DAPK1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	DAPK1
Entrez Gene ID	100231489
Full Name	death associated protein kinase 1
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002194596.2	XP_002194632.1	death-associated protein kinase 1
XM_030258796.1	XP_030114656.1	death-associated protein kinase 1 isoform X2
XM_002194596.3	XP_002194632.1	death-associated protein kinase 1 isoform X1

Pathways from BioSystems
Gene Ontology

The following DAPK1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DAPK1 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)
OTd12957	XM_002194596.2 Latest version!	Taeniopygia guttata death-associated protein kinase 1 (DAPK1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OTd53633	XM_002194596.3 Latest version!	Taeniopygia guttata death associated protein kinase 1 (DAPK1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OTd53634	XM_030258796.1 Latest version!	Taeniopygia guttata death associated protein kinase 1 (DAPK1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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** 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)

DAPK1 ( XM_002194596.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002194632.1 Taeniopygia guttata death-associated protein kinase 1 (DAPK1), mRNA.

Price & Availability↑

CloneID	OTd12957
Clone ID Related Accession (Same CDS sequence)	XM_002194596.2
Accession Version	XM_002194596.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4293bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	death-associated protein kinase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002234454.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002194596.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACGGTGT TCCGGCAGGA GAACCTGGAG GAGCACTACG AGACGGGCGA GGACCTTGGC 
AGTGGGCAGT TCGCCGTAGT GAAAAAATGC CGTGAGAAAA GTACTGGTCA GCAGTTTGCA 
GCAAAATTCA TCAAGAAAAG GAGAACGAAA TCCAGCCGCC GTGGAGTGAG CCGGGAAGAT 
ATCGAACGAG AAGTTGGCAT ACTGAAAGAG ATTCGGCATC CCAATGTGAT TACGCTTCAT 
GATGTCTATG AGAACAAAAC AGATGTCATT CTTATTCTGG AGCTTGTTGC AGGTGGGGAG 
CTCTTCGACT TCTTAGCTGA AAAAGAATCT CTCACGGAGG AGGAAGCCAC AGAATTTCTC 
AAACAGATAC TTAATGGTGT TCAGTATCTC CACTCTCTGC AAATTGCCCA CTTTGATCTT 
AAGCCTGAAA ACATAATGTT ATTGGACAGA AATGTACCAA AGCCTCGAAT CAAGATTATT 
GACTTTGGTT TAGCACACAA AATTGACTTT GGAAATGAAT TCAAAAATAT CTTCGGAACA 
CCAGAATTTG TTGCTCCTGA AATAGTAAAT TATGAACCTC TTGGTCTTGA AGCAGATATG 
TGGAGCATTG GTGTAATAAC TTATATTCTT CTAAGTGGTG CATCTCCATT TCTTGGAGAA 
ACCAAACAGG AAACATTGGC CAATGTCTCT GCTGTGAATT ATGACTTTGA AGAAGAATTC 
TTCAGTAATA CCAGTGCCCT AGCTAAAGAC TTTATACGAA GACTTCTAGT CAAAGATCCA 
AAGAAGAGAA TGACTATTCA AGACAGTTTG CTGCATCCTT GGATCAAGCC TAAAGACACT 
CAGCAAGCAC TCAGTAGAAA AGCTTCTGCA GTGAATATGG AGAAATTCAA GAAGTTTGCA 
GCACGACGAA AATGGAAACA ATCAGTGCGC TTAATATCCT TGTGCCAAAG ATTATCAAGA 
TCTTTCTTGT CCAGAAGCAG CATGAGTGTC GCTAGAAGTG ATGATACTCT GGATGAGGAA 
GATTCTTTTG TGATGAAAGC TATTATTCAT GCCATCAATG ATGACAATGT TCCTGGATTG 
CAGCACCTTC TGGGATCTCT GACAAATTAC GATGTCAATC AACCCAACAA GCATGGAACA 
CCTCCACTAC TGATTGCTGC TGGCTGTGGA AACATTCATA TGCTTCAGTT GCTTTTAAAG 
CGTGGATCCC GTATTGATGT TCAAGATAAG GCTGGATCTA ATGCAATCTA TTGGGCTTCT 
CGTCATGGAC ACGTAGAAAC ACTGAAATTT CTCAATGATA ATGAATGTCC TTTGGATATT 
AAGGATAAGT CTGGGGAGAC CGCTCTCCAC GTGGCAGCTC GGTATGGGCA TGTGGACGTG 
GTTCAGTTTC TCTGTAGCAT TGGATCCAAT CCAAATTTTC AAGACAAGGA AGAAGAAACC 
CCACTGCACT GCGCTGCTTG GCACGGCTAC TACTCTGTTG CCAAAGCACT CTGTGAAGCA 
GGCTGCAATG TGAACATTAA AAACAAAGAA GGGGAGACCC CGCTCCTGAC AGCATCTGCT 
AGGGGTTACC ATGATATTGT GGAATGCTTG GCAGAACACA GGGCTGACCT TCACGCAACA 
GACAAGGATG GTCATATAGC TCTGCATCTT GCTGTAAGAA GATGTCAAAT AGAAGTAGTT 
AAAACCCTCA TCAGTCAAGG ATGTTTTGTA GATTTCCAAG ACAGACATGG CAACACTCCC 
TTACATGTGG CCTGCAAAGA TGGGAATGTC CCTATTGTGA TGGCTCTCTG TGAAGCAAAT 
TGTAGTTTGG ATATCACTAA TAAGTATGGA AGAACACCTT TACACCTGGC AGCAAACAAT 
GGCATTCTTG ATGTTGTCCG GTTCCTTTGC CTGACCGGTG CCAATGTAGA AGCATTAACC 
TCTGATGGGA AAACAGCAGA AGATCTCGCC AGAGCAGAGC AGCATGAACA TGTAGCCAGT 
CTGCTTGCAA GACTTAAAAA GGATACGCAC CGGGGGATTT TTATCCAGCA GCTGAGGCAC 
ACACAGAATC CACAGCCCCG GATCAAACTG AAGTTGTTTG GATACTCTGG CACTGGGAAA 
ACCACCCTCG TGGAGTCTCT CAAATGCGGC CTGATACGAA GCTTTTTCCG AAGACGTAGG 
CCTAGGCTCT CCTCCACCAA CTCAAGCAGA TTCCCCCCAT CACCTTTGTC TTCCAAACCT 
TCAGTTTCAG TAAGTATTAC AAATCTTTAT CCTGGATGTG AAAATGTCAG CGTGAGAAGC 
CGTAGTATGA TGTTTGAGCC AGGCCTGACC AAAGGAGTAT TAGAAACTTT CGTATCACCT 
GCTCATCATT CTCACTTCTC TTCTGATGAC CAGTCCACCA AGGCCATTGA CATCCAGAAT 
GCCTACTTGC ATGGAGTTGG GGATTTCAGC ATCTGGGAAT TCTCTGGGAA TCCTGTGTAT 
TTCTGCTGTT ATGATTATTT TGCTGCAAAT GATCACACTG CAATTCACAT AGTGCTTTTT 
AGTCTTGAGG AGCCTTATGA AATCCAGTTA AACCAAGTGA CCTTTTGGCT CAATTTCTTG 
AAATCATTGG TCCCAGTTGA GGAGCCAATA GCATTTGGTG GGAAGCTGAA AAGTCCTCTG 
CATGTTGTTT TGGTTGCCAC ACATGCTGAC ATAGTGAATC TGCCTCGGCC TGTCGGAGGA 
GAGTTCTGGT ATGACAAAGA CATCTCTTTA TTGAAAGAAA TCAGGAACAG ATTTGGAAAT 
GATTTGCAAA TCTCAGAAAA GTTATTTGTC CTGGATGCTG GAGCATCTGG GTCTAAAGAT 
ATGAAGCTTC TCCGAAATCA CTTGCAAGAA ATAAGAAGCC AGATAATTTC TACTTGTCCA 
CCTATGACTC ACCTGTGTGA AAAAATAATC TCCACACTGC CTTCCTGGAG AAAAATTAAT 
GGGCCCAACC AGCTGATGTC CTTGCAGCAG TTTGTGTATG ATGTACAGGA ACATCTTAAT 
CCCTTAGCAA GCGAAAATGA TGTACGGCAT ATTGCACAGC AGTTGCATAG CACAGGAGAA 
ATTAACATTA TGCAGAGTGA AACCGTCCAA GATGTTGTGC TTCTGGATCC TCGCTGGCTC 
TGTTCTAATG TCCTTGGAAA AATCTTGTCA GTGGAGAACC CAAAAGCCCT CCATCACTAT 
AGAGGTCGGT ACACCATAGA GGACATCCAG CGTCTGGTGA CAGATAGTGA CGTGGAAGAA 
CTGATACAGA TTTTGGATGC CATGGATATT TGTGCAAGGG ACCTTAGCAG TGGAGCAATG 
GTGGATATTC CTGCTCTCAT AAAGACTGAC AATCTTCACA GGTCTTGGAC AGATGAGGAG 
GATGAAGTGC TGATCTATGG TGGTGTTAGA ATCGTTCCTG TGGAACATCT TACCCCATTT 
CCTTGTGGAA TTTTTCATAA AGTTCAGGTG AATCTCTGCA GGTGGATTCA TCAGCAGAGC 
ACAGAGGGAG ATGCTGATAT ACGTCTGTGG GTAAATGGAT CAAAGATTAT GAATCGTGGA 
GCCGAGCTTT TAGTGCTGCT GGTTAACCAT GGGCAGGGTA TAGAGGTTCA AGTTAGAGGA 
CTGGAAACAG AGAAGATCAA GTGCTGCTTA CTTCTGGATT CTGTGTGCAG CACTATTGAT 
AACTTAATAG CAACAACCTT ACCTGGTCTT CTGACCGGGA AATATTACCT TAGTCCTCAG 
CAGCTGAGGG AACACCATGA ACCAGTAATG GTCTACCAGC CTAGAGACTT TTTCCGTGCA 
CAGAGTCAAA AGGAGACATC ACTAACTAAC ACTATGGGGG GATATAAAGA GAGCTTTAGC 
AGTATACTGT GTTTTGGGTG TCTTGATGTT TACTCCCAGG GAAGCCTAGG AATGGATATT 
CATGTTTCTG ATCTGAATCT ACTTACCAGG AGAAAACTGA GTCGACTTTT GGATCCACCT 
GATCCAATGG GCAAAGACTG GTGCCTTCTT GCCATGAACT TGGGCCTCCC TGACCTTGTT 
GCAAAGTATA ATACAAATAA TGGAACACAA AATTACTTTC TCTCAAGCCC AGTTCATGCC 
CTTCTGCAGG AATGGAGTAA TGCACCTGAC AGCACTGTAG GCATACTAAT GTCTAAGCTG 
AGGGAATTAG GTCGCAGAGA TGCAGCAGAT TTCTTACTGA AGGCATCTTC TGTATTCAAA 
ATTAATTTAG ATGCTAATGG TCAAGAGGCT TATGCCTCCA GTTGCAACAG TGGCACATCT 
TACAACTCAA TTAGTTCTGT AGTGTCACGG TAA

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

RefSeq	XP_002194632.1
CDS	1..4293
Translation	MTVFRQENLEEHYETGEDLGSGQFAVVKKCREKSTGQQFAAKFIKKRRTKSSRRGVSREDIEREVGILKEIRHPNVITLHDVYENKTDVILILELVAGGELFDFLAEKESLTEEEATEFLKQILNGVQYLHSLQIAHFDLKPENIMLLDRNVPKPRIKIIDFGLAHKIDFGNEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGETKQETLANVSAVNYDFEEEFFSNTSALAKDFIRRLLVKDPKKRMTIQDSLLHPWIKPKDTQQALSRKASAVNMEKFKKFAARRKWKQSVRLISLCQRLSRSFLSRSSMSVARSDDTLDEEDSFVMKAIIHAINDDNVPGLQHLLGSLTNYDVNQPNKHGTPPLLIAAGCGNIHMLQLLLKRGSRIDVQDKAGSNAIYWASRHGHVETLKFLNDNECPLDIKDKSGETALHVAARYGHVDVVQFLCSIGSNPNFQDKEEETPLHCAAWHGYYSVAKALCEAGCNVNIKNKEGETPLLTASARGYHDIVECLAEHRADLHATDKDGHIALHLAVRRCQIEVVKTLISQGCFVDFQDRHGNTPLHVACKDGNVPIVMALCEANCSLDITNKYGRTPLHLAANNGILDVVRFLCLTGANVEALTSDGKTAEDLARAEQHEHVASLLARLKKDTHRGIFIQQLRHTQNPQPRIKLKLFGYSGTGKTTLVESLKCGLIRSFFRRRRPRLSSTNSSRFPPSPLSSKPSVSVSITNLYPGCENVSVRSRSMMFEPGLTKGVLETFVSPAHHSHFSSDDQSTKAIDIQNAYLHGVGDFSIWEFSGNPVYFCCYDYFAANDHTAIHIVLFSLEEPYEIQLNQVTFWLNFLKSLVPVEEPIAFGGKLKSPLHVVLVATHADIVNLPRPVGGEFWYDKDISLLKEIRNRFGNDLQISEKLFVLDAGASGSKDMKLLRNHLQEIRSQIISTCPPMTHLCEKIISTLPSWRKINGPNQLMSLQQFVYDVQEHLNPLASENDVRHIAQQLHSTGEINIMQSETVQDVVLLDPRWLCSNVLGKILSVENPKALHHYRGRYTIEDIQRLVTDSDVEELIQILDAMDICARDLSSGAMVDIPALIKTDNLHRSWTDEEDEVLIYGGVRIVPVEHLTPFPCGIFHKVQVNLCRWIHQQSTEGDADIRLWVNGSKIMNRGAELLVLLVNHGQGIEVQVRGLETEKIKCCLLLDSVCSTIDNLIATTLPGLLTGKYYLSPQQLREHHEPVMVYQPRDFFRAQSQKETSLTNTMGGYKESFSSILCFGCLDVYSQGSLGMDIHVSDLNLLTRRKLSRLLDPPDPMGKDWCLLAMNLGLPDLVAKYNTNNGTQNYFLSSPVHALLQEWSNAPDSTVGILMSKLRELGRRDAADFLLKASSVFKINLDANGQEAYASSCNSGTSYNSISSVVSR

Target ORF information:

RefSeq Version	XM_002194596.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata death-associated protein kinase 1 (DAPK1), mRNA.

Target ORF information:

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

XM_002194596.2

ORF Insert Sequence:

ATGACGGTGT TCCGGCAGGA GAACCTGGAG GAGCACTACG AGACGGGCGA GGACCTTGGC 
AGTGGGCAGT TCGCCGTAGT GAAAAAATGC CGTGAGAAAA GTACTGGTCA GCAGTTTGCA 
GCAAAATTCA TCAAGAAAAG GAGAACGAAA TCCAGCCGCC GTGGAGTGAG CCGGGAAGAT 
ATCGAACGAG AAGTTGGCAT ACTGAAAGAG ATTCGGCATC CCAATGTGAT TACGCTTCAT 
GATGTCTATG AGAACAAAAC AGATGTCATT CTTATTCTGG AGCTTGTTGC AGGTGGGGAG 
CTCTTCGACT TCTTAGCTGA AAAAGAATCT CTCACGGAGG AGGAAGCCAC AGAATTTCTC 
AAACAGATAC TTAATGGTGT TCAGTATCTC CACTCTCTGC AAATTGCCCA CTTTGATCTT 
AAGCCTGAAA ACATAATGTT ATTGGACAGA AATGTACCAA AGCCTCGAAT CAAGATTATT 
GACTTTGGTT TAGCACACAA AATTGACTTT GGAAATGAAT TCAAAAATAT CTTCGGAACA 
CCAGAATTTG TTGCTCCTGA AATAGTAAAT TATGAACCTC TTGGTCTTGA AGCAGATATG 
TGGAGCATTG GTGTAATAAC TTATATTCTT CTAAGTGGTG CATCTCCATT TCTTGGAGAA 
ACCAAACAGG AAACATTGGC CAATGTCTCT GCTGTGAATT ATGACTTTGA AGAAGAATTC 
TTCAGTAATA CCAGTGCCCT AGCTAAAGAC TTTATACGAA GACTTCTAGT CAAAGATCCA 
AAGAAGAGAA TGACTATTCA AGACAGTTTG CTGCATCCTT GGATCAAGCC TAAAGACACT 
CAGCAAGCAC TCAGTAGAAA AGCTTCTGCA GTGAATATGG AGAAATTCAA GAAGTTTGCA 
GCACGACGAA AATGGAAACA ATCAGTGCGC TTAATATCCT TGTGCCAAAG ATTATCAAGA 
TCTTTCTTGT CCAGAAGCAG CATGAGTGTC GCTAGAAGTG ATGATACTCT GGATGAGGAA 
GATTCTTTTG TGATGAAAGC TATTATTCAT GCCATCAATG ATGACAATGT TCCTGGATTG 
CAGCACCTTC TGGGATCTCT GACAAATTAC GATGTCAATC AACCCAACAA GCATGGAACA 
CCTCCACTAC TGATTGCTGC TGGCTGTGGA AACATTCATA TGCTTCAGTT GCTTTTAAAG 
CGTGGATCCC GTATTGATGT TCAAGATAAG GCTGGATCTA ATGCAATCTA TTGGGCTTCT 
CGTCATGGAC ACGTAGAAAC ACTGAAATTT CTCAATGATA ATGAATGTCC TTTGGATATT 
AAGGATAAGT CTGGGGAGAC CGCTCTCCAC GTGGCAGCTC GGTATGGGCA TGTGGACGTG 
GTTCAGTTTC TCTGTAGCAT TGGATCCAAT CCAAATTTTC AAGACAAGGA AGAAGAAACC 
CCACTGCACT GCGCTGCTTG GCACGGCTAC TACTCTGTTG CCAAAGCACT CTGTGAAGCA 
GGCTGCAATG TGAACATTAA AAACAAAGAA GGGGAGACCC CGCTCCTGAC AGCATCTGCT 
AGGGGTTACC ATGATATTGT GGAATGCTTG GCAGAACACA GGGCTGACCT TCACGCAACA 
GACAAGGATG GTCATATAGC TCTGCATCTT GCTGTAAGAA GATGTCAAAT AGAAGTAGTT 
AAAACCCTCA TCAGTCAAGG ATGTTTTGTA GATTTCCAAG ACAGACATGG CAACACTCCC 
TTACATGTGG CCTGCAAAGA TGGGAATGTC CCTATTGTGA TGGCTCTCTG TGAAGCAAAT 
TGTAGTTTGG ATATCACTAA TAAGTATGGA AGAACACCTT TACACCTGGC AGCAAACAAT 
GGCATTCTTG ATGTTGTCCG GTTCCTTTGC CTGACCGGTG CCAATGTAGA AGCATTAACC 
TCTGATGGGA AAACAGCAGA AGATCTCGCC AGAGCAGAGC AGCATGAACA TGTAGCCAGT 
CTGCTTGCAA GACTTAAAAA GGATACGCAC CGGGGGATTT TTATCCAGCA GCTGAGGCAC 
ACACAGAATC CACAGCCCCG GATCAAACTG AAGTTGTTTG GATACTCTGG CACTGGGAAA 
ACCACCCTCG TGGAGTCTCT CAAATGCGGC CTGATACGAA GCTTTTTCCG AAGACGTAGG 
CCTAGGCTCT CCTCCACCAA CTCAAGCAGA TTCCCCCCAT CACCTTTGTC TTCCAAACCT 
TCAGTTTCAG TAAGTATTAC AAATCTTTAT CCTGGATGTG AAAATGTCAG CGTGAGAAGC 
CGTAGTATGA TGTTTGAGCC AGGCCTGACC AAAGGAGTAT TAGAAACTTT CGTATCACCT 
GCTCATCATT CTCACTTCTC TTCTGATGAC CAGTCCACCA AGGCCATTGA CATCCAGAAT 
GCCTACTTGC ATGGAGTTGG GGATTTCAGC ATCTGGGAAT TCTCTGGGAA TCCTGTGTAT 
TTCTGCTGTT ATGATTATTT TGCTGCAAAT GATCACACTG CAATTCACAT AGTGCTTTTT 
AGTCTTGAGG AGCCTTATGA AATCCAGTTA AACCAAGTGA CCTTTTGGCT CAATTTCTTG 
AAATCATTGG TCCCAGTTGA GGAGCCAATA GCATTTGGTG GGAAGCTGAA AAGTCCTCTG 
CATGTTGTTT TGGTTGCCAC ACATGCTGAC ATAGTGAATC TGCCTCGGCC TGTCGGAGGA 
GAGTTCTGGT ATGACAAAGA CATCTCTTTA TTGAAAGAAA TCAGGAACAG ATTTGGAAAT 
GATTTGCAAA TCTCAGAAAA GTTATTTGTC CTGGATGCTG GAGCATCTGG GTCTAAAGAT 
ATGAAGCTTC TCCGAAATCA CTTGCAAGAA ATAAGAAGCC AGATAATTTC TACTTGTCCA 
CCTATGACTC ACCTGTGTGA AAAAATAATC TCCACACTGC CTTCCTGGAG AAAAATTAAT 
GGGCCCAACC AGCTGATGTC CTTGCAGCAG TTTGTGTATG ATGTACAGGA ACATCTTAAT 
CCCTTAGCAA GCGAAAATGA TGTACGGCAT ATTGCACAGC AGTTGCATAG CACAGGAGAA 
ATTAACATTA TGCAGAGTGA AACCGTCCAA GATGTTGTGC TTCTGGATCC TCGCTGGCTC 
TGTTCTAATG TCCTTGGAAA AATCTTGTCA GTGGAGAACC CAAAAGCCCT CCATCACTAT 
AGAGGTCGGT ACACCATAGA GGACATCCAG CGTCTGGTGA CAGATAGTGA CGTGGAAGAA 
CTGATACAGA TTTTGGATGC CATGGATATT TGTGCAAGGG ACCTTAGCAG TGGAGCAATG 
GTGGATATTC CTGCTCTCAT AAAGACTGAC AATCTTCACA GGTCTTGGAC AGATGAGGAG 
GATGAAGTGC TGATCTATGG TGGTGTTAGA ATCGTTCCTG TGGAACATCT TACCCCATTT 
CCTTGTGGAA TTTTTCATAA AGTTCAGGTG AATCTCTGCA GGTGGATTCA TCAGCAGAGC 
ACAGAGGGAG ATGCTGATAT ACGTCTGTGG GTAAATGGAT CAAAGATTAT GAATCGTGGA 
GCCGAGCTTT TAGTGCTGCT GGTTAACCAT GGGCAGGGTA TAGAGGTTCA AGTTAGAGGA 
CTGGAAACAG AGAAGATCAA GTGCTGCTTA CTTCTGGATT CTGTGTGCAG CACTATTGAT 
AACTTAATAG CAACAACCTT ACCTGGTCTT CTGACCGGGA AATATTACCT TAGTCCTCAG 
CAGCTGAGGG AACACCATGA ACCAGTAATG GTCTACCAGC CTAGAGACTT TTTCCGTGCA 
CAGAGTCAAA AGGAGACATC ACTAACTAAC ACTATGGGGG GATATAAAGA GAGCTTTAGC 
AGTATACTGT GTTTTGGGTG TCTTGATGTT TACTCCCAGG GAAGCCTAGG AATGGATATT 
CATGTTTCTG ATCTGAATCT ACTTACCAGG AGAAAACTGA GTCGACTTTT GGATCCACCT 
GATCCAATGG GCAAAGACTG GTGCCTTCTT GCCATGAACT TGGGCCTCCC TGACCTTGTT 
GCAAAGTATA ATACAAATAA TGGAACACAA AATTACTTTC TCTCAAGCCC AGTTCATGCC 
CTTCTGCAGG AATGGAGTAA TGCACCTGAC AGCACTGTAG GCATACTAAT GTCTAAGCTG 
AGGGAATTAG GTCGCAGAGA TGCAGCAGAT TTCTTACTGA AGGCATCTTC TGTATTCAAA 
ATTAATTTAG ATGCTAATGG TCAAGAGGCT TATGCCTCCA GTTGCAACAG TGGCACATCT 
TACAACTCAA TTAGTTCTGT AGTGTCACGG TAA

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

DAPK1 ( XM_002194596.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002194632.1 Taeniopygia guttata death associated protein kinase 1 (DAPK1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd53633
Clone ID Related Accession (Same CDS sequence)	XM_002194596.3
Accession Version	XM_002194596.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4293bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	death-associated protein kinase 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_002194596.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGACGGTGT TCCGGCAGGA GAACCTGGAG GAGCACTACG AGACGGGCGA GGACCTTGGC 
AGTGGGCAGT TCGCCGTAGT GAAAAAATGC CGTGAGAAAA GTACTGGTCA GCAGTTTGCA 
GCAAAATTCA TCAAGAAAAG GAGAACGAAA TCCAGCCGCC GTGGAGTGAG CCGGGAAGAT 
ATCGAACGAG AAGTTGGCAT ACTGAAAGAG ATTCGGCATC CCAATGTGAT TACGCTTCAT 
GATGTCTATG AGAACAAAAC AGATGTCATT CTTATTCTGG AGCTTGTTGC AGGTGGGGAG 
CTCTTCGACT TCTTAGCTGA AAAAGAATCT CTCACGGAGG AGGAAGCCAC AGAATTTCTC 
AAACAGATAC TTAATGGTGT TCAGTATCTC CACTCTCTGC AAATTGCCCA CTTTGATCTT 
AAGCCTGAAA ACATAATGTT ATTGGACAGA AATGTACCAA AGCCTCGAAT CAAGATTATT 
GACTTTGGTT TAGCACACAA AATTGACTTT GGAAATGAAT TCAAAAATAT CTTCGGAACA 
CCAGAATTTG TTGCTCCTGA AATAGTAAAT TATGAACCTC TTGGTCTTGA AGCAGATATG 
TGGAGCATTG GTGTAATAAC TTATATTCTT CTAAGTGGTG CATCTCCATT TCTTGGAGAA 
ACCAAACAGG AAACATTGGC CAATGTCTCT GCTGTGAATT ATGACTTTGA AGAAGAATTC 
TTCAGTAATA CCAGTGCCCT AGCTAAAGAC TTTATACGAA GACTTCTAGT CAAAGATCCA 
AAGAAGAGAA TGACTATTCA AGACAGTTTG CTGCATCCTT GGATCAAGCC TAAAGACACT 
CAGCAAGCAC TCAGTAGAAA AGCTTCTGCA GTGAATATGG AGAAATTCAA GAAGTTTGCA 
GCACGACGAA AATGGAAACA ATCAGTGCGC TTAATATCCT TGTGCCAAAG ATTATCAAGA 
TCTTTCTTGT CCAGAAGCAG CATGAGTGTC GCTAGAAGTG ATGATACTCT GGATGAGGAA 
GATTCTTTTG TGATGAAAGC TATTATTCAT GCCATCAATG ATGACAATGT TCCTGGATTG 
CAGCACCTTC TGGGATCTCT GACAAATTAC GATGTCAATC AACCCAACAA GCATGGAACA 
CCTCCACTAC TGATTGCTGC TGGCTGTGGA AACATTCATA TGCTTCAGTT GCTTTTAAAG 
CGTGGATCCC GTATTGATGT TCAAGATAAG GCTGGATCTA ATGCAATCTA TTGGGCTTCT 
CGTCATGGAC ACGTAGAAAC ACTGAAATTT CTCAATGATA ATGAATGTCC TTTGGATATT 
AAGGATAAGT CTGGGGAGAC CGCTCTCCAC GTGGCAGCTC GGTATGGGCA TGTGGACGTG 
GTTCAGTTTC TCTGTAGCAT TGGATCCAAT CCAAACTTTC AAGACAAGGA AGAAGAAACC 
CCACTGCACT GCGCTGCTTG GCACGGCTAC TACTCTGTTG CCAAAGCACT CTGTGAAGCA 
GGCTGCAATG TGAACATTAA AAACAAAGAA GGGGAGACCC CGCTCCTGAC AGCATCTGCT 
AGGGGTTACC ATGATATTGT GGAATGCTTG GCAGAACACA GGGCTGACCT TCACGCAACA 
GACAAGGATG GTCATATAGC TCTGCATCTT GCTGTAAGAA GATGTCAAAT AGAAGTAGTT 
AAAACCCTCA TCAGTCAAGG ATGTTTTGTA GATTTCCAAG ACAGACATGG CAACACTCCC 
TTACATGTGG CCTGCAAAGA TGGGAATGTC CCTATTGTGA TGGCTCTCTG TGAAGCAAAT 
TGTAGTTTGG ATATCACTAA TAAGTATGGA AGAACACCTT TACACCTGGC AGCAAACAAT 
GGCATTCTTG ATGTTGTCCG GTTCCTTTGC CTGACCGGTG CCAATGTAGA AGCATTAACC 
TCTGATGGGA AAACAGCAGA AGATCTCGCC AGAGCAGAGC AGCATGAACA TGTAGCCAGT 
CTGCTTGCAA GACTTAAAAA GGATACGCAC CGGGGGATTT TTATCCAGCA GCTGAGGCAC 
ACACAGAATC CACAGCCCCG GATCAAACTG AAGTTGTTTG GATACTCTGG CACTGGGAAA 
ACCACCCTCG TGGAGTCTCT CAAATGCGGC CTGATACGAA GCTTTTTCCG AAGACGTAGG 
CCTAGGCTCT CCTCCACCAA CTCAAGCAGA TTCCCCCCAT CACCTTTGTC TTCCAAACCT 
TCAGTTTCAG TAAGTATTAC AAATCTTTAT CCTGGATGTG AAAATGTCAG CGTGAGAAGC 
CGTAGTATGA TGTTTGAGCC AGGCCTGACC AAAGGAGTAT TAGAAACTTT CGTATCACCT 
GCTCATCATT CTCACTTCTC TTCTGATGAC CAGTCCACCA AGGCCATTGA CATCCAGAAT 
GCCTACTTGC ATGGAGTTGG GGATTTCAGC ATCTGGGAAT TCTCTGGGAA TCCTGTGTAT 
TTCTGCTGTT ATGATTATTT TGCTGCAAAT GATCACACTG CAATTCACAT AGTGCTTTTT 
AGTCTTGAGG AGCCTTATGA AATCCAGTTA AACCAAGTGA CCTTTTGGCT CAATTTCTTG 
AAATCATTGG TCCCAGTTGA GGAGCCAATA GCATTTGGTG GGAAGCTGAA AAGTCCTCTG 
CATGTTGTTT TGGTTGCCAC GCATGCTGAC ATAGTGAATC TGCCTCGGCC TGTCGGAGGA 
GAGTTCTGGT ATGACAAAGA CATCTCTTTA TTGAAAGAAA TCAGGAACAG ATTTGGAAAT 
GATTTGCAAA TCTCAGAAAA GTTATTTGTC CTGGATGCTG GAGCATCTGG GTCTAAAGAT 
ATGAAGCTTC TCCGAAATCA CTTGCAAGAA ATAAGAAGCC AGATAATTTC TACTTGTCCA 
CCTATGACTC ACCTGTGTGA AAAAATAATC TCCACACTGC CTTCCTGGAG AAAAATTAAT 
GGGCCCAACC AGCTGATGTC CTTGCAGCAG TTTGTGTATG ATGTACAGGA ACATCTTAAT 
CCCTTAGCAA GCGAAAATGA TGTACGGCAT ATTGCACAGC AGTTGCATAG CACAGGAGAA 
ATTAACATTA TGCAGAGTGA AACCGTCCAA GATGTTGTGC TTCTGGATCC TCGCTGGCTC 
TGTTCTAATG TCCTTGGAAA AATCTTGTCA GTGGAGAACC CAAAAGCCCT CCATCACTAT 
AGAGGTCGGT ACACCATAGA GGACATCCAG CGTCTGGTGA CAGATAGTGA CGTGGAAGAA 
CTGATACAGA TTTTGGATGC CATGGATATT TGTGCAAGGG ACCTTAGCAG TGGAGCAATG 
GTGGATATTC CTGCTCTCAT AAAGACTGAC AATCTTCACA GGTCTTGGAC AGATGAGGAG 
GATGAAGTGC TGATCTATGG TGGTGTTAGA ATCGTTCCTG TGGAACATCT TACCCCATTT 
CCTTGTGGAA TTTTTCATAA AGTTCAGGTG AATCTCTGCA GGTGGATTCA TCAGCAGAGC 
ACAGAGGGAG ATGCTGATAT ACGTCTGTGG GTAAATGGAT CAAAGATTAT GAATCGTGGA 
GCCGAGCTTT TAGTGCTGCT GGTTAACCAT GGGCAGGGTA TAGAGGTTCA AGTTAGAGGA 
CTGGAAACAG AGAAGATCAA GTGCTGCTTA CTTCTGGATT CTGTGTGCAG CACTATTGAT 
AACTTAATAG CAACAACCTT ACCTGGTCTT CTGACCGGGA AATATTACCT TAGTCCTCAG 
CAGCTGAGGG AACACCATGA ACCAGTAATG GTCTACCAGC CTAGAGACTT TTTCCGTGCA 
CAGAGTCAAA AGGAGACATC ACTAACTAAC ACTATGGGGG GATATAAAGA GAGCTTTAGC 
AGTATACTGT GTTTTGGGTG TCTTGATGTT TACTCCCAGG GAAGCCTAGG AATGGATATT 
CATGTTTCTG ATCTGAATCT ACTTACCAGG AGAAAACTGA GTCGACTTTT GGATCCACCT 
GATCCAATGG GCAAAGACTG GTGCCTTCTT GCCATGAACT TGGGCCTCCC TGACCTTGTT 
GCAAAGTATA ATACAAATAA TGGAACACAA AATTACTTTC TCTCAAGCCC AGTTCATGCC 
CTTCTGCAGG AATGGAGTAA TGCACCTGAC AGCACTGTAG GCATACTAAT GTCTAAGCTG 
AGGGAATTAG GTCGCAGAGA TGCAGCAGAT TTCTTACTGA AGGCATCTTC TGTATTCAAA 
ATTAATTTAG ATGCTAATGG TCAAGAGGCT TATGCCTCCA GTTGCAACAG TGGCACATCT 
TACAACTCAA TTAGTTCTGT AGTGTCACGG TAA

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

RefSeq	XP_002194632.1
CDS	47..4339
Translation	MTVFRQENLEEHYETGEDLGSGQFAVVKKCREKSTGQQFAAKFIKKRRTKSSRRGVSREDIEREVGILKEIRHPNVITLHDVYENKTDVILILELVAGGELFDFLAEKESLTEEEATEFLKQILNGVQYLHSLQIAHFDLKPENIMLLDRNVPKPRIKIIDFGLAHKIDFGNEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGETKQETLANVSAVNYDFEEEFFSNTSALAKDFIRRLLVKDPKKRMTIQDSLLHPWIKPKDTQQALSRKASAVNMEKFKKFAARRKWKQSVRLISLCQRLSRSFLSRSSMSVARSDDTLDEEDSFVMKAIIHAINDDNVPGLQHLLGSLTNYDVNQPNKHGTPPLLIAAGCGNIHMLQLLLKRGSRIDVQDKAGSNAIYWASRHGHVETLKFLNDNECPLDIKDKSGETALHVAARYGHVDVVQFLCSIGSNPNFQDKEEETPLHCAAWHGYYSVAKALCEAGCNVNIKNKEGETPLLTASARGYHDIVECLAEHRADLHATDKDGHIALHLAVRRCQIEVVKTLISQGCFVDFQDRHGNTPLHVACKDGNVPIVMALCEANCSLDITNKYGRTPLHLAANNGILDVVRFLCLTGANVEALTSDGKTAEDLARAEQHEHVASLLARLKKDTHRGIFIQQLRHTQNPQPRIKLKLFGYSGTGKTTLVESLKCGLIRSFFRRRRPRLSSTNSSRFPPSPLSSKPSVSVSITNLYPGCENVSVRSRSMMFEPGLTKGVLETFVSPAHHSHFSSDDQSTKAIDIQNAYLHGVGDFSIWEFSGNPVYFCCYDYFAANDHTAIHIVLFSLEEPYEIQLNQVTFWLNFLKSLVPVEEPIAFGGKLKSPLHVVLVATHADIVNLPRPVGGEFWYDKDISLLKEIRNRFGNDLQISEKLFVLDAGASGSKDMKLLRNHLQEIRSQIISTCPPMTHLCEKIISTLPSWRKINGPNQLMSLQQFVYDVQEHLNPLASENDVRHIAQQLHSTGEINIMQSETVQDVVLLDPRWLCSNVLGKILSVENPKALHHYRGRYTIEDIQRLVTDSDVEELIQILDAMDICARDLSSGAMVDIPALIKTDNLHRSWTDEEDEVLIYGGVRIVPVEHLTPFPCGIFHKVQVNLCRWIHQQSTEGDADIRLWVNGSKIMNRGAELLVLLVNHGQGIEVQVRGLETEKIKCCLLLDSVCSTIDNLIATTLPGLLTGKYYLSPQQLREHHEPVMVYQPRDFFRAQSQKETSLTNTMGGYKESFSSILCFGCLDVYSQGSLGMDIHVSDLNLLTRRKLSRLLDPPDPMGKDWCLLAMNLGLPDLVAKYNTNNGTQNYFLSSPVHALLQEWSNAPDSTVGILMSKLRELGRRDAADFLLKASSVFKINLDANGQEAYASSCNSGTSYNSISSVVSR

Target ORF information:

RefSeq Version	XM_002194596.3
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata death associated protein kinase 1 (DAPK1), transcript variant X1, mRNA.

Target ORF information:

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

XM_002194596.3

ORF Insert Sequence:

ATGACGGTGT TCCGGCAGGA GAACCTGGAG GAGCACTACG AGACGGGCGA GGACCTTGGC 
AGTGGGCAGT TCGCCGTAGT GAAAAAATGC CGTGAGAAAA GTACTGGTCA GCAGTTTGCA 
GCAAAATTCA TCAAGAAAAG GAGAACGAAA TCCAGCCGCC GTGGAGTGAG CCGGGAAGAT 
ATCGAACGAG AAGTTGGCAT ACTGAAAGAG ATTCGGCATC CCAATGTGAT TACGCTTCAT 
GATGTCTATG AGAACAAAAC AGATGTCATT CTTATTCTGG AGCTTGTTGC AGGTGGGGAG 
CTCTTCGACT TCTTAGCTGA AAAAGAATCT CTCACGGAGG AGGAAGCCAC AGAATTTCTC 
AAACAGATAC TTAATGGTGT TCAGTATCTC CACTCTCTGC AAATTGCCCA CTTTGATCTT 
AAGCCTGAAA ACATAATGTT ATTGGACAGA AATGTACCAA AGCCTCGAAT CAAGATTATT 
GACTTTGGTT TAGCACACAA AATTGACTTT GGAAATGAAT TCAAAAATAT CTTCGGAACA 
CCAGAATTTG TTGCTCCTGA AATAGTAAAT TATGAACCTC TTGGTCTTGA AGCAGATATG 
TGGAGCATTG GTGTAATAAC TTATATTCTT CTAAGTGGTG CATCTCCATT TCTTGGAGAA 
ACCAAACAGG AAACATTGGC CAATGTCTCT GCTGTGAATT ATGACTTTGA AGAAGAATTC 
TTCAGTAATA CCAGTGCCCT AGCTAAAGAC TTTATACGAA GACTTCTAGT CAAAGATCCA 
AAGAAGAGAA TGACTATTCA AGACAGTTTG CTGCATCCTT GGATCAAGCC TAAAGACACT 
CAGCAAGCAC TCAGTAGAAA AGCTTCTGCA GTGAATATGG AGAAATTCAA GAAGTTTGCA 
GCACGACGAA AATGGAAACA ATCAGTGCGC TTAATATCCT TGTGCCAAAG ATTATCAAGA 
TCTTTCTTGT CCAGAAGCAG CATGAGTGTC GCTAGAAGTG ATGATACTCT GGATGAGGAA 
GATTCTTTTG TGATGAAAGC TATTATTCAT GCCATCAATG ATGACAATGT TCCTGGATTG 
CAGCACCTTC TGGGATCTCT GACAAATTAC GATGTCAATC AACCCAACAA GCATGGAACA 
CCTCCACTAC TGATTGCTGC TGGCTGTGGA AACATTCATA TGCTTCAGTT GCTTTTAAAG 
CGTGGATCCC GTATTGATGT TCAAGATAAG GCTGGATCTA ATGCAATCTA TTGGGCTTCT 
CGTCATGGAC ACGTAGAAAC ACTGAAATTT CTCAATGATA ATGAATGTCC TTTGGATATT 
AAGGATAAGT CTGGGGAGAC CGCTCTCCAC GTGGCAGCTC GGTATGGGCA TGTGGACGTG 
GTTCAGTTTC TCTGTAGCAT TGGATCCAAT CCAAACTTTC AAGACAAGGA AGAAGAAACC 
CCACTGCACT GCGCTGCTTG GCACGGCTAC TACTCTGTTG CCAAAGCACT CTGTGAAGCA 
GGCTGCAATG TGAACATTAA AAACAAAGAA GGGGAGACCC CGCTCCTGAC AGCATCTGCT 
AGGGGTTACC ATGATATTGT GGAATGCTTG GCAGAACACA GGGCTGACCT TCACGCAACA 
GACAAGGATG GTCATATAGC TCTGCATCTT GCTGTAAGAA GATGTCAAAT AGAAGTAGTT 
AAAACCCTCA TCAGTCAAGG ATGTTTTGTA GATTTCCAAG ACAGACATGG CAACACTCCC 
TTACATGTGG CCTGCAAAGA TGGGAATGTC CCTATTGTGA TGGCTCTCTG TGAAGCAAAT 
TGTAGTTTGG ATATCACTAA TAAGTATGGA AGAACACCTT TACACCTGGC AGCAAACAAT 
GGCATTCTTG ATGTTGTCCG GTTCCTTTGC CTGACCGGTG CCAATGTAGA AGCATTAACC 
TCTGATGGGA AAACAGCAGA AGATCTCGCC AGAGCAGAGC AGCATGAACA TGTAGCCAGT 
CTGCTTGCAA GACTTAAAAA GGATACGCAC CGGGGGATTT TTATCCAGCA GCTGAGGCAC 
ACACAGAATC CACAGCCCCG GATCAAACTG AAGTTGTTTG GATACTCTGG CACTGGGAAA 
ACCACCCTCG TGGAGTCTCT CAAATGCGGC CTGATACGAA GCTTTTTCCG AAGACGTAGG 
CCTAGGCTCT CCTCCACCAA CTCAAGCAGA TTCCCCCCAT CACCTTTGTC TTCCAAACCT 
TCAGTTTCAG TAAGTATTAC AAATCTTTAT CCTGGATGTG AAAATGTCAG CGTGAGAAGC 
CGTAGTATGA TGTTTGAGCC AGGCCTGACC AAAGGAGTAT TAGAAACTTT CGTATCACCT 
GCTCATCATT CTCACTTCTC TTCTGATGAC CAGTCCACCA AGGCCATTGA CATCCAGAAT 
GCCTACTTGC ATGGAGTTGG GGATTTCAGC ATCTGGGAAT TCTCTGGGAA TCCTGTGTAT 
TTCTGCTGTT ATGATTATTT TGCTGCAAAT GATCACACTG CAATTCACAT AGTGCTTTTT 
AGTCTTGAGG AGCCTTATGA AATCCAGTTA AACCAAGTGA CCTTTTGGCT CAATTTCTTG 
AAATCATTGG TCCCAGTTGA GGAGCCAATA GCATTTGGTG GGAAGCTGAA AAGTCCTCTG 
CATGTTGTTT TGGTTGCCAC GCATGCTGAC ATAGTGAATC TGCCTCGGCC TGTCGGAGGA 
GAGTTCTGGT ATGACAAAGA CATCTCTTTA TTGAAAGAAA TCAGGAACAG ATTTGGAAAT 
GATTTGCAAA TCTCAGAAAA GTTATTTGTC CTGGATGCTG GAGCATCTGG GTCTAAAGAT 
ATGAAGCTTC TCCGAAATCA CTTGCAAGAA ATAAGAAGCC AGATAATTTC TACTTGTCCA 
CCTATGACTC ACCTGTGTGA AAAAATAATC TCCACACTGC CTTCCTGGAG AAAAATTAAT 
GGGCCCAACC AGCTGATGTC CTTGCAGCAG TTTGTGTATG ATGTACAGGA ACATCTTAAT 
CCCTTAGCAA GCGAAAATGA TGTACGGCAT ATTGCACAGC AGTTGCATAG CACAGGAGAA 
ATTAACATTA TGCAGAGTGA AACCGTCCAA GATGTTGTGC TTCTGGATCC TCGCTGGCTC 
TGTTCTAATG TCCTTGGAAA AATCTTGTCA GTGGAGAACC CAAAAGCCCT CCATCACTAT 
AGAGGTCGGT ACACCATAGA GGACATCCAG CGTCTGGTGA CAGATAGTGA CGTGGAAGAA 
CTGATACAGA TTTTGGATGC CATGGATATT TGTGCAAGGG ACCTTAGCAG TGGAGCAATG 
GTGGATATTC CTGCTCTCAT AAAGACTGAC AATCTTCACA GGTCTTGGAC AGATGAGGAG 
GATGAAGTGC TGATCTATGG TGGTGTTAGA ATCGTTCCTG TGGAACATCT TACCCCATTT 
CCTTGTGGAA TTTTTCATAA AGTTCAGGTG AATCTCTGCA GGTGGATTCA TCAGCAGAGC 
ACAGAGGGAG ATGCTGATAT ACGTCTGTGG GTAAATGGAT CAAAGATTAT GAATCGTGGA 
GCCGAGCTTT TAGTGCTGCT GGTTAACCAT GGGCAGGGTA TAGAGGTTCA AGTTAGAGGA 
CTGGAAACAG AGAAGATCAA GTGCTGCTTA CTTCTGGATT CTGTGTGCAG CACTATTGAT 
AACTTAATAG CAACAACCTT ACCTGGTCTT CTGACCGGGA AATATTACCT TAGTCCTCAG 
CAGCTGAGGG AACACCATGA ACCAGTAATG GTCTACCAGC CTAGAGACTT TTTCCGTGCA 
CAGAGTCAAA AGGAGACATC ACTAACTAAC ACTATGGGGG GATATAAAGA GAGCTTTAGC 
AGTATACTGT GTTTTGGGTG TCTTGATGTT TACTCCCAGG GAAGCCTAGG AATGGATATT 
CATGTTTCTG ATCTGAATCT ACTTACCAGG AGAAAACTGA GTCGACTTTT GGATCCACCT 
GATCCAATGG GCAAAGACTG GTGCCTTCTT GCCATGAACT TGGGCCTCCC TGACCTTGTT 
GCAAAGTATA ATACAAATAA TGGAACACAA AATTACTTTC TCTCAAGCCC AGTTCATGCC 
CTTCTGCAGG AATGGAGTAA TGCACCTGAC AGCACTGTAG GCATACTAAT GTCTAAGCTG 
AGGGAATTAG GTCGCAGAGA TGCAGCAGAT TTCTTACTGA AGGCATCTTC TGTATTCAAA 
ATTAATTTAG ATGCTAATGG TCAAGAGGCT TATGCCTCCA GTTGCAACAG TGGCACATCT 
TACAACTCAA TTAGTTCTGT AGTGTCACGG TAA

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

DAPK1 ( XM_030258796.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030114656.1 Taeniopygia guttata death associated protein kinase 1 (DAPK1), transcript variant X2, mRNA.

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CloneID	OTd53634
Clone ID Related Accession (Same CDS sequence)	XM_030258796.1
Accession Version	XM_030258796.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4266bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	death-associated protein kinase 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGACGGTGT TCCGGCAGGA GAACCTGGAG GAGCACTACG AGACGGGCGA GGACCTTGGC 
AGTGGGCAGT TCGCCGTAGT GAAAAAATGC CGTGAGAAAA GTACTGGTCA GCAGTTTGCA 
GCAAAATTCA TCAAGAAAAG GAGAACGAAA TCCAGCCGCC GTGGAGTGAG CCGGGAAGAT 
ATCGAACGAG AAGTTGGCAT ACTGAAAGAG ATTCGGCATC CCAATGTGAT TACGCTTCAT 
GATGTCTATG AGAACAAAAC AGATGTCATT CTTATTCTGG AGCTTGTTGC AGGTGGGGAG 
CTCTTCGACT TCTTAGCTGA AAAAGAATCT CTCACGGAGG AGGAAGCCAC AGAATTTCTC 
AAACAGATAC TTAATGGTGT TCAGTATCTC CACTCTCTGC AAATTGCCCA CTTTGATCTT 
AAGCCTGAAA ACATAATGTT ATTGGACAGA AATGTACCAA AGCCTCGAAT CAAGATTATT 
GACTTTGGTT TAGCACACAA AATTGACTTT GGAAATGAAT TCAAAAATAT CTTCGGAACA 
CCAGAATTTG TTGCTCCTGA AATAGTAAAT TATGAACCTC TTGGTCTTGA AGCAGATATG 
TGTCTAAGTG GTGCATCTCC ATTTCTTGGA GAAACCAAAC AGGAAACATT GGCCAATGTC 
TCTGCTGTGA ATTATGACTT TGAAGAAGAA TTCTTCAGTA ATACCAGTGC CCTAGCTAAA 
GACTTTATAC GAAGACTTCT AGTCAAAGAT CCAAAGAAGA GAATGACTAT TCAAGACAGT 
TTGCTGCATC CTTGGATCAA GCCTAAAGAC ACTCAGCAAG CACTCAGTAG AAAAGCTTCT 
GCAGTGAATA TGGAGAAATT CAAGAAGTTT GCAGCACGAC GAAAATGGAA ACAATCAGTG 
CGCTTAATAT CCTTGTGCCA AAGATTATCA AGATCTTTCT TGTCCAGAAG CAGCATGAGT 
GTCGCTAGAA GTGATGATAC TCTGGATGAG GAAGATTCTT TTGTGATGAA AGCTATTATT 
CATGCCATCA ATGATGACAA TGTTCCTGGA TTGCAGCACC TTCTGGGATC TCTGACAAAT 
TACGATGTCA ATCAACCCAA CAAGCATGGA ACACCTCCAC TACTGATTGC TGCTGGCTGT 
GGAAACATTC ATATGCTTCA GTTGCTTTTA AAGCGTGGAT CCCGTATTGA TGTTCAAGAT 
AAGGCTGGAT CTAATGCAAT CTATTGGGCT TCTCGTCATG GACACGTAGA AACACTGAAA 
TTTCTCAATG ATAATGAATG TCCTTTGGAT ATTAAGGATA AGTCTGGGGA GACCGCTCTC 
CACGTGGCAG CTCGGTATGG GCATGTGGAC GTGGTTCAGT TTCTCTGTAG CATTGGATCC 
AATCCAAACT TTCAAGACAA GGAAGAAGAA ACCCCACTGC ACTGCGCTGC TTGGCACGGC 
TACTACTCTG TTGCCAAAGC ACTCTGTGAA GCAGGCTGCA ATGTGAACAT TAAAAACAAA 
GAAGGGGAGA CCCCGCTCCT GACAGCATCT GCTAGGGGTT ACCATGATAT TGTGGAATGC 
TTGGCAGAAC ACAGGGCTGA CCTTCACGCA ACAGACAAGG ATGGTCATAT AGCTCTGCAT 
CTTGCTGTAA GAAGATGTCA AATAGAAGTA GTTAAAACCC TCATCAGTCA AGGATGTTTT 
GTAGATTTCC AAGACAGACA TGGCAACACT CCCTTACATG TGGCCTGCAA AGATGGGAAT 
GTCCCTATTG TGATGGCTCT CTGTGAAGCA AATTGTAGTT TGGATATCAC TAATAAGTAT 
GGAAGAACAC CTTTACACCT GGCAGCAAAC AATGGCATTC TTGATGTTGT CCGGTTCCTT 
TGCCTGACCG GTGCCAATGT AGAAGCATTA ACCTCTGATG GGAAAACAGC AGAAGATCTC 
GCCAGAGCAG AGCAGCATGA ACATGTAGCC AGTCTGCTTG CAAGACTTAA AAAGGATACG 
CACCGGGGGA TTTTTATCCA GCAGCTGAGG CACACACAGA ATCCACAGCC CCGGATCAAA 
CTGAAGTTGT TTGGATACTC TGGCACTGGG AAAACCACCC TCGTGGAGTC TCTCAAATGC 
GGCCTGATAC GAAGCTTTTT CCGAAGACGT AGGCCTAGGC TCTCCTCCAC CAACTCAAGC 
AGATTCCCCC CATCACCTTT GTCTTCCAAA CCTTCAGTTT CAGTAAGTAT TACAAATCTT 
TATCCTGGAT GTGAAAATGT CAGCGTGAGA AGCCGTAGTA TGATGTTTGA GCCAGGCCTG 
ACCAAAGGAG TATTAGAAAC TTTCGTATCA CCTGCTCATC ATTCTCACTT CTCTTCTGAT 
GACCAGTCCA CCAAGGCCAT TGACATCCAG AATGCCTACT TGCATGGAGT TGGGGATTTC 
AGCATCTGGG AATTCTCTGG GAATCCTGTG TATTTCTGCT GTTATGATTA TTTTGCTGCA 
AATGATCACA CTGCAATTCA CATAGTGCTT TTTAGTCTTG AGGAGCCTTA TGAAATCCAG 
TTAAACCAAG TGACCTTTTG GCTCAATTTC TTGAAATCAT TGGTCCCAGT TGAGGAGCCA 
ATAGCATTTG GTGGGAAGCT GAAAAGTCCT CTGCATGTTG TTTTGGTTGC CACGCATGCT 
GACATAGTGA ATCTGCCTCG GCCTGTCGGA GGAGAGTTCT GGTATGACAA AGACATCTCT 
TTATTGAAAG AAATCAGGAA CAGATTTGGA AATGATTTGC AAATCTCAGA AAAGTTATTT 
GTCCTGGATG CTGGAGCATC TGGGTCTAAA GATATGAAGC TTCTCCGAAA TCACTTGCAA 
GAAATAAGAA GCCAGATAAT TTCTACTTGT CCACCTATGA CTCACCTGTG TGAAAAAATA 
ATCTCCACAC TGCCTTCCTG GAGAAAAATT AATGGGCCCA ACCAGCTGAT GTCCTTGCAG 
CAGTTTGTGT ATGATGTACA GGAACATCTT AATCCCTTAG CAAGCGAAAA TGATGTACGG 
CATATTGCAC AGCAGTTGCA TAGCACAGGA GAAATTAACA TTATGCAGAG TGAAACCGTC 
CAAGATGTTG TGCTTCTGGA TCCTCGCTGG CTCTGTTCTA ATGTCCTTGG AAAAATCTTG 
TCAGTGGAGA ACCCAAAAGC CCTCCATCAC TATAGAGGTC GGTACACCAT AGAGGACATC 
CAGCGTCTGG TGACAGATAG TGACGTGGAA GAACTGATAC AGATTTTGGA TGCCATGGAT 
ATTTGTGCAA GGGACCTTAG CAGTGGAGCA ATGGTGGATA TTCCTGCTCT CATAAAGACT 
GACAATCTTC ACAGGTCTTG GACAGATGAG GAGGATGAAG TGCTGATCTA TGGTGGTGTT 
AGAATCGTTC CTGTGGAACA TCTTACCCCA TTTCCTTGTG GAATTTTTCA TAAAGTTCAG 
GTGAATCTCT GCAGGTGGAT TCATCAGCAG AGCACAGAGG GAGATGCTGA TATACGTCTG 
TGGGTAAATG GATCAAAGAT TATGAATCGT GGAGCCGAGC TTTTAGTGCT GCTGGTTAAC 
CATGGGCAGG GTATAGAGGT TCAAGTTAGA GGACTGGAAA CAGAGAAGAT CAAGTGCTGC 
TTACTTCTGG ATTCTGTGTG CAGCACTATT GATAACTTAA TAGCAACAAC CTTACCTGGT 
CTTCTGACCG GGAAATATTA CCTTAGTCCT CAGCAGCTGA GGGAACACCA TGAACCAGTA 
ATGGTCTACC AGCCTAGAGA CTTTTTCCGT GCACAGAGTC AAAAGGAGAC ATCACTAACT 
AACACTATGG GGGGATATAA AGAGAGCTTT AGCAGTATAC TGTGTTTTGG GTGTCTTGAT 
GTTTACTCCC AGGGAAGCCT AGGAATGGAT ATTCATGTTT CTGATCTGAA TCTACTTACC 
AGGAGAAAAC TGAGTCGACT TTTGGATCCA CCTGATCCAA TGGGCAAAGA CTGGTGCCTT 
CTTGCCATGA ACTTGGGCCT CCCTGACCTT GTTGCAAAGT ATAATACAAA TAATGGAACA 
CAAAATTACT TTCTCTCAAG CCCAGTTCAT GCCCTTCTGC AGGAATGGAG TAATGCACCT 
GACAGCACTG TAGGCATACT AATGTCTAAG CTGAGGGAAT TAGGTCGCAG AGATGCAGCA 
GATTTCTTAC TGAAGGCATC TTCTGTATTC AAAATTAATT TAGATGCTAA TGGTCAAGAG 
GCTTATGCCT CCAGTTGCAA CAGTGGCACA TCTTACAACT CAATTAGTTC TGTAGTGTCA 
CGGTAA

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

RefSeq	XP_030114656.1
CDS	98..4363
Translation	MTVFRQENLEEHYETGEDLGSGQFAVVKKCREKSTGQQFAAKFIKKRRTKSSRRGVSREDIEREVGILKEIRHPNVITLHDVYENKTDVILILELVAGGELFDFLAEKESLTEEEATEFLKQILNGVQYLHSLQIAHFDLKPENIMLLDRNVPKPRIKIIDFGLAHKIDFGNEFKNIFGTPEFVAPEIVNYEPLGLEADMCLSGASPFLGETKQETLANVSAVNYDFEEEFFSNTSALAKDFIRRLLVKDPKKRMTIQDSLLHPWIKPKDTQQALSRKASAVNMEKFKKFAARRKWKQSVRLISLCQRLSRSFLSRSSMSVARSDDTLDEEDSFVMKAIIHAINDDNVPGLQHLLGSLTNYDVNQPNKHGTPPLLIAAGCGNIHMLQLLLKRGSRIDVQDKAGSNAIYWASRHGHVETLKFLNDNECPLDIKDKSGETALHVAARYGHVDVVQFLCSIGSNPNFQDKEEETPLHCAAWHGYYSVAKALCEAGCNVNIKNKEGETPLLTASARGYHDIVECLAEHRADLHATDKDGHIALHLAVRRCQIEVVKTLISQGCFVDFQDRHGNTPLHVACKDGNVPIVMALCEANCSLDITNKYGRTPLHLAANNGILDVVRFLCLTGANVEALTSDGKTAEDLARAEQHEHVASLLARLKKDTHRGIFIQQLRHTQNPQPRIKLKLFGYSGTGKTTLVESLKCGLIRSFFRRRRPRLSSTNSSRFPPSPLSSKPSVSVSITNLYPGCENVSVRSRSMMFEPGLTKGVLETFVSPAHHSHFSSDDQSTKAIDIQNAYLHGVGDFSIWEFSGNPVYFCCYDYFAANDHTAIHIVLFSLEEPYEIQLNQVTFWLNFLKSLVPVEEPIAFGGKLKSPLHVVLVATHADIVNLPRPVGGEFWYDKDISLLKEIRNRFGNDLQISEKLFVLDAGASGSKDMKLLRNHLQEIRSQIISTCPPMTHLCEKIISTLPSWRKINGPNQLMSLQQFVYDVQEHLNPLASENDVRHIAQQLHSTGEINIMQSETVQDVVLLDPRWLCSNVLGKILSVENPKALHHYRGRYTIEDIQRLVTDSDVEELIQILDAMDICARDLSSGAMVDIPALIKTDNLHRSWTDEEDEVLIYGGVRIVPVEHLTPFPCGIFHKVQVNLCRWIHQQSTEGDADIRLWVNGSKIMNRGAELLVLLVNHGQGIEVQVRGLETEKIKCCLLLDSVCSTIDNLIATTLPGLLTGKYYLSPQQLREHHEPVMVYQPRDFFRAQSQKETSLTNTMGGYKESFSSILCFGCLDVYSQGSLGMDIHVSDLNLLTRRKLSRLLDPPDPMGKDWCLLAMNLGLPDLVAKYNTNNGTQNYFLSSPVHALLQEWSNAPDSTVGILMSKLRELGRRDAADFLLKASSVFKINLDANGQEAYASSCNSGTSYNSISSVVSR

Target ORF information:

RefSeq Version	XM_030258796.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata death associated protein kinase 1 (DAPK1), transcript variant X2, mRNA.

Target ORF information:

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

XM_030258796.1

ORF Insert Sequence:

ATGACGGTGT TCCGGCAGGA GAACCTGGAG GAGCACTACG AGACGGGCGA GGACCTTGGC 
AGTGGGCAGT TCGCCGTAGT GAAAAAATGC CGTGAGAAAA GTACTGGTCA GCAGTTTGCA 
GCAAAATTCA TCAAGAAAAG GAGAACGAAA TCCAGCCGCC GTGGAGTGAG CCGGGAAGAT 
ATCGAACGAG AAGTTGGCAT ACTGAAAGAG ATTCGGCATC CCAATGTGAT TACGCTTCAT 
GATGTCTATG AGAACAAAAC AGATGTCATT CTTATTCTGG AGCTTGTTGC AGGTGGGGAG 
CTCTTCGACT TCTTAGCTGA AAAAGAATCT CTCACGGAGG AGGAAGCCAC AGAATTTCTC 
AAACAGATAC TTAATGGTGT TCAGTATCTC CACTCTCTGC AAATTGCCCA CTTTGATCTT 
AAGCCTGAAA ACATAATGTT ATTGGACAGA AATGTACCAA AGCCTCGAAT CAAGATTATT 
GACTTTGGTT TAGCACACAA AATTGACTTT GGAAATGAAT TCAAAAATAT CTTCGGAACA 
CCAGAATTTG TTGCTCCTGA AATAGTAAAT TATGAACCTC TTGGTCTTGA AGCAGATATG 
TGTCTAAGTG GTGCATCTCC ATTTCTTGGA GAAACCAAAC AGGAAACATT GGCCAATGTC 
TCTGCTGTGA ATTATGACTT TGAAGAAGAA TTCTTCAGTA ATACCAGTGC CCTAGCTAAA 
GACTTTATAC GAAGACTTCT AGTCAAAGAT CCAAAGAAGA GAATGACTAT TCAAGACAGT 
TTGCTGCATC CTTGGATCAA GCCTAAAGAC ACTCAGCAAG CACTCAGTAG AAAAGCTTCT 
GCAGTGAATA TGGAGAAATT CAAGAAGTTT GCAGCACGAC GAAAATGGAA ACAATCAGTG 
CGCTTAATAT CCTTGTGCCA AAGATTATCA AGATCTTTCT TGTCCAGAAG CAGCATGAGT 
GTCGCTAGAA GTGATGATAC TCTGGATGAG GAAGATTCTT TTGTGATGAA AGCTATTATT 
CATGCCATCA ATGATGACAA TGTTCCTGGA TTGCAGCACC TTCTGGGATC TCTGACAAAT 
TACGATGTCA ATCAACCCAA CAAGCATGGA ACACCTCCAC TACTGATTGC TGCTGGCTGT 
GGAAACATTC ATATGCTTCA GTTGCTTTTA AAGCGTGGAT CCCGTATTGA TGTTCAAGAT 
AAGGCTGGAT CTAATGCAAT CTATTGGGCT TCTCGTCATG GACACGTAGA AACACTGAAA 
TTTCTCAATG ATAATGAATG TCCTTTGGAT ATTAAGGATA AGTCTGGGGA GACCGCTCTC 
CACGTGGCAG CTCGGTATGG GCATGTGGAC GTGGTTCAGT TTCTCTGTAG CATTGGATCC 
AATCCAAACT TTCAAGACAA GGAAGAAGAA ACCCCACTGC ACTGCGCTGC TTGGCACGGC 
TACTACTCTG TTGCCAAAGC ACTCTGTGAA GCAGGCTGCA ATGTGAACAT TAAAAACAAA 
GAAGGGGAGA CCCCGCTCCT GACAGCATCT GCTAGGGGTT ACCATGATAT TGTGGAATGC 
TTGGCAGAAC ACAGGGCTGA CCTTCACGCA ACAGACAAGG ATGGTCATAT AGCTCTGCAT 
CTTGCTGTAA GAAGATGTCA AATAGAAGTA GTTAAAACCC TCATCAGTCA AGGATGTTTT 
GTAGATTTCC AAGACAGACA TGGCAACACT CCCTTACATG TGGCCTGCAA AGATGGGAAT 
GTCCCTATTG TGATGGCTCT CTGTGAAGCA AATTGTAGTT TGGATATCAC TAATAAGTAT 
GGAAGAACAC CTTTACACCT GGCAGCAAAC AATGGCATTC TTGATGTTGT CCGGTTCCTT 
TGCCTGACCG GTGCCAATGT AGAAGCATTA ACCTCTGATG GGAAAACAGC AGAAGATCTC 
GCCAGAGCAG AGCAGCATGA ACATGTAGCC AGTCTGCTTG CAAGACTTAA AAAGGATACG 
CACCGGGGGA TTTTTATCCA GCAGCTGAGG CACACACAGA ATCCACAGCC CCGGATCAAA 
CTGAAGTTGT TTGGATACTC TGGCACTGGG AAAACCACCC TCGTGGAGTC TCTCAAATGC 
GGCCTGATAC GAAGCTTTTT CCGAAGACGT AGGCCTAGGC TCTCCTCCAC CAACTCAAGC 
AGATTCCCCC CATCACCTTT GTCTTCCAAA CCTTCAGTTT CAGTAAGTAT TACAAATCTT 
TATCCTGGAT GTGAAAATGT CAGCGTGAGA AGCCGTAGTA TGATGTTTGA GCCAGGCCTG 
ACCAAAGGAG TATTAGAAAC TTTCGTATCA CCTGCTCATC ATTCTCACTT CTCTTCTGAT 
GACCAGTCCA CCAAGGCCAT TGACATCCAG AATGCCTACT TGCATGGAGT TGGGGATTTC 
AGCATCTGGG AATTCTCTGG GAATCCTGTG TATTTCTGCT GTTATGATTA TTTTGCTGCA 
AATGATCACA CTGCAATTCA CATAGTGCTT TTTAGTCTTG AGGAGCCTTA TGAAATCCAG 
TTAAACCAAG TGACCTTTTG GCTCAATTTC TTGAAATCAT TGGTCCCAGT TGAGGAGCCA 
ATAGCATTTG GTGGGAAGCT GAAAAGTCCT CTGCATGTTG TTTTGGTTGC CACGCATGCT 
GACATAGTGA ATCTGCCTCG GCCTGTCGGA GGAGAGTTCT GGTATGACAA AGACATCTCT 
TTATTGAAAG AAATCAGGAA CAGATTTGGA AATGATTTGC AAATCTCAGA AAAGTTATTT 
GTCCTGGATG CTGGAGCATC TGGGTCTAAA GATATGAAGC TTCTCCGAAA TCACTTGCAA 
GAAATAAGAA GCCAGATAAT TTCTACTTGT CCACCTATGA CTCACCTGTG TGAAAAAATA 
ATCTCCACAC TGCCTTCCTG GAGAAAAATT AATGGGCCCA ACCAGCTGAT GTCCTTGCAG 
CAGTTTGTGT ATGATGTACA GGAACATCTT AATCCCTTAG CAAGCGAAAA TGATGTACGG 
CATATTGCAC AGCAGTTGCA TAGCACAGGA GAAATTAACA TTATGCAGAG TGAAACCGTC 
CAAGATGTTG TGCTTCTGGA TCCTCGCTGG CTCTGTTCTA ATGTCCTTGG AAAAATCTTG 
TCAGTGGAGA ACCCAAAAGC CCTCCATCAC TATAGAGGTC GGTACACCAT AGAGGACATC 
CAGCGTCTGG TGACAGATAG TGACGTGGAA GAACTGATAC AGATTTTGGA TGCCATGGAT 
ATTTGTGCAA GGGACCTTAG CAGTGGAGCA ATGGTGGATA TTCCTGCTCT CATAAAGACT 
GACAATCTTC ACAGGTCTTG GACAGATGAG GAGGATGAAG TGCTGATCTA TGGTGGTGTT 
AGAATCGTTC CTGTGGAACA TCTTACCCCA TTTCCTTGTG GAATTTTTCA TAAAGTTCAG 
GTGAATCTCT GCAGGTGGAT TCATCAGCAG AGCACAGAGG GAGATGCTGA TATACGTCTG 
TGGGTAAATG GATCAAAGAT TATGAATCGT GGAGCCGAGC TTTTAGTGCT GCTGGTTAAC 
CATGGGCAGG GTATAGAGGT TCAAGTTAGA GGACTGGAAA CAGAGAAGAT CAAGTGCTGC 
TTACTTCTGG ATTCTGTGTG CAGCACTATT GATAACTTAA TAGCAACAAC CTTACCTGGT 
CTTCTGACCG GGAAATATTA CCTTAGTCCT CAGCAGCTGA GGGAACACCA TGAACCAGTA 
ATGGTCTACC AGCCTAGAGA CTTTTTCCGT GCACAGAGTC AAAAGGAGAC ATCACTAACT 
AACACTATGG GGGGATATAA AGAGAGCTTT AGCAGTATAC TGTGTTTTGG GTGTCTTGAT 
GTTTACTCCC AGGGAAGCCT AGGAATGGAT ATTCATGTTT CTGATCTGAA TCTACTTACC 
AGGAGAAAAC TGAGTCGACT TTTGGATCCA CCTGATCCAA TGGGCAAAGA CTGGTGCCTT 
CTTGCCATGA ACTTGGGCCT CCCTGACCTT GTTGCAAAGT ATAATACAAA TAATGGAACA 
CAAAATTACT TTCTCTCAAG CCCAGTTCAT GCCCTTCTGC AGGAATGGAG TAATGCACCT 
GACAGCACTG TAGGCATACT AATGTCTAAG CTGAGGGAAT TAGGTCGCAG AGATGCAGCA 
GATTTCTTAC TGAAGGCATC TTCTGTATTC AAAATTAATT TAGATGCTAA TGGTCAAGAG 
GCTTATGCCT CCAGTTGCAA CAGTGGCACA TCTTACAACT CAATTAGTTC TGTAGTGTCA 
CGGTAA

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

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DAPK1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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