCAGGG 
GACAGGCCAT CGTTTGCAGA TGTACATCGA GCTTTTGACA CGATGTTCCA AGAATCCAGC 
ATATCTGAAG AGGTAGAAAA AGAACTTGGA AAGAAAGGAG GCAAGAGCTC TGCTAGTCAT 
AAGCCTCAGG CGCCAGAACT TCCAACCAAA ACCCGAACTC TTAGGAGAAC AACAGAAAGC 
AAAGAGGCAA ATGAAGTTCA AGAGATGCCC CTTTCAACAT TTAAACTTCC AGGTGAATTT 
GATGGACTGG ATCACGAGAT GGCCATTTCC CCAATGCTTC CACGGAAGGA CAGAGAACCG 
GATAGCAACT GCAACGATGA GGAGCGTTTG CAGTCGTTCA CTAAAGAGAA AGGAAAGACC 
GCTTCCATCT TTAGTTCTTT CATCAAGAAA AAGAAAAAGA CTGCGCCGAC CCCTCCTAAA 
CGCAGCAGCT CCTTTCGGGA TATGGATGGA CATTCGGAGA AAAGAGGGGA AACAGCGGAA 
GACAGCAGTG TAGCTGGTAA AGATGTGAAC AACGGTGCCT TTGTGAACAG TGTGGGGCCT 
CACAATGACG CAATCGATCC GACCAAGTTT CAGCAGTCGT TTAGCACTGG GGCACAAAGC 
GCTAACAACG GAGCAGGGGT CACCAACGGG AGCCCGGCAG GACCGACTGG TTTCTTCTCC 
CCAAATTCGA AGAAGTCCAG TACTCTAGTT CTGGTAAAGC CTATTGGGAA TGATGAGGAG 
TCCACGACAA ATACAAAACA TTTCATGAGG TCTTGTTCTG CATCGTCCAT GCCCCCGGGA 
AATAAAGACT CGGAGAGGAA AGCACTGACT CTCCCTCGGG ATCTGCAATC CGCAGGAAAG 
CAGTCCGAAT CCGTGGCCTT GGGTTGCGAC CGAAACGAGA AGCCAGCCTT GCCCCGAAAG 
AGGACAAACG ATAACAAGGT GGACGTTCTT CCCAGAGGAA ACATGACCAC TCCTCCTCGG 
CTGCCCAAGA AGAACGAGGA GGTAACTGAT GACACGTTCA ACAACTTGGA GTCGAGCCCC 
AGTTCAAGTC CACCGGCATC AACGCTGAAA CTCGTGCGCA GACAGCCGGC AGGTCACACC 
CAGAAAGAAC TCAAAGAAGA GAATGCAAAG TCTTGTGCCT TAGTCCCTCC TTTGCACGAT 
CAGGCCTCCA GCATCACGTC CCCCACGCTG AAACCAAGCT CCACCTACTT GGGTGGAGTT 
AAACTGTCGA ACGATGACTT GCGGATACGA AGGTTCAAGC AGCCTTCTGA TCAGCTCACG 
TCCGTTCCTG TGAAGGACAG GGGAAAGCTA CAGAAGCCCA AGCCCGCGCC CCCTCCTCCG 
CCAGGCGTGA AATCGGTGAA ACCTCCTCGA AGCCCTACCC ACGAGACTGC GGGGGAGACG 
GGAACGGGCG TCAAGCACAA ACAGCCAACT CAGGTCACAG ACACTGTGAG TAGTGATGCC 
TCGAAACCAA GCCAATCAGG GGATGTGATG AAAAGGCCTC TCCTCCATTC TGCACCAAAG 
CCTCAATCCT CTATGAAGCC ATCAGCTACA GTGGTCCCGT TAACCACATC AGCTGCACCT 
TCACCCACAC AACCTGCCTT ACCAAACACA AGCGGAGACC AGCAATCCTT GCCCACAACG 
CCCTTCATTC CACTTATCTC CACCAGAGTT TCCTTGCGCA AGACACGGCA GCAGCCAGAG 
AAGATTACCA GCGCCAACAT TACCAAGGAC ACAGTTTTGG AAAGCACAGA AGCATTGCGA 
GCGGCTATCG GAAAGAATTC TGAGCAAATG GCCAGTCACA GCGCAGTACT GGAGGCTGGT 
AAAAACCTGT ATACGTTCTG TGTGAGCTAC GTGGACTCGA TTCAACAGAT GCGCAACAAG 
TTTGCCTTCA GGGAGGCCAT CAACAAGCTG GAGAACAACC TGCGGGAGCT GCAGATCTGC 
TCAGCCAGTC AGGACTTCAC CAAACTTCTC TCGTCTGTGA AAGAAATCAG TGACATCGTC 
CAGAGGTAG

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

abl1 ( XM_007900251.1 ) cDNA ORF clone, Callorhinchus milii(elephant shark) -> XP_007898442.1 Callorhinchus milii c-abl oncogene 1, non-receptor tyrosine kinase (abl1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OCa381045
Clone ID Related Accession (Same CDS sequence)	XM_007900251.1
Accession Version	XM_007900251.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3420bp) 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	2014-05-08
Organism	Callorhinchus milii(elephant shark)
Product	tyrosine-protein kinase ABL1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006890130.1) 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 :: Callorhinchus milii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAAATGC TGGAGATTTG CCGTAAACTG GTGGGGTGTA AATCGCGAAA GACCCTCTCT 
GCTTCGTCCA GCTGCTATTT GGAAGAAGCC CTGCACCGTC CAGAGTTTGA AACCCAGGGT 
CTGAATGAGG CTGCCCGGTG GAACTCTAAA GAGAACTTGC TCGCTTGCCC CAGTGAAAAT 
GACCCAAATC TTTTTGTTGC ACTGTACGAT TTTGTCGCCA GTGGGGACAA CACACTCAGC 
ATAACCAAAG GTGAAAAACT TCGGGTTTTG GGCTACAACC ACAATGGAGA ATGGTGCGAG 
GCTCAGACTA AAAATGGGCA GGGCTGGGTT CCTAGCAACT ATATTACACC CGTTAACAGT 
CTCGAGAAAC ATTCCTGGTA CCATGGGCCA GTTTCACGCA ATGCTGCAGA GTACCTACTC 
AGCAGTGGTA TTAATGGGAG TTTTCTGGTG CGGGAGAGTG AAAGTAGCCC CGGACAGAGA 
TCCATATCAC TTCGTTACGA AGGAAGGGTA TACCACTACA GGATAAACAG TGCGTCTGAT 
GGGAAGCTGT ATGTATCCTC AGAAAGTCGA TTCAATACTT TGGCAGAACT TGTGCACCAC 
CACTCAACAG TGGCTGATGG CCTTATCACA ACACTACACT ATCCAGCACC CAAACGCAAC 
AAGCCAACCA TTTACGGTGT CTCCCCAAAC TACGACAAGT GGGAGATAGA AAGAACAGAT 
ATTACAATGA AACACAAGTT GGGTGGCGGA CAGTATGGTG AGGTGTACGA GGGAGTCTGG 
AAGAAATACA ATCTAACTGT GGCAGTGAAG ACACTAAAGG AAGATACTAT GGAAGTGGAA 
GAGTTCTTGA AAGAAGCTGC AGTTATGAAG GAAATTAAAC ATCCCAATCT GGTTCAGCTG 
CTGGGTGTAT GTACTCGAGA GCCTCCGTTT TACATTATCA CTGAGTTTAT GACTCATGGT 
AATCTCCTGG ACTACTTGCG GGATTGCAAC AAGGAAGAGG TGAATGCAGT TGTGCTGCTT 
TATATGGCAA CTCAGATATC ATCGGCGATG GAGTATTTGG AGAAGAAAAA TTTCATTCAC 
AGGGATCTTG CTGCCAGAAA CTGCCTCGTA GGGGAGAACC ACTTGGTTAA AGTGGCTGAT 
TTTGGGCTCA GCAGGTTGAT GACGGGGGAC ACTTACACGG CACACGCTGG AGCTAAATTT 
CCCATTAAAT GGACAGCTCC TGAGAGCCTG GCCTACAATA AATTTTCAAT CAAATCGGAT 
GTGTGGGCGT TTGGTGTTCT TTTGTGGGAG ATTGCGACCT ACGGTATGTC TCCTTACCCC 
GGGATTGACC TCTCACAGGT TTACGACCTG TTGGAAAAAG ACTACAGGAT GGAGAGGCCA 
GAGGGCTGTC CTGAGAAAGT GTACGAGTTG ATGCGAGCGT GTTGGAAGTG GAACCCAGGG 
GACAGGCCAT CGTTTGCAGA TGTACATCGA GCTTTTGACA CGATGTTCCA AGAATCCAGC 
ATATCTGAAG AGGTAGAAAA AGAACTTGGA AAGAAAGGAG GCAAGAGCTC TGCTAGTCAT 
AAGCCTCAGG CGCCAGAACT TCCAACCAAA ACCCGAACTC TTAGGAGAAC AACAGAAAGC 
AAAGAGGCAA ATGAAGTTCA AGAGATGCCC CTTTCAACAT TTAAACTTCC AGATGGACTG 
GATCACGAGA TGGCCATTTC CCCAATGCTT CCACGGAAGG ACAGAGAACC GGATAGCAAC 
TGCAACGATG AGGAGCGTTT GCAGTCGTTC ACTAAAGAGA AAGGAAAGAC CGCTTCCATC 
TTTAGTTCTT TCATCAAGAA AAAGAAAAAG ACTGCGCCGA CCCCTCCTAA ACGCAGCAGC 
TCCTTTCGGG ATATGGATGG ACATTCGGAG AAAAGAGGGG AAACAGCGGA AGACAGCAGT 
GTAGCTGGTA AAGATGTGAA CAACGGTGCC TTTGTGAACA GTGTGGGGCC TCACAATGAC 
GCAATCGATC CGACCAAGTT TCAGCAGTCG TTTAGCACTG GGGCACAAAG CGCTAACAAC 
GGAGCAGGGG TCACCAACGG GAGCCCGGCA GGACCGACTG GTTTCTTCTC CCCAAATTCG 
AAGAAGTCCA GTACTCTAGT TCTGGTAAAG CCTATTGGGA ATGATGAGGA GTCCACGACA 
AATACAAAAC ATTTCATGAG GTCTTGTTCT GCATCGTCCA TGCCCCCGGG AAATAAAGAC 
TCGGAGAGGA AAGCACTGAC TCTCCCTCGG GATCTGCAAT CCGCAGGAAA GCAGTCCGAA 
TCCGTGGCCT TGGGTTGCGA CCGAAACGAG AAGCCAGCCT TGCCCCGAAA GAGGACAAAC 
GATAACAAGG TGGACGTTCT TCCCAGAGGA AACATGACCA CTCCTCCTCG GCTGCCCAAG 
AAGAACGAGG AGGTAACTGA TGACACGTTC AACAACTTGG AGTCGAGCCC CAGTTCAAGT 
CCACCGGCAT CAACGCTGAA ACTCGTGCGC AGACAGCCGG CAGGTCACAC CCAGAAAGAA 
CTCAAAGAAG AGAATGCAAA GTCTTGTGCC TTAGTCCCTC CTTTGCACGA TCAGGCCTCC 
AGCATCACGT CCCCCACGCT GAAACCAAGC TCCACCTACT TGGGTGGAGT TAAACTGTCG 
AACGATGACT TGCGGATACG AAGGTTCAAG CAGCCTTCTG ATCAGCTCAC GTCCGTTCCT 
GTGAAGGACA GGGGAAAGCT ACAGAAGCCC AAGCCCGCGC CCCCTCCTCC GCCAGGCGTG 
AAATCGGTGA AACCTCCTCG AAGCCCTACC CACGAGACTG CGGGGGAGAC GGGAACGGGC 
GTCAAGCACA AACAGCCAAC TCAGGTCACA GACACTGTGA GTAGTGATGC CTCGAAACCA 
AGCCAATCAG GGGATGTGAT GAAAAGGCCT CTCCTCCATT CTGCACCAAA GCCTCAATCC 
TCTATGAAGC CATCAGCTAC AGTGGTCCCG TTAACCACAT CAGCTGCACC TTCACCCACA 
CAACCTGCCT TACCAAACAC AAGCGGAGAC CAGCAATCCT TGCCCACAAC GCCCTTCATT 
CCACTTATCT CCACCAGAGT TTCCTTGCGC AAGACACGGC AGCAGCCAGA GAAGATTACC 
AGCGCCAACA TTACCAAGGA CACAGTTTTG GAAAGCACAG AAGCATTGCG AGCGGCTATC 
GGAAAGAATT CTGAGCAAAT GGCCAGTCAC AGCGCAGTAC TGGAGGCTGG TAAAAACCTG 
TATACGTTCT GTGTGAGCTA CGTGGACTCG ATTCAACAGA TGCGCAACAA GTTTGCCTTC 
AGGGAGGCCA TCAACAAGCT GGAGAACAAC CTGCGGGAGC TGCAGATCTG CTCAGCCAGT 
CAGGACTTCA CCAAACTTCT CTCGTCTGTG AAAGAAATCA GTGACATCGT CCAGAGGTAG

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

RefSeq	XP_007898442.1
CDS	462..3881
Translation	MKMLEICRKLVGCKSRKTLSASSSCYLEEALHRPEFETQGLNEAARWNSKENLLACPSENDPNLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSNYITPVNSLEKHSWYHGPVSRNAAEYLLSSGINGSFLVRESESSPGQRSISLRYEGRVYHYRINSASDGKLYVSSESRFNTLAELVHHHSTVADGLITTLHYPAPKRNKPTIYGVSPNYDKWEIERTDITMKHKLGGGQYGEVYEGVWKKYNLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTHGNLLDYLRDCNKEEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAHAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYDLLEKDYRMERPEGCPEKVYELMRACWKWNPGDRPSFADVHRAFDTMFQESSISEEVEKELGKKGGKSSASHKPQAPELPTKTRTLRRTTESKEANEVQEMPLSTFKLPDGLDHEMAISPMLPRKDREPDSNCNDEERLQSFTKEKGKTASIFSSFIKKKKKTAPTPPKRSSSFRDMDGHSEKRGETAEDSSVAGKDVNNGAFVNSVGPHNDAIDPTKFQQSFSTGAQSANNGAGVTNGSPAGPTGFFSPNSKKSSTLVLVKPIGNDEESTTNTKHFMRSCSASSMPPGNKDSERKALTLPRDLQSAGKQSESVALGCDRNEKPALPRKRTNDNKVDVLPRGNMTTPPRLPKKNEEVTDDTFNNLESSPSSSPPASTLKLVRRQPAGHTQKELKEENAKSCALVPPLHDQASSITSPTLKPSSTYLGGVKLSNDDLRIRRFKQPSDQLTSVPVKDRGKLQKPKPAPPPPPGVKSVKPPRSPTHETAGETGTGVKHKQPTQVTDTVSSDASKPSQSGDVMKRPLLHSAPKPQSSMKPSATVVPLTTSAAPSPTQPALPNTSGDQQSLPTTPFIPLISTRVSLRKTRQQPEKITSANITKDTVLESTEALRAAIGKNSEQMASHSAVLEAGKNLYTFCVSYVDSIQQMRNKFAFREAINKLENNLRELQICSASQDFTKLLSSVKEISDIVQR

Target ORF information:

RefSeq Version	XM_007900251.1
Organism	Callorhinchus milii(elephant shark)
Definition	Callorhinchus milii c-abl oncogene 1, non-receptor tyrosine kinase (abl1), transcript variant X2, mRNA.

Target ORF information:

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

XM_007900251.1

ORF Insert Sequence:

ATGAAAATGC TGGAGATTTG CCGTAAACTG GTGGGGTGTA AATCGCGAAA GACCCTCTCT 
GCTTCGTCCA GCTGCTATTT GGAAGAAGCC CTGCACCGTC CAGAGTTTGA AACCCAGGGT 
CTGAATGAGG CTGCCCGGTG GAACTCTAAA GAGAACTTGC TCGCTTGCCC CAGTGAAAAT 
GACCCAAATC TTTTTGTTGC ACTGTACGAT TTTGTCGCCA GTGGGGACAA CACACTCAGC 
ATAACCAAAG GTGAAAAACT TCGGGTTTTG GGCTACAACC ACAATGGAGA ATGGTGCGAG 
GCTCAGACTA AAAATGGGCA GGGCTGGGTT CCTAGCAACT ATATTACACC CGTTAACAGT 
CTCGAGAAAC ATTCCTGGTA CCATGGGCCA GTTTCACGCA ATGCTGCAGA GTACCTACTC 
AGCAGTGGTA TTAATGGGAG TTTTCTGGTG CGGGAGAGTG AAAGTAGCCC CGGACAGAGA 
TCCATATCAC TTCGTTACGA AGGAAGGGTA TACCACTACA GGATAAACAG TGCGTCTGAT 
GGGAAGCTGT ATGTATCCTC AGAAAGTCGA TTCAATACTT TGGCAGAACT TGTGCACCAC 
CACTCAACAG TGGCTGATGG CCTTATCACA ACACTACACT ATCCAGCACC CAAACGCAAC 
AAGCCAACCA TTTACGGTGT CTCCCCAAAC TACGACAAGT GGGAGATAGA AAGAACAGAT 
ATTACAATGA AACACAAGTT GGGTGGCGGA CAGTATGGTG AGGTGTACGA GGGAGTCTGG 
AAGAAATACA ATCTAACTGT GGCAGTGAAG ACACTAAAGG AAGATACTAT GGAAGTGGAA 
GAGTTCTTGA AAGAAGCTGC AGTTATGAAG GAAATTAAAC ATCCCAATCT GGTTCAGCTG 
CTGGGTGTAT GTACTCGAGA GCCTCCGTTT TACATTATCA CTGAGTTTAT GACTCATGGT 
AATCTCCTGG ACTACTTGCG GGATTGCAAC AAGGAAGAGG TGAATGCAGT TGTGCTGCTT 
TATATGGCAA CTCAGATATC ATCGGCGATG GAGTATTTGG AGAAGAAAAA TTTCATTCAC 
AGGGATCTTG CTGCCAGAAA CTGCCTCGTA GGGGAGAACC ACTTGGTTAA AGTGGCTGAT 
TTTGGGCTCA GCAGGTTGAT GACGGGGGAC ACTTACACGG CACACGCTGG AGCTAAATTT 
CCCATTAAAT GGACAGCTCC TGAGAGCCTG GCCTACAATA AATTTTCAAT CAAATCGGAT 
GTGTGGGCGT TTGGTGTTCT TTTGTGGGAG ATTGCGACCT ACGGTATGTC TCCTTACCCC 
GGGATTGACC TCTCACAGGT TTACGACCTG TTGGAAAAAG ACTACAGGAT GGAGAGGCCA 
GAGGGCTGTC CTGAGAAAGT GTACGAGTTG ATGCGAGCGT GTTGGAAGTG GAACCCAGGG 
GACAGGCCAT CGTTTGCAGA TGTACATCGA GCTTTTGACA CGATGTTCCA AGAATCCAGC 
ATATCTGAAG AGGTAGAAAA AGAACTTGGA AAGAAAGGAG GCAAGAGCTC TGCTAGTCAT 
AAGCCTCAGG CGCCAGAACT TCCAACCAAA ACCCGAACTC TTAGGAGAAC AACAGAAAGC 
AAAGAGGCAA ATGAAGTTCA AGAGATGCCC CTTTCAACAT TTAAACTTCC AGATGGACTG 
GATCACGAGA TGGCCATTTC CCCAATGCTT CCACGGAAGG ACAGAGAACC GGATAGCAAC 
TGCAACGATG AGGAGCGTTT GCAGTCGTTC ACTAAAGAGA AAGGAAAGAC CGCTTCCATC 
TTTAGTTCTT TCATCAAGAA AAAGAAAAAG ACTGCGCCGA CCCCTCCTAA ACGCAGCAGC 
TCCTTTCGGG ATATGGATGG ACATTCGGAG AAAAGAGGGG AAACAGCGGA AGACAGCAGT 
GTAGCTGGTA AAGATGTGAA CAACGGTGCC TTTGTGAACA GTGTGGGGCC TCACAATGAC 
GCAATCGATC CGACCAAGTT TCAGCAGTCG TTTAGCACTG GGGCACAAAG CGCTAACAAC 
GGAGCAGGGG TCACCAACGG GAGCCCGGCA GGACCGACTG GTTTCTTCTC CCCAAATTCG 
AAGAAGTCCA GTACTCTAGT TCTGGTAAAG CCTATTGGGA ATGATGAGGA GTCCACGACA 
AATACAAAAC ATTTCATGAG GTCTTGTTCT GCATCGTCCA TGCCCCCGGG AAATAAAGAC 
TCGGAGAGGA AAGCACTGAC TCTCCCTCGG GATCTGCAAT CCGCAGGAAA GCAGTCCGAA 
TCCGTGGCCT TGGGTTGCGA CCGAAACGAG AAGCCAGCCT TGCCCCGAAA GAGGACAAAC 
GATAACAAGG TGGACGTTCT TCCCAGAGGA AACATGACCA CTCCTCCTCG GCTGCCCAAG 
AAGAACGAGG AGGTAACTGA TGACACGTTC AACAACTTGG AGTCGAGCCC CAGTTCAAGT 
CCACCGGCAT CAACGCTGAA ACTCGTGCGC AGACAGCCGG CAGGTCACAC CCAGAAAGAA 
CTCAAAGAAG AGAATGCAAA GTCTTGTGCC TTAGTCCCTC CTTTGCACGA TCAGGCCTCC 
AGCATCACGT CCCCCACGCT GAAACCAAGC TCCACCTACT TGGGTGGAGT TAAACTGTCG 
AACGATGACT TGCGGATACG AAGGTTCAAG CAGCCTTCTG ATCAGCTCAC GTCCGTTCCT 
GTGAAGGACA GGGGAAAGCT ACAGAAGCCC AAGCCCGCGC CCCCTCCTCC GCCAGGCGTG 
AAATCGGTGA AACCTCCTCG AAGCCCTACC CACGAGACTG CGGGGGAGAC GGGAACGGGC 
GTCAAGCACA AACAGCCAAC TCAGGTCACA GACACTGTGA GTAGTGATGC CTCGAAACCA 
AGCCAATCAG GGGATGTGAT GAAAAGGCCT CTCCTCCATT CTGCACCAAA GCCTCAATCC 
TCTATGAAGC CATCAGCTAC AGTGGTCCCG TTAACCACAT CAGCTGCACC TTCACCCACA 
CAACCTGCCT TACCAAACAC AAGCGGAGAC CAGCAATCCT TGCCCACAAC GCCCTTCATT 
CCACTTATCT CCACCAGAGT TTCCTTGCGC AAGACACGGC AGCAGCCAGA GAAGATTACC 
AGCGCCAACA TTACCAAGGA CACAGTTTTG GAAAGCACAG AAGCATTGCG AGCGGCTATC 
GGAAAGAATT CTGAGCAAAT GGCCAGTCAC AGCGCAGTAC TGGAGGCTGG TAAAAACCTG 
TATACGTTCT GTGTGAGCTA CGTGGACTCG ATTCAACAGA TGCGCAACAA GTTTGCCTTC 
AGGGAGGCCA TCAACAAGCT GGAGAACAAC CTGCGGGAGC TGCAGATCTG CTCAGCCAGT 
CAGGACTTCA CCAAACTTCT CTCGTCTGTG AAAGAAATCA GTGACATCGT CCAGAGGTAG