TNKS1BP1 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	TNKS1BP1
Entrez Gene ID	85456
Full Name	tankyrase 1 binding protein 1
Synonyms	TAB182
General protein information	Preferred Names tankyrase 1 binding protein 1 Names 182 kDa tankyrase-1-binding protein tankyrase 1 binding protein 1, 182kDa tankyrase 1-binding protein of 182 kDa testis secretory sperm-binding protein Li 206a
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 11 Map Location: 11q12.1
Disorder MIM:	607104

mRNA and Protein(s)

mRNA	Protein	Name
XM_011545325.2	XP_011543627.1	182 kDa tankyrase-1-binding protein isoform X2
NM_033396.3	NP_203754.2	182 kDa tankyrase-1-binding protein
XM_006718725.3	XP_006718788.1	182 kDa tankyrase-1-binding protein isoform X1
XM_011545325.3	XP_011543627.1	182 kDa tankyrase-1-binding protein isoform X2
NM_033396.2	NP_203754.2	182 kDa tankyrase-1-binding protein

Pathways from BioSystems

Homologies

Bos taurus (cattle)	TNKS1BP1	XP_002693759.2
Mus musculus (house mouse)	Tnks1bp1	NP_001074729.1
Homo sapiens (human)	TNKS1BP1	NP_203754.2
Canis lupus familiaris (dog)	TNKS1BP1	XP_005631265.1
Pan troglodytes (chimpanzee)	TNKS1BP1	XP_003954296.1
Rattus norvegicus (Norway rat)	Tnks1bp1	XP_006234549.1
	TNKS1BP1	XP_001093186.2

Gene Ontology
Bibliography

Related articles in PubMed

Tankyrase-Binding Protein TNKS1BP1 Regulates Actin Cytoskeleton Rearrangement and Cancer Cell Invasion.
Ohishi T, Yoshida H, Katori M, Migita T, Muramatsu Y, Miyake M, Ishikawa Y, Saiura A, Iemura SI, Natsume T, Seimiya H
Cancer research77(9)2328-2338(2017 May)

Overexpression of TNKS1BP1 in lung cancers and its involvement in homologous recombination pathway of DNA double-strand breaks.
Tan W, Guan H, Zou LH, Wang Y, Liu XD, Rang WQ, Zhou PK, Pei HD, Zhong CG
Cancer medicine6(2)483-493(2017 Feb)

TNKS1BP1 functions in DNA double-strand break repair though facilitating DNA-PKcs autophosphorylation dependent on PARP-1.
Zou LH, Shang ZF, Tan W, Liu XD, Xu QZ, Song M, Wang Y, Guan H, Zhang SM, Yu L, Zhong CG, Zhou PK
Oncotarget6(9)7011-22(2015 Mar)

E-cadherin interactome complexity and robustness resolved by quantitative proteomics.
Guo Z, Neilson LJ, Zhong H, Murray PS, Zanivan S, Zaidel-Bar R
Science signaling7(354)rs7(2014 Dec)

Human Ccr4-Not complexes contain variable deadenylase subunits.
Lau NC, Kolkman A, van Schaik FM, Mulder KW, Pijnappel WW, Heck AJ, Timmers HT
The Biochemical journal422(3)443-53(2009 Aug)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

In clinical samples of pancreatic cancer, TNKS1BP1 expression was reduced in invasive regions. We propose that the tankyrase-TNKS1BP1 axis constitutes a posttranslational modulator of cell invasion whose aberration promotes cancer malignancy
Title: Tankyrase-Binding Protein TNKS1BP1 Regulates Actin Cytoskeleton Rearrangement and Cancer Cell Invasion.

Results found that TNKS1BP1 was upregulated in human lung adenocarcinoma tissues, and regulates genome stability, mainly through affecting the homologous recombination pathway of DNA double-strand breaks. These results indicate that overexpression of TNKS1BP1 might affect the outcomes of lung cancer patients to chemotherapy and radiotherapy.
Title: Overexpression of TNKS1BP1 in lung cancers and its involvement in homologous recombination pathway of DNA double-strand breaks.

TNKS1BP1 has a role in DNA double-strand break repair though DNA-PKcs autophosphorylation which is dependent on PARP-1
Title: TNKS1BP1 functions in DNA double-strand break repair though facilitating DNA-PKcs autophosphorylation dependent on PARP-1.

TNKS-1 mRNA in urine sediment from patients with bladder TCC correlated with tumor stage, and higher preoperative levels were associated with increased risk of early recurrence.
Title: Tankyrase-1 mRNA expression in bladder cancer and paired urine sediment: preliminary experience.

We also demonstrate a requirement for tankyrase-1 in the assembly of bipolar spindles, and identify the spindle-pole protein NuMA as a substrate for covalent modification by tankyrase-1.
Title: Tankyrase-1 polymerization of poly(ADP-ribose) is required for spindle structure and function.

The following TNKS1BP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TNKS1BP1 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)
OHu05416	NM_033396.3 Latest version!	Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$659.50-$923.30 $1319.00
OHu05416	XM_006718725.3 Latest version!	Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$659.50-$923.30 $1319.00
OHu73995	XM_011545325.3 Latest version!	Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
View Old Accession Versions >>
OHu73995	XM_011545325.2	Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OHu05416	NM_033396.2	Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$659.50-$923.30 $1319.00
Hide Old Accession Versions >>

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** 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)

TNKS1BP1 ( NM_033396.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_203754.2 Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), mRNA.

Price & Availability↑

CloneID	OHu05416
Clone ID Related Accession (Same CDS sequence)	NM_033396.3 , XM_006718725.3 , NM_033396.2
Accession Version	NM_033396.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5190bp) 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	2019-06-07
Organism	Homo sapiens(human)
Product	182 kDa tankyrase-1-binding protein
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AP000781.6, CT003184.1, AB051528.2, AF441771.1 and AA614752.1. On Nov 23, 2018 this sequence version replaced NM_033396.2. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC150333.1, HM005619.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000358252.8/ ENSP00000350990.3 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGAAAGTGT CTACTCTCAG GGAAAGCTCA GCCATGGCTT CCCCACTGCC CCGGGAGATG 
GAGGAGGAGC TGGTGCCTAC TGGCTCTGAG CCAGGTGACA CTCGGGCCAA ACCCCCTGTC 
AAGCCCAAAC CCCGGGCCCT GCCTGCCAAG CCAGCCCTGC CTGCCAAACC CAGCCTGCTG 
GTGCCTGTTG GGCCTCGGCC TCCCCGGGGT CCCCTGGCTG AGTTGCCTTC TGCCAGGAAG 
ATGAACATGC TGGCAGGACC CCAGCCCTAT GGTGGCAGCA AGCGCCCCCT TCCCTTTGCA 
CCAAGGCCTG CGGTTGAGGC CTCCACTGGA GGAGAAGCCA CCCAAGAGAC TGGGAAAGAG 
GAGGCTGGGA AAGAGGAGCC ACCCCCTTTG ACACCCCCAG CTCGATGTGC AGCCCCAGGG 
GGTGTACGGA AGGCCCCTGC CCCTTTCCGC CCAGCCTCAG AGCGCTTCGC GGCCACCACG 
GTGGAAGAGA TCCTGGCCAA GATGGAGCAG CCTCGGAAGG AGGTCCTTGC CAGCCCCGAC 
CGCCTGTGGG GTTCCCGCCT CACCTTTAAC CACGATGGCA GCTCGCGATA TGGCCCCAGG 
ACCTATGGCA CGACCACTGC TCCCAGGGAT GAGGATGGCA GCACCCTCTT CAGGGGATGG 
TCCCAGGAGG GGCCAGTAAA GTCTCCAGCA GAGTGCCGGG AAGAGCACAG CAAGACCCCT 
GAGGAGAGGA GCCTTCCTTC CGACCTGGCC TTCAACGGGG ACCTGGCTAA GGCAGCCAGC 
TCGGAGCTAC CTGCTGATAT TTCCAAGCCC TGGATTCCCT CAAGTCCAGC CCCCTCCTCA 
GAGAATGGAG GCCCTGCCAG CCCAGGCCTC CCCGCAGAAG CCTCAGGCTC AGGCCCTGGC 
TCTCCCCATC TTCACCCGCC TGATAAGAGT TCTCCCTGCC ACTCACAGCT TCTGGAAGCC 
CAGACTCCTG AAGCTTCCCA GGCTTCTCCC TGCCCCGCTG TGACTCCATC AGCTCCAAGT 
GCAGCCCTGC CTGACGAGGG CTCCCGCCAC ACCCCCAGCC CGGGGCTCCC TGCCGAGGGG 
GCTCCAGAGG CCCCCAGACC CAGCAGCCCA CCCCCTGAGG TCTTGGAGCC CCATAGCCTG 
GATCAGCCCC CTGCCACCTC ACCCCGGCCC CTGATCGAGG TGGGTGAGTT GCTGGATCTC 
ACTCGGACGT TTCCATCTGG CGGGGAGGAG GAGGCCAAGG GTGACGCACA CCTCCGCCCC 
ACCAGCCTGG TTCAGCGCCG ATTCTCTGAA GGTGTGCTCC AGTCACCCAG TCAGGACCAG 
GAGAAGCTGG GGGGCTCGCT GGCTGCCCTG CCCCAAGGCC AGGGGAGCCA GTTGGCCCTG 
GATCGTCCCT TTGGGGCAGA GTCCAACTGG AGCTTATCAC AGTCCTTCGA ATGGACCTTC 
CCCACGAGGC CCTCGGGTCT GGGCGTGTGG CGGCTGGACT CCCCGCCTCC CTCCCCCATC 
ACTGAAGCCA GTGAGGCCGC CGAGGCTGCT GAGGCTGGCA ACTTGGCCGT TTCCAGCAGG 
GAAGAAGGAG TGTCTCAGCA GGGGCAAGGG GCTGGGTCAG CTCCAAGTGG GTCAGGAAGT 
TCCTGGGTGC AGGGGGATGA TCCAAGCATG TCCCTCACCC AGAAGGGCGA TGGGGAGAGT 
CAACCTCAAT TCCCAGCTGT TCCCCTTGAG CCCCTGCCTA CAACTGAGGG CACACCTGGA 
TTACCTTTGC AGCAGGCAGA GGAGAGATAC GAGTCGCAGG AGCCCTTGGC TGGACAGGAG 
TCCCCTCTCC CCCTGGCTAC CAGGGAGGCA GCCTTGCCCA TCCTGGAGCC AGTCCTGGGG 
CAGGAGCAGC CAGCAGCCCC TGACCAGCCC TGTGTTCTCT TTGCTGATGC CCCTGAGCCT 
GGACAGGCAC TGCCTGTTGA GGAGGAGGCC GTGACCCTAG CCCGGGCTGA GACCACCCAA 
GCCAGGACAG AGGCTCAAGA CTTGTGTAGG GCATCCCCCG AGCCTCCAGG CCCTGAAAGC 
AGCTCCCGCT GGCTGGACGA CCTCCTGGCT TCACCACCAC CCAGTGGTGG CGGTGCAAGG 
CGGGGAGCTG GAGCTGAGCT GAAGGACACA CAGTCCCCAA GTACCTGCTC TGAGGGACTC 
CTTGGCTGGT CCCAGAAAGA TCTGCAGAGT GAATTTGGGA TCACAGGAGA CCCACAGCCC 
AGCAGTTTCA GTCCTTCCAG CTGGTGTCAA GGTGCTTCTC AGGACTATGG CCTTGGGGGT 
GCAAGCCCTA GAGGAGACCC AGGTCTCGGA GAGAGGGACT GGACCAGCAA GTATGGGCAA 
GGAGCAGGGG AAGGGAGCAC CAGGGAGTGG GCCAGCAGGT GTGGCATCGG CCAGGAGGAG 
ATGGAGGCCA GCAGCAGCCA AGACCAGAGT AAAGTGTCTG CCCCAGGGGT GCTCACAGCC 
CAGGACCGGG TAGTTGGAAA GCCAGCCCAG CTTGGCACTC AGCGGAGCCA GGAGGCAGAT 
GTTCAGGACT GGGAGTTCAG AAAGAGGGAT TCCCAGGGCA CTTACTCCAG CCGGGATGCA 
GAACTCCAGG ACCAGGAATT CGGAAAGAGA GATTCACTGG GTACCTACAG TAGTCGAGAT 
GTAAGCCTTG GGGACTGGGA ATTTGGGAAG AGAGATTCTC TGGGTGCTTA TGCCAGCCAA 
GATGCCAACG AGCAGGGCCA AGATTTGGGG AAGAGGGACC ACCATGGTAG GTACAGCAGC 
CAGGATGCCG ATGAGCAGGA CTGGGAGTTT CAGAAGAGAG ATGTGTCACT CGGCACCTAT 
GGCAGCCGGG CTGCGGAGCC ACAGGAACAG GAGTTTGGGA AGAGCGCTTG GATAAGGGAC 
TACAGCAGTG GTGGCAGCTC CAGGACCCTT GACGCCCAGG ACAGAAGCTT TGGAACGAGA 
CCCCTGAGCT CTGGGTTCAG CCCCGAGGAA GCCCAGCAAC AGGATGAGGA ATTTGAGAAG 
AAGATTCCAA GTGTGGAAGA CAGCCTTGGA GAGGGCAGCA GGGATGCTGG CCGGCCAGGA 
GAGAGAGGAT CCGGGGGCTT GTTCAGTCCT AGCACTGCCC ACGTGCCGGA TGGGGCACTC 
GGGCAGAGAG ACCAGAGCAG CTGGCAAAAC AGTGATGCTA GCCAGGAGGT GGGAGGGCAT 
CAGGAGAGAC AGCAGGCAGG GGCTCAGGGC CCTGGCAGTG CTGACCTGGA AGATGGGGAG 
ATGGGAAAGC GAGGCTGGGT CGGTGAGTTT AGCCTCAGTG TTGGCCCCCA GCGAGAGGCA 
GCATTTAGCC CAGGGCAGCA GGACTGGAGC CGGGACTTCT GCATCGAGGC CAGTGAGAGG 
AGCTATCAGT TTGGCATCAT TGGCAACGAC AGAGTGAGTG GTGCTGGCTT TAGCCCTTCT 
AGCAAGATGG AAGGTGGTCA CTTTGTGCCT CCTGGGAAGA CCACAGCTGG CTCGGTGGAC 
TGGACTGACC AGCTGGGTCT CAGGAACTTG GAAGTGTCCA GCTGTGTGGG TTCTGGGGGC 
TCGAGCGAGG CCAGGGAGAG TGCCGTGGGA CAGATGGGCT GGTCAGGTGG CCTGAGCTTG 
AGAGACATGA ACCTGACCGG CTGTTTGGAA AGTGGAGGGT CTGAAGAGCC GGGGGGAATC 
GGAGTTGGGG AGAAGGACTG GACTTCTGAT GTTAATGTGA AGAGCAAAGA TTTGGCTGAG 
GTCGGGGAGG GAGGAGGCCA CAGCCAGGCC AGAGAGAGTG GCGTGGGGCA GACTGACTGG 
TCAGGTGTGG AGGCCGGAGA GTTCCTTAAA TCAAGGGAGC GTGGAGTTGG ACAGGCAGAC 
TGGACACCTG ACCTTGGGCT GAGAAACATG GCCCCAGGGG CAGTCTGCAG TCCTGGAGAG 
TCCAAAGAGC TTGGGGTGGG CCAGATGGAC TGGGGTAACA ATCTGGGCCT GAGGGATTTG 
GAGGTGACCT GTGACCCAGA CTCTGGAGGT TCTCAGGGGC TACGGGGATG TGGAGTGGGG 
CAGATGGACT GGACCCAGGA CTTGGCGCCC CAGAATGTGG AGCTCTTTGG GGCTCCAAGT 
GAAGCCAGGG AGCATGGGGT GGGCGGGGTG AGCCAGTGCC CAGAGCCCGG CCTGAGGCAC 
AATGGCAGCT TGTCTCCTGG CCTGGAGGCC AGAGACCCCT TGGAGGCCAG GGAGCTGGGG 
GTTGGTGAGA CAAGTGGGCC AGAGACCCAG GGTGAAGATT ACTCCTCGTC TTCCTTGGAG 
CCACACCCTG CAGACCCTGG AATGGAGACA GGAGAAGCCC TCAGCTTCGG AGCAAGCCCT 
GGCAGGTGCC CGGCCCGCCC CCCACCCTCC GGCTCCCAGG GCCTGCTGGA GGAGATGCTG 
GCAGCCAGCA GCTCCAAGGC GGTGGCTCGG AGGGAGTCAG CGGCCTCGGG CCTTGGGGGC 
CTGTTGGAGG AGGAAGGAGC CGGGGCAGGT GCTGCCCAAG AGGAGGTGCT GGAGCCTGGC 
AGGGACTCTC CACCCTCCTG GAGGCCGCAG CCTGATGGTG AGGCCAGCCA GACAGAAGAC 
GTGGATGGCA CCTGGGGCTC TTCAGCAGCC AGGTGGAGCG ATCAGGGGCC AGCACAGACT 
TCTCGGCGAC CCTCCCAAGG CCCTCCTGCC AGATCCCCCA GTCAGGACTT CTCCTTCATT 
GAGGACACCG AGATCCTCGA CAGTGCCATG TATCGGAGCC GTGCCAACTT GGGGCGCAAG 
CGTGGGCACC GGGCCCCGGT CATTCGGCCT GGGGGTACCT TGGGCCTGTC GGAGGCAGCA 
GACTCGGATG CACACCTGTT CCAGGACTCT ACAGAGCCAC GGGCATCTCG GGTGCCATCT 
TCAGATGAAG AGGTAGTGGA GGAACCTCAG AGCCGCCGGA CACGGATGTC GTTGGGCACC 
AAGGGGCTGA AAGTCAACCT CTTTCCTGGC CTGAGCCCCT CAGCCCTGAA GGCCAAGCTG 
CGCCCCCGGA ATCGCTCAGC TGAGGAGGGA GAGCTGGCTG AGAGCAAGTC GAGCCAGAAG 
GAGTCCGCGG TCCAGCGTTC GAAATCCTGC AAGGTCCCAG GACTGGGAAA GCCCCTCACG 
TTACCTCCCA AGCCAGAGAA ATCCTCAGGG TCAGAAGGAT CGTCGCCCAA CTGGCTTCAA 
GCCCTGAAAC TGAAGAAGAA GAAGGTCTGA

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

RefSeq	NP_203754.2
CDS	179..5368
Translation	MKVSTLRESSAMASPLPREMEEELVPTGSEPGDTRAKPPVKPKPRALPAKPALPAKPSLLVPVGPRPPRGPLAELPSARKMNMLAGPQPYGGSKRPLPFAPRPAVEASTGGEATQETGKEEAGKEEPPPLTPPARCAAPGGVRKAPAPFRPASERFAATTVEEILAKMEQPRKEVLASPDRLWGSRLTFNHDGSSRYGPRTYGTTTAPRDEDGSTLFRGWSQEGPVKSPAECREEHSKTPEERSLPSDLAFNGDLAKAASSELPADISKPWIPSSPAPSSENGGPASPGLPAEASGSGPGSPHLHPPDKSSPCHSQLLEAQTPEASQASPCPAVTPSAPSAALPDEGSRHTPSPGLPAEGAPEAPRPSSPPPEVLEPHSLDQPPATSPRPLIEVGELLDLTRTFPSGGEEEAKGDAHLRPTSLVQRRFSEGVLQSPSQDQEKLGGSLAALPQGQGSQLALDRPFGAESNWSLSQSFEWTFPTRPSGLGVWRLDSPPPSPITEASEAAEAAEAGNLAVSSREEGVSQQGQGAGSAPSGSGSSWVQGDDPSMSLTQKGDGESQPQFPAVPLEPLPTTEGTPGLPLQQAEERYESQEPLAGQESPLPLATREAALPILEPVLGQEQPAAPDQPCVLFADAPEPGQALPVEEEAVTLARAETTQARTEAQDLCRASPEPPGPESSSRWLDDLLASPPPSGGGARRGAGAELKDTQSPSTCSEGLLGWSQKDLQSEFGITGDPQPSSFSPSSWCQGASQDYGLGGASPRGDPGLGERDWTSKYGQGAGEGSTREWASRCGIGQEEMEASSSQDQSKVSAPGVLTAQDRVVGKPAQLGTQRSQEADVQDWEFRKRDSQGTYSSRDAELQDQEFGKRDSLGTYSSRDVSLGDWEFGKRDSLGAYASQDANEQGQDLGKRDHHGRYSSQDADEQDWEFQKRDVSLGTYGSRAAEPQEQEFGKSAWIRDYSSGGSSRTLDAQDRSFGTRPLSSGFSPEEAQQQDEEFEKKIPSVEDSLGEGSRDAGRPGERGSGGLFSPSTAHVPDGALGQRDQSSWQNSDASQEVGGHQERQQAGAQGPGSADLEDGEMGKRGWVGEFSLSVGPQREAAFSPGQQDWSRDFCIEASERSYQFGIIGNDRVSGAGFSPSSKMEGGHFVPPGKTTAGSVDWTDQLGLRNLEVSSCVGSGGSSEARESAVGQMGWSGGLSLRDMNLTGCLESGGSEEPGGIGVGEKDWTSDVNVKSKDLAEVGEGGGHSQARESGVGQTDWSGVEAGEFLKSRERGVGQADWTPDLGLRNMAPGAVCSPGESKELGVGQMDWGNNLGLRDLEVTCDPDSGGSQGLRGCGVGQMDWTQDLAPQNVELFGAPSEAREHGVGGVSQCPEPGLRHNGSLSPGLEARDPLEARELGVGETSGPETQGEDYSSSSLEPHPADPGMETGEALSFGASPGRCPARPPPSGSQGLLEEMLAASSSKAVARRESAASGLGGLLEEEGAGAGAAQEEVLEPGRDSPPSWRPQPDGEASQTEDVDGTWGSSAARWSDQGPAQTSRRPSQGPPARSPSQDFSFIEDTEILDSAMYRSRANLGRKRGHRAPVIRPGGTLGLSEAADSDAHLFQDSTEPRASRVPSSDEEVVEEPQSRRTRMSLGTKGLKVNLFPGLSPSALKAKLRPRNRSAEEGELAESKSSQKESAVQRSKSCKVPGLGKPLTLPPKPEKSSGSEGSSPNWLQALKLKKKKV

Target ORF information:

RefSeq Version	NM_033396.3
Organism	Homo sapiens(human)
Definition	Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), mRNA.

Target ORF information:

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

NM_033396.3

ORF Insert Sequence:

ATGAAAGTGT CTACTCTCAG GGAAAGCTCA GCCATGGCTT CCCCACTGCC CCGGGAGATG 
GAGGAGGAGC TGGTGCCTAC TGGCTCTGAG CCAGGTGACA CTCGGGCCAA ACCCCCTGTC 
AAGCCCAAAC CCCGGGCCCT GCCTGCCAAG CCAGCCCTGC CTGCCAAACC CAGCCTGCTG 
GTGCCTGTTG GGCCTCGGCC TCCCCGGGGT CCCCTGGCTG AGTTGCCTTC TGCCAGGAAG 
ATGAACATGC TGGCAGGACC CCAGCCCTAT GGTGGCAGCA AGCGCCCCCT TCCCTTTGCA 
CCAAGGCCTG CGGTTGAGGC CTCCACTGGA GGAGAAGCCA CCCAAGAGAC TGGGAAAGAG 
GAGGCTGGGA AAGAGGAGCC ACCCCCTTTG ACACCCCCAG CTCGATGTGC AGCCCCAGGG 
GGTGTACGGA AGGCCCCTGC CCCTTTCCGC CCAGCCTCAG AGCGCTTCGC GGCCACCACG 
GTGGAAGAGA TCCTGGCCAA GATGGAGCAG CCTCGGAAGG AGGTCCTTGC CAGCCCCGAC 
CGCCTGTGGG GTTCCCGCCT CACCTTTAAC CACGATGGCA GCTCGCGATA TGGCCCCAGG 
ACCTATGGCA CGACCACTGC TCCCAGGGAT GAGGATGGCA GCACCCTCTT CAGGGGATGG 
TCCCAGGAGG GGCCAGTAAA GTCTCCAGCA GAGTGCCGGG AAGAGCACAG CAAGACCCCT 
GAGGAGAGGA GCCTTCCTTC CGACCTGGCC TTCAACGGGG ACCTGGCTAA GGCAGCCAGC 
TCGGAGCTAC CTGCTGATAT TTCCAAGCCC TGGATTCCCT CAAGTCCAGC CCCCTCCTCA 
GAGAATGGAG GCCCTGCCAG CCCAGGCCTC CCCGCAGAAG CCTCAGGCTC AGGCCCTGGC 
TCTCCCCATC TTCACCCGCC TGATAAGAGT TCTCCCTGCC ACTCACAGCT TCTGGAAGCC 
CAGACTCCTG AAGCTTCCCA GGCTTCTCCC TGCCCCGCTG TGACTCCATC AGCTCCAAGT 
GCAGCCCTGC CTGACGAGGG CTCCCGCCAC ACCCCCAGCC CGGGGCTCCC TGCCGAGGGG 
GCTCCAGAGG CCCCCAGACC CAGCAGCCCA CCCCCTGAGG TCTTGGAGCC CCATAGCCTG 
GATCAGCCCC CTGCCACCTC ACCCCGGCCC CTGATCGAGG TGGGTGAGTT GCTGGATCTC 
ACTCGGACGT TTCCATCTGG CGGGGAGGAG GAGGCCAAGG GTGACGCACA CCTCCGCCCC 
ACCAGCCTGG TTCAGCGCCG ATTCTCTGAA GGTGTGCTCC AGTCACCCAG TCAGGACCAG 
GAGAAGCTGG GGGGCTCGCT GGCTGCCCTG CCCCAAGGCC AGGGGAGCCA GTTGGCCCTG 
GATCGTCCCT TTGGGGCAGA GTCCAACTGG AGCTTATCAC AGTCCTTCGA ATGGACCTTC 
CCCACGAGGC CCTCGGGTCT GGGCGTGTGG CGGCTGGACT CCCCGCCTCC CTCCCCCATC 
ACTGAAGCCA GTGAGGCCGC CGAGGCTGCT GAGGCTGGCA ACTTGGCCGT TTCCAGCAGG 
GAAGAAGGAG TGTCTCAGCA GGGGCAAGGG GCTGGGTCAG CTCCAAGTGG GTCAGGAAGT 
TCCTGGGTGC AGGGGGATGA TCCAAGCATG TCCCTCACCC AGAAGGGCGA TGGGGAGAGT 
CAACCTCAAT TCCCAGCTGT TCCCCTTGAG CCCCTGCCTA CAACTGAGGG CACACCTGGA 
TTACCTTTGC AGCAGGCAGA GGAGAGATAC GAGTCGCAGG AGCCCTTGGC TGGACAGGAG 
TCCCCTCTCC CCCTGGCTAC CAGGGAGGCA GCCTTGCCCA TCCTGGAGCC AGTCCTGGGG 
CAGGAGCAGC CAGCAGCCCC TGACCAGCCC TGTGTTCTCT TTGCTGATGC CCCTGAGCCT 
GGACAGGCAC TGCCTGTTGA GGAGGAGGCC GTGACCCTAG CCCGGGCTGA GACCACCCAA 
GCCAGGACAG AGGCTCAAGA CTTGTGTAGG GCATCCCCCG AGCCTCCAGG CCCTGAAAGC 
AGCTCCCGCT GGCTGGACGA CCTCCTGGCT TCACCACCAC CCAGTGGTGG CGGTGCAAGG 
CGGGGAGCTG GAGCTGAGCT GAAGGACACA CAGTCCCCAA GTACCTGCTC TGAGGGACTC 
CTTGGCTGGT CCCAGAAAGA TCTGCAGAGT GAATTTGGGA TCACAGGAGA CCCACAGCCC 
AGCAGTTTCA GTCCTTCCAG CTGGTGTCAA GGTGCTTCTC AGGACTATGG CCTTGGGGGT 
GCAAGCCCTA GAGGAGACCC AGGTCTCGGA GAGAGGGACT GGACCAGCAA GTATGGGCAA 
GGAGCAGGGG AAGGGAGCAC CAGGGAGTGG GCCAGCAGGT GTGGCATCGG CCAGGAGGAG 
ATGGAGGCCA GCAGCAGCCA AGACCAGAGT AAAGTGTCTG CCCCAGGGGT GCTCACAGCC 
CAGGACCGGG TAGTTGGAAA GCCAGCCCAG CTTGGCACTC AGCGGAGCCA GGAGGCAGAT 
GTTCAGGACT GGGAGTTCAG AAAGAGGGAT TCCCAGGGCA CTTACTCCAG CCGGGATGCA 
GAACTCCAGG ACCAGGAATT CGGAAAGAGA GATTCACTGG GTACCTACAG TAGTCGAGAT 
GTAAGCCTTG GGGACTGGGA ATTTGGGAAG AGAGATTCTC TGGGTGCTTA TGCCAGCCAA 
GATGCCAACG AGCAGGGCCA AGATTTGGGG AAGAGGGACC ACCATGGTAG GTACAGCAGC 
CAGGATGCCG ATGAGCAGGA CTGGGAGTTT CAGAAGAGAG ATGTGTCACT CGGCACCTAT 
GGCAGCCGGG CTGCGGAGCC ACAGGAACAG GAGTTTGGGA AGAGCGCTTG GATAAGGGAC 
TACAGCAGTG GTGGCAGCTC CAGGACCCTT GACGCCCAGG ACAGAAGCTT TGGAACGAGA 
CCCCTGAGCT CTGGGTTCAG CCCCGAGGAA GCCCAGCAAC AGGATGAGGA ATTTGAGAAG 
AAGATTCCAA GTGTGGAAGA CAGCCTTGGA GAGGGCAGCA GGGATGCTGG CCGGCCAGGA 
GAGAGAGGAT CCGGGGGCTT GTTCAGTCCT AGCACTGCCC ACGTGCCGGA TGGGGCACTC 
GGGCAGAGAG ACCAGAGCAG CTGGCAAAAC AGTGATGCTA GCCAGGAGGT GGGAGGGCAT 
CAGGAGAGAC AGCAGGCAGG GGCTCAGGGC CCTGGCAGTG CTGACCTGGA AGATGGGGAG 
ATGGGAAAGC GAGGCTGGGT CGGTGAGTTT AGCCTCAGTG TTGGCCCCCA GCGAGAGGCA 
GCATTTAGCC CAGGGCAGCA GGACTGGAGC CGGGACTTCT GCATCGAGGC CAGTGAGAGG 
AGCTATCAGT TTGGCATCAT TGGCAACGAC AGAGTGAGTG GTGCTGGCTT TAGCCCTTCT 
AGCAAGATGG AAGGTGGTCA CTTTGTGCCT CCTGGGAAGA CCACAGCTGG CTCGGTGGAC 
TGGACTGACC AGCTGGGTCT CAGGAACTTG GAAGTGTCCA GCTGTGTGGG TTCTGGGGGC 
TCGAGCGAGG CCAGGGAGAG TGCCGTGGGA CAGATGGGCT GGTCAGGTGG CCTGAGCTTG 
AGAGACATGA ACCTGACCGG CTGTTTGGAA AGTGGAGGGT CTGAAGAGCC GGGGGGAATC 
GGAGTTGGGG AGAAGGACTG GACTTCTGAT GTTAATGTGA AGAGCAAAGA TTTGGCTGAG 
GTCGGGGAGG GAGGAGGCCA CAGCCAGGCC AGAGAGAGTG GCGTGGGGCA GACTGACTGG 
TCAGGTGTGG AGGCCGGAGA GTTCCTTAAA TCAAGGGAGC GTGGAGTTGG ACAGGCAGAC 
TGGACACCTG ACCTTGGGCT GAGAAACATG GCCCCAGGGG CAGTCTGCAG TCCTGGAGAG 
TCCAAAGAGC TTGGGGTGGG CCAGATGGAC TGGGGTAACA ATCTGGGCCT GAGGGATTTG 
GAGGTGACCT GTGACCCAGA CTCTGGAGGT TCTCAGGGGC TACGGGGATG TGGAGTGGGG 
CAGATGGACT GGACCCAGGA CTTGGCGCCC CAGAATGTGG AGCTCTTTGG GGCTCCAAGT 
GAAGCCAGGG AGCATGGGGT GGGCGGGGTG AGCCAGTGCC CAGAGCCCGG CCTGAGGCAC 
AATGGCAGCT TGTCTCCTGG CCTGGAGGCC AGAGACCCCT TGGAGGCCAG GGAGCTGGGG 
GTTGGTGAGA CAAGTGGGCC AGAGACCCAG GGTGAAGATT ACTCCTCGTC TTCCTTGGAG 
CCACACCCTG CAGACCCTGG AATGGAGACA GGAGAAGCCC TCAGCTTCGG AGCAAGCCCT 
GGCAGGTGCC CGGCCCGCCC CCCACCCTCC GGCTCCCAGG GCCTGCTGGA GGAGATGCTG 
GCAGCCAGCA GCTCCAAGGC GGTGGCTCGG AGGGAGTCAG CGGCCTCGGG CCTTGGGGGC 
CTGTTGGAGG AGGAAGGAGC CGGGGCAGGT GCTGCCCAAG AGGAGGTGCT GGAGCCTGGC 
AGGGACTCTC CACCCTCCTG GAGGCCGCAG CCTGATGGTG AGGCCAGCCA GACAGAAGAC 
GTGGATGGCA CCTGGGGCTC TTCAGCAGCC AGGTGGAGCG ATCAGGGGCC AGCACAGACT 
TCTCGGCGAC CCTCCCAAGG CCCTCCTGCC AGATCCCCCA GTCAGGACTT CTCCTTCATT 
GAGGACACCG AGATCCTCGA CAGTGCCATG TATCGGAGCC GTGCCAACTT GGGGCGCAAG 
CGTGGGCACC GGGCCCCGGT CATTCGGCCT GGGGGTACCT TGGGCCTGTC GGAGGCAGCA 
GACTCGGATG CACACCTGTT CCAGGACTCT ACAGAGCCAC GGGCATCTCG GGTGCCATCT 
TCAGATGAAG AGGTAGTGGA GGAACCTCAG AGCCGCCGGA CACGGATGTC GTTGGGCACC 
AAGGGGCTGA AAGTCAACCT CTTTCCTGGC CTGAGCCCCT CAGCCCTGAA GGCCAAGCTG 
CGCCCCCGGA ATCGCTCAGC TGAGGAGGGA GAGCTGGCTG AGAGCAAGTC GAGCCAGAAG 
GAGTCCGCGG TCCAGCGTTC GAAATCCTGC AAGGTCCCAG GACTGGGAAA GCCCCTCACG 
TTACCTCCCA AGCCAGAGAA ATCCTCAGGG TCAGAAGGAT CGTCGCCCAA CTGGCTTCAA 
GCCCTGAAAC TGAAGAAGAA GAAGGTCTGA

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

TNKS1BP1 ( NM_033396.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_203754.2 Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), mRNA.

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CloneID	OHu05416
Clone ID Related Accession (Same CDS sequence)	NM_033396.3 , XM_006718725.3 , NM_033396.2
Accession Version	NM_033396.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5190bp) 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	2017-11-19
Organism	Homo sapiens(human)
Product	182 kDa tankyrase-1-binding protein
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from CT003184.1, AB051528.2, AF441771.1 and AA614752.1. On Jul 19, 2006 this sequence version replaced NM_033396.1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: HM005619.1, BC150333.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAAAGTGT CTACTCTCAG GGAAAGCTCA GCCATGGCTT CCCCACTGCC CCGGGAGATG 
GAGGAGGAGC TGGTGCCTAC TGGCTCTGAG CCAGGTGACA CTCGGGCCAA ACCCCCTGTC 
AAGCCCAAAC CCCGGGCCCT GCCTGCCAAG CCAGCCCTGC CTGCCAAACC CAGCCTGCTG 
GTGCCTGTTG GGCCTCGGCC TCCCCGGGGT CCCCTGGCTG AGTTGCCTTC TGCCAGGAAG 
ATGAACATGC TGGCAGGACC CCAGCCCTAT GGTGGCAGCA AGCGCCCCCT TCCCTTTGCA 
CCAAGGCCTG CGGTTGAGGC CTCCACTGGA GGAGAAGCCA CCCAAGAGAC TGGGAAAGAG 
GAGGCTGGGA AAGAGGAGCC ACCCCCTTTG ACACCCCCAG CTCGATGTGC AGCCCCAGGG 
GGTGTACGGA AGGCCCCTGC CCCTTTCCGC CCAGCCTCAG AGCGCTTCGC GGCCACCACG 
GTGGAAGAGA TCCTGGCCAA GATGGAGCAG CCTCGGAAGG AGGTCCTTGC CAGCCCCGAC 
CGCCTGTGGG GTTCCCGCCT CACCTTTAAC CACGATGGCA GCTCGCGATA TGGCCCCAGG 
ACCTATGGCA CGACCACTGC TCCCAGGGAT GAGGATGGCA GCACCCTCTT CAGGGGATGG 
TCCCAGGAGG GGCCAGTAAA GTCTCCAGCA GAGTGCCGGG AAGAGCACAG CAAGACCCCT 
GAGGAGAGGA GCCTTCCTTC CGACCTGGCC TTCAACGGGG ACCTGGCTAA GGCAGCCAGC 
TCGGAGCTAC CTGCTGATAT TTCCAAGCCC TGGATTCCCT CAAGTCCAGC CCCCTCCTCA 
GAGAATGGAG GCCCTGCCAG CCCAGGCCTC CCCGCAGAAG CCTCAGGCTC AGGCCCTGGC 
TCTCCCCATC TTCACCCGCC TGATAAGAGT TCTCCCTGCC ACTCACAGCT TCTGGAAGCC 
CAGACTCCTG AAGCTTCCCA GGCTTCTCCC TGCCCCGCTG TGACTCCATC AGCTCCAAGT 
GCAGCCCTGC CTGACGAGGG CTCCCGCCAC ACCCCCAGCC CGGGGCTCCC TGCCGAGGGG 
GCTCCAGAGG CCCCCAGACC CAGCAGCCCA CCCCCTGAGG TCTTGGAGCC CCATAGCCTG 
GATCAGCCCC CTGCCACCTC ACCCCGGCCC CTGATCGAGG TGGGTGAGTT GCTGGATCTC 
ACTCGGACGT TTCCATCTGG CGGGGAGGAG GAGGCCAAGG GTGACGCACA CCTCCGCCCC 
ACCAGCCTGG TTCAGCGCCG ATTCTCTGAA GGTGTGCTCC AGTCACCCAG TCAGGACCAG 
GAGAAGCTGG GGGGCTCGCT GGCTGCCCTG CCCCAAGGCC AGGGGAGCCA GTTGGCCCTG 
GATCGTCCCT TTGGGGCAGA GTCCAACTGG AGCTTATCAC AGTCCTTCGA ATGGACCTTC 
CCCACGAGGC CCTCGGGTCT GGGCGTGTGG CGGCTGGACT CCCCGCCTCC CTCCCCCATC 
ACTGAAGCCA GTGAGGCCGC CGAGGCTGCT GAGGCTGGCA ACTTGGCCGT TTCCAGCAGG 
GAAGAAGGAG TGTCTCAGCA GGGGCAAGGG GCTGGGTCAG CTCCAAGTGG GTCAGGAAGT 
TCCTGGGTGC AGGGGGATGA TCCAAGCATG TCCCTCACCC AGAAGGGCGA TGGGGAGAGT 
CAACCTCAAT TCCCAGCTGT TCCCCTTGAG CCCCTGCCTA CAACTGAGGG CACACCTGGA 
TTACCTTTGC AGCAGGCAGA GGAGAGATAC GAGTCGCAGG AGCCCTTGGC TGGACAGGAG 
TCCCCTCTCC CCCTGGCTAC CAGGGAGGCA GCCTTGCCCA TCCTGGAGCC AGTCCTGGGG 
CAGGAGCAGC CAGCAGCCCC TGACCAGCCC TGTGTTCTCT TTGCTGATGC CCCTGAGCCT 
GGACAGGCAC TGCCTGTTGA GGAGGAGGCC GTGACCCTAG CCCGGGCTGA GACCACCCAA 
GCCAGGACAG AGGCTCAAGA CTTGTGTAGG GCATCCCCCG AGCCTCCAGG CCCTGAAAGC 
AGCTCCCGCT GGCTGGACGA CCTCCTGGCT TCACCACCAC CCAGTGGTGG CGGTGCAAGG 
CGGGGAGCTG GAGCTGAGCT GAAGGACACA CAGTCCCCAA GTACCTGCTC TGAGGGACTC 
CTTGGCTGGT CCCAGAAAGA TCTGCAGAGT GAATTTGGGA TCACAGGAGA CCCACAGCCC 
AGCAGTTTCA GTCCTTCCAG CTGGTGTCAA GGTGCTTCTC AGGACTATGG CCTTGGGGGT 
GCAAGCCCTA GAGGAGACCC AGGTCTCGGA GAGAGGGACT GGACCAGCAA GTATGGGCAA 
GGAGCAGGGG AAGGGAGCAC CAGGGAGTGG GCCAGCAGGT GTGGCATCGG CCAGGAGGAG 
ATGGAGGCCA GCAGCAGCCA AGACCAGAGT AAAGTGTCTG CCCCAGGGGT GCTCACAGCC 
CAGGACCGGG TAGTTGGAAA GCCAGCCCAG CTTGGCACTC AGCGGAGCCA GGAGGCAGAT 
GTTCAGGACT GGGAGTTCAG AAAGAGGGAT TCCCAGGGCA CTTACTCCAG CCGGGATGCA 
GAACTCCAGG ACCAGGAATT CGGAAAGAGA GATTCACTGG GTACCTACAG TAGTCGAGAT 
GTAAGCCTTG GGGACTGGGA ATTTGGGAAG AGAGATTCTC TGGGTGCTTA TGCCAGCCAA 
GATGCCAACG AGCAGGGCCA AGATTTGGGG AAGAGGGACC ACCATGGTAG GTACAGCAGC 
CAGGATGCCG ATGAGCAGGA CTGGGAGTTT CAGAAGAGAG ATGTGTCACT CGGCACCTAT 
GGCAGCCGGG CTGCGGAGCC ACAGGAACAG GAGTTTGGGA AGAGCGCTTG GATAAGGGAC 
TACAGCAGTG GTGGCAGCTC CAGGACCCTT GACGCCCAGG ACAGAAGCTT TGGAACGAGA 
CCCCTGAGCT CTGGGTTCAG CCCCGAGGAA GCCCAGCAAC AGGATGAGGA ATTTGAGAAG 
AAGATTCCAA GTGTGGAAGA CAGCCTTGGA GAGGGCAGCA GGGATGCTGG CCGGCCAGGA 
GAGAGAGGAT CCGGGGGCTT GTTCAGTCCT AGCACTGCCC ACGTGCCGGA TGGGGCACTC 
GGGCAGAGAG ACCAGAGCAG CTGGCAAAAC AGTGATGCTA GCCAGGAGGT GGGAGGGCAT 
CAGGAGAGAC AGCAGGCAGG GGCTCAGGGC CCTGGCAGTG CTGACCTGGA AGATGGGGAG 
ATGGGAAAGC GAGGCTGGGT CGGTGAGTTT AGCCTCAGTG TTGGCCCCCA GCGAGAGGCA 
GCATTTAGCC CAGGGCAGCA GGACTGGAGC CGGGACTTCT GCATCGAGGC CAGTGAGAGG 
AGCTATCAGT TTGGCATCAT TGGCAACGAC AGAGTGAGTG GTGCTGGCTT TAGCCCTTCT 
AGCAAGATGG AAGGTGGTCA CTTTGTGCCT CCTGGGAAGA CCACAGCTGG CTCGGTGGAC 
TGGACTGACC AGCTGGGTCT CAGGAACTTG GAAGTGTCCA GCTGTGTGGG TTCTGGGGGC 
TCGAGCGAGG CCAGGGAGAG TGCCGTGGGA CAGATGGGCT GGTCAGGTGG CCTGAGCTTG 
AGAGACATGA ACCTGACCGG CTGTTTGGAA AGTGGAGGGT CTGAAGAGCC GGGGGGAATC 
GGAGTTGGGG AGAAGGACTG GACTTCTGAT GTTAATGTGA AGAGCAAAGA TTTGGCTGAG 
GTCGGGGAGG GAGGAGGCCA CAGCCAGGCC AGAGAGAGTG GCGTGGGGCA GACTGACTGG 
TCAGGTGTGG AGGCCGGAGA GTTCCTTAAA TCAAGGGAGC GTGGAGTTGG ACAGGCAGAC 
TGGACACCTG ACCTTGGGCT GAGAAACATG GCCCCAGGGG CAGTCTGCAG TCCTGGAGAG 
TCCAAAGAGC TTGGGGTGGG CCAGATGGAC TGGGGTAACA ATCTGGGCCT GAGGGATTTG 
GAGGTGACCT GTGACCCAGA CTCTGGAGGT TCTCAGGGGC TACGGGGATG TGGAGTGGGG 
CAGATGGACT GGACCCAGGA CTTGGCGCCC CAGAATGTGG AGCTCTTTGG GGCTCCAAGT 
GAAGCCAGGG AGCATGGGGT GGGCGGGGTG AGCCAGTGCC CAGAGCCCGG CCTGAGGCAC 
AATGGCAGCT TGTCTCCTGG CCTGGAGGCC AGAGACCCCT TGGAGGCCAG GGAGCTGGGG 
GTTGGTGAGA CAAGTGGGCC AGAGACCCAG GGTGAAGATT ACTCCTCGTC TTCCTTGGAG 
CCACACCCTG CAGACCCTGG AATGGAGACA GGAGAAGCCC TCAGCTTCGG AGCAAGCCCT 
GGCAGGTGCC CGGCCCGCCC CCCACCCTCC GGCTCCCAGG GCCTGCTGGA GGAGATGCTG 
GCAGCCAGCA GCTCCAAGGC GGTGGCTCGG AGGGAGTCAG CGGCCTCGGG CCTTGGGGGC 
CTGTTGGAGG AGGAAGGAGC CGGGGCAGGT GCTGCCCAAG AGGAGGTGCT GGAGCCTGGC 
AGGGACTCTC CACCCTCCTG GAGGCCGCAG CCTGATGGTG AGGCCAGCCA GACAGAAGAC 
GTGGATGGCA CCTGGGGCTC TTCAGCAGCC AGGTGGAGCG ATCAGGGGCC AGCACAGACT 
TCTCGGCGAC CCTCCCAAGG CCCTCCTGCC AGATCCCCCA GTCAGGACTT CTCCTTCATT 
GAGGACACCG AGATCCTCGA CAGTGCCATG TATCGGAGCC GTGCCAACTT GGGGCGCAAG 
CGTGGGCACC GGGCCCCGGT CATTCGGCCT GGGGGTACCT TGGGCCTGTC GGAGGCAGCA 
GACTCGGATG CACACCTGTT CCAGGACTCT ACAGAGCCAC GGGCATCTCG GGTGCCATCT 
TCAGATGAAG AGGTAGTGGA GGAACCTCAG AGCCGCCGGA CACGGATGTC GTTGGGCACC 
AAGGGGCTGA AAGTCAACCT CTTTCCTGGC CTGAGCCCCT CAGCCCTGAA GGCCAAGCTG 
CGCCCCCGGA ATCGCTCAGC TGAGGAGGGA GAGCTGGCTG AGAGCAAGTC GAGCCAGAAG 
GAGTCCGCGG TCCAGCGTTC GAAATCCTGC AAGGTCCCAG GACTGGGAAA GCCCCTCACG 
TTACCTCCCA AGCCAGAGAA ATCCTCAGGG TCAGAAGGAT CGTCGCCCAA CTGGCTTCAA 
GCCCTGAAAC TGAAGAAGAA GAAGGTCTGA

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

RefSeq	NP_203754.2
CDS	166..5355
Translation	MKVSTLRESSAMASPLPREMEEELVPTGSEPGDTRAKPPVKPKPRALPAKPALPAKPSLLVPVGPRPPRGPLAELPSARKMNMLAGPQPYGGSKRPLPFAPRPAVEASTGGEATQETGKEEAGKEEPPPLTPPARCAAPGGVRKAPAPFRPASERFAATTVEEILAKMEQPRKEVLASPDRLWGSRLTFNHDGSSRYGPRTYGTTTAPRDEDGSTLFRGWSQEGPVKSPAECREEHSKTPEERSLPSDLAFNGDLAKAASSELPADISKPWIPSSPAPSSENGGPASPGLPAEASGSGPGSPHLHPPDKSSPCHSQLLEAQTPEASQASPCPAVTPSAPSAALPDEGSRHTPSPGLPAEGAPEAPRPSSPPPEVLEPHSLDQPPATSPRPLIEVGELLDLTRTFPSGGEEEAKGDAHLRPTSLVQRRFSEGVLQSPSQDQEKLGGSLAALPQGQGSQLALDRPFGAESNWSLSQSFEWTFPTRPSGLGVWRLDSPPPSPITEASEAAEAAEAGNLAVSSREEGVSQQGQGAGSAPSGSGSSWVQGDDPSMSLTQKGDGESQPQFPAVPLEPLPTTEGTPGLPLQQAEERYESQEPLAGQESPLPLATREAALPILEPVLGQEQPAAPDQPCVLFADAPEPGQALPVEEEAVTLARAETTQARTEAQDLCRASPEPPGPESSSRWLDDLLASPPPSGGGARRGAGAELKDTQSPSTCSEGLLGWSQKDLQSEFGITGDPQPSSFSPSSWCQGASQDYGLGGASPRGDPGLGERDWTSKYGQGAGEGSTREWASRCGIGQEEMEASSSQDQSKVSAPGVLTAQDRVVGKPAQLGTQRSQEADVQDWEFRKRDSQGTYSSRDAELQDQEFGKRDSLGTYSSRDVSLGDWEFGKRDSLGAYASQDANEQGQDLGKRDHHGRYSSQDADEQDWEFQKRDVSLGTYGSRAAEPQEQEFGKSAWIRDYSSGGSSRTLDAQDRSFGTRPLSSGFSPEEAQQQDEEFEKKIPSVEDSLGEGSRDAGRPGERGSGGLFSPSTAHVPDGALGQRDQSSWQNSDASQEVGGHQERQQAGAQGPGSADLEDGEMGKRGWVGEFSLSVGPQREAAFSPGQQDWSRDFCIEASERSYQFGIIGNDRVSGAGFSPSSKMEGGHFVPPGKTTAGSVDWTDQLGLRNLEVSSCVGSGGSSEARESAVGQMGWSGGLSLRDMNLTGCLESGGSEEPGGIGVGEKDWTSDVNVKSKDLAEVGEGGGHSQARESGVGQTDWSGVEAGEFLKSRERGVGQADWTPDLGLRNMAPGAVCSPGESKELGVGQMDWGNNLGLRDLEVTCDPDSGGSQGLRGCGVGQMDWTQDLAPQNVELFGAPSEAREHGVGGVSQCPEPGLRHNGSLSPGLEARDPLEARELGVGETSGPETQGEDYSSSSLEPHPADPGMETGEALSFGASPGRCPARPPPSGSQGLLEEMLAASSSKAVARRESAASGLGGLLEEEGAGAGAAQEEVLEPGRDSPPSWRPQPDGEASQTEDVDGTWGSSAARWSDQGPAQTSRRPSQGPPARSPSQDFSFIEDTEILDSAMYRSRANLGRKRGHRAPVIRPGGTLGLSEAADSDAHLFQDSTEPRASRVPSSDEEVVEEPQSRRTRMSLGTKGLKVNLFPGLSPSALKAKLRPRNRSAEEGELAESKSSQKESAVQRSKSCKVPGLGKPLTLPPKPEKSSGSEGSSPNWLQALKLKKKKV

Target ORF information:

RefSeq Version	NM_033396.2
Organism	Homo sapiens(human)
Definition	Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), mRNA.

Target ORF information:

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

NM_033396.2

ORF Insert Sequence:

ATGAAAGTGT CTACTCTCAG GGAAAGCTCA GCCATGGCTT CCCCACTGCC CCGGGAGATG 
GAGGAGGAGC TGGTGCCTAC TGGCTCTGAG CCAGGTGACA CTCGGGCCAA ACCCCCTGTC 
AAGCCCAAAC CCCGGGCCCT GCCTGCCAAG CCAGCCCTGC CTGCCAAACC CAGCCTGCTG 
GTGCCTGTTG GGCCTCGGCC TCCCCGGGGT CCCCTGGCTG AGTTGCCTTC TGCCAGGAAG 
ATGAACATGC TGGCAGGACC CCAGCCCTAT GGTGGCAGCA AGCGCCCCCT TCCCTTTGCA 
CCAAGGCCTG CGGTTGAGGC CTCCACTGGA GGAGAAGCCA CCCAAGAGAC TGGGAAAGAG 
GAGGCTGGGA AAGAGGAGCC ACCCCCTTTG ACACCCCCAG CTCGATGTGC AGCCCCAGGG 
GGTGTACGGA AGGCCCCTGC CCCTTTCCGC CCAGCCTCAG AGCGCTTCGC GGCCACCACG 
GTGGAAGAGA TCCTGGCCAA GATGGAGCAG CCTCGGAAGG AGGTCCTTGC CAGCCCCGAC 
CGCCTGTGGG GTTCCCGCCT CACCTTTAAC CACGATGGCA GCTCGCGATA TGGCCCCAGG 
ACCTATGGCA CGACCACTGC TCCCAGGGAT GAGGATGGCA GCACCCTCTT CAGGGGATGG 
TCCCAGGAGG GGCCAGTAAA GTCTCCAGCA GAGTGCCGGG AAGAGCACAG CAAGACCCCT 
GAGGAGAGGA GCCTTCCTTC CGACCTGGCC TTCAACGGGG ACCTGGCTAA GGCAGCCAGC 
TCGGAGCTAC CTGCTGATAT TTCCAAGCCC TGGATTCCCT CAAGTCCAGC CCCCTCCTCA 
GAGAATGGAG GCCCTGCCAG CCCAGGCCTC CCCGCAGAAG CCTCAGGCTC AGGCCCTGGC 
TCTCCCCATC TTCACCCGCC TGATAAGAGT TCTCCCTGCC ACTCACAGCT TCTGGAAGCC 
CAGACTCCTG AAGCTTCCCA GGCTTCTCCC TGCCCCGCTG TGACTCCATC AGCTCCAAGT 
GCAGCCCTGC CTGACGAGGG CTCCCGCCAC ACCCCCAGCC CGGGGCTCCC TGCCGAGGGG 
GCTCCAGAGG CCCCCAGACC CAGCAGCCCA CCCCCTGAGG TCTTGGAGCC CCATAGCCTG 
GATCAGCCCC CTGCCACCTC ACCCCGGCCC CTGATCGAGG TGGGTGAGTT GCTGGATCTC 
ACTCGGACGT TTCCATCTGG CGGGGAGGAG GAGGCCAAGG GTGACGCACA CCTCCGCCCC 
ACCAGCCTGG TTCAGCGCCG ATTCTCTGAA GGTGTGCTCC AGTCACCCAG TCAGGACCAG 
GAGAAGCTGG GGGGCTCGCT GGCTGCCCTG CCCCAAGGCC AGGGGAGCCA GTTGGCCCTG 
GATCGTCCCT TTGGGGCAGA GTCCAACTGG AGCTTATCAC AGTCCTTCGA ATGGACCTTC 
CCCACGAGGC CCTCGGGTCT GGGCGTGTGG CGGCTGGACT CCCCGCCTCC CTCCCCCATC 
ACTGAAGCCA GTGAGGCCGC CGAGGCTGCT GAGGCTGGCA ACTTGGCCGT TTCCAGCAGG 
GAAGAAGGAG TGTCTCAGCA GGGGCAAGGG GCTGGGTCAG CTCCAAGTGG GTCAGGAAGT 
TCCTGGGTGC AGGGGGATGA TCCAAGCATG TCCCTCACCC AGAAGGGCGA TGGGGAGAGT 
CAACCTCAAT TCCCAGCTGT TCCCCTTGAG CCCCTGCCTA CAACTGAGGG CACACCTGGA 
TTACCTTTGC AGCAGGCAGA GGAGAGATAC GAGTCGCAGG AGCCCTTGGC TGGACAGGAG 
TCCCCTCTCC CCCTGGCTAC CAGGGAGGCA GCCTTGCCCA TCCTGGAGCC AGTCCTGGGG 
CAGGAGCAGC CAGCAGCCCC TGACCAGCCC TGTGTTCTCT TTGCTGATGC CCCTGAGCCT 
GGACAGGCAC TGCCTGTTGA GGAGGAGGCC GTGACCCTAG CCCGGGCTGA GACCACCCAA 
GCCAGGACAG AGGCTCAAGA CTTGTGTAGG GCATCCCCCG AGCCTCCAGG CCCTGAAAGC 
AGCTCCCGCT GGCTGGACGA CCTCCTGGCT TCACCACCAC CCAGTGGTGG CGGTGCAAGG 
CGGGGAGCTG GAGCTGAGCT GAAGGACACA CAGTCCCCAA GTACCTGCTC TGAGGGACTC 
CTTGGCTGGT CCCAGAAAGA TCTGCAGAGT GAATTTGGGA TCACAGGAGA CCCACAGCCC 
AGCAGTTTCA GTCCTTCCAG CTGGTGTCAA GGTGCTTCTC AGGACTATGG CCTTGGGGGT 
GCAAGCCCTA GAGGAGACCC AGGTCTCGGA GAGAGGGACT GGACCAGCAA GTATGGGCAA 
GGAGCAGGGG AAGGGAGCAC CAGGGAGTGG GCCAGCAGGT GTGGCATCGG CCAGGAGGAG 
ATGGAGGCCA GCAGCAGCCA AGACCAGAGT AAAGTGTCTG CCCCAGGGGT GCTCACAGCC 
CAGGACCGGG TAGTTGGAAA GCCAGCCCAG CTTGGCACTC AGCGGAGCCA GGAGGCAGAT 
GTTCAGGACT GGGAGTTCAG AAAGAGGGAT TCCCAGGGCA CTTACTCCAG CCGGGATGCA 
GAACTCCAGG ACCAGGAATT CGGAAAGAGA GATTCACTGG GTACCTACAG TAGTCGAGAT 
GTAAGCCTTG GGGACTGGGA ATTTGGGAAG AGAGATTCTC TGGGTGCTTA TGCCAGCCAA 
GATGCCAACG AGCAGGGCCA AGATTTGGGG AAGAGGGACC ACCATGGTAG GTACAGCAGC 
CAGGATGCCG ATGAGCAGGA CTGGGAGTTT CAGAAGAGAG ATGTGTCACT CGGCACCTAT 
GGCAGCCGGG CTGCGGAGCC ACAGGAACAG GAGTTTGGGA AGAGCGCTTG GATAAGGGAC 
TACAGCAGTG GTGGCAGCTC CAGGACCCTT GACGCCCAGG ACAGAAGCTT TGGAACGAGA 
CCCCTGAGCT CTGGGTTCAG CCCCGAGGAA GCCCAGCAAC AGGATGAGGA ATTTGAGAAG 
AAGATTCCAA GTGTGGAAGA CAGCCTTGGA GAGGGCAGCA GGGATGCTGG CCGGCCAGGA 
GAGAGAGGAT CCGGGGGCTT GTTCAGTCCT AGCACTGCCC ACGTGCCGGA TGGGGCACTC 
GGGCAGAGAG ACCAGAGCAG CTGGCAAAAC AGTGATGCTA GCCAGGAGGT GGGAGGGCAT 
CAGGAGAGAC AGCAGGCAGG GGCTCAGGGC CCTGGCAGTG CTGACCTGGA AGATGGGGAG 
ATGGGAAAGC GAGGCTGGGT CGGTGAGTTT AGCCTCAGTG TTGGCCCCCA GCGAGAGGCA 
GCATTTAGCC CAGGGCAGCA GGACTGGAGC CGGGACTTCT GCATCGAGGC CAGTGAGAGG 
AGCTATCAGT TTGGCATCAT TGGCAACGAC AGAGTGAGTG GTGCTGGCTT TAGCCCTTCT 
AGCAAGATGG AAGGTGGTCA CTTTGTGCCT CCTGGGAAGA CCACAGCTGG CTCGGTGGAC 
TGGACTGACC AGCTGGGTCT CAGGAACTTG GAAGTGTCCA GCTGTGTGGG TTCTGGGGGC 
TCGAGCGAGG CCAGGGAGAG TGCCGTGGGA CAGATGGGCT GGTCAGGTGG CCTGAGCTTG 
AGAGACATGA ACCTGACCGG CTGTTTGGAA AGTGGAGGGT CTGAAGAGCC GGGGGGAATC 
GGAGTTGGGG AGAAGGACTG GACTTCTGAT GTTAATGTGA AGAGCAAAGA TTTGGCTGAG 
GTCGGGGAGG GAGGAGGCCA CAGCCAGGCC AGAGAGAGTG GCGTGGGGCA GACTGACTGG 
TCAGGTGTGG AGGCCGGAGA GTTCCTTAAA TCAAGGGAGC GTGGAGTTGG ACAGGCAGAC 
TGGACACCTG ACCTTGGGCT GAGAAACATG GCCCCAGGGG CAGTCTGCAG TCCTGGAGAG 
TCCAAAGAGC TTGGGGTGGG CCAGATGGAC TGGGGTAACA ATCTGGGCCT GAGGGATTTG 
GAGGTGACCT GTGACCCAGA CTCTGGAGGT TCTCAGGGGC TACGGGGATG TGGAGTGGGG 
CAGATGGACT GGACCCAGGA CTTGGCGCCC CAGAATGTGG AGCTCTTTGG GGCTCCAAGT 
GAAGCCAGGG AGCATGGGGT GGGCGGGGTG AGCCAGTGCC CAGAGCCCGG CCTGAGGCAC 
AATGGCAGCT TGTCTCCTGG CCTGGAGGCC AGAGACCCCT TGGAGGCCAG GGAGCTGGGG 
GTTGGTGAGA CAAGTGGGCC AGAGACCCAG GGTGAAGATT ACTCCTCGTC TTCCTTGGAG 
CCACACCCTG CAGACCCTGG AATGGAGACA GGAGAAGCCC TCAGCTTCGG AGCAAGCCCT 
GGCAGGTGCC CGGCCCGCCC CCCACCCTCC GGCTCCCAGG GCCTGCTGGA GGAGATGCTG 
GCAGCCAGCA GCTCCAAGGC GGTGGCTCGG AGGGAGTCAG CGGCCTCGGG CCTTGGGGGC 
CTGTTGGAGG AGGAAGGAGC CGGGGCAGGT GCTGCCCAAG AGGAGGTGCT GGAGCCTGGC 
AGGGACTCTC CACCCTCCTG GAGGCCGCAG CCTGATGGTG AGGCCAGCCA GACAGAAGAC 
GTGGATGGCA CCTGGGGCTC TTCAGCAGCC AGGTGGAGCG ATCAGGGGCC AGCACAGACT 
TCTCGGCGAC CCTCCCAAGG CCCTCCTGCC AGATCCCCCA GTCAGGACTT CTCCTTCATT 
GAGGACACCG AGATCCTCGA CAGTGCCATG TATCGGAGCC GTGCCAACTT GGGGCGCAAG 
CGTGGGCACC GGGCCCCGGT CATTCGGCCT GGGGGTACCT TGGGCCTGTC GGAGGCAGCA 
GACTCGGATG CACACCTGTT CCAGGACTCT ACAGAGCCAC GGGCATCTCG GGTGCCATCT 
TCAGATGAAG AGGTAGTGGA GGAACCTCAG AGCCGCCGGA CACGGATGTC GTTGGGCACC 
AAGGGGCTGA AAGTCAACCT CTTTCCTGGC CTGAGCCCCT CAGCCCTGAA GGCCAAGCTG 
CGCCCCCGGA ATCGCTCAGC TGAGGAGGGA GAGCTGGCTG AGAGCAAGTC GAGCCAGAAG 
GAGTCCGCGG TCCAGCGTTC GAAATCCTGC AAGGTCCCAG GACTGGGAAA GCCCCTCACG 
TTACCTCCCA AGCCAGAGAA ATCCTCAGGG TCAGAAGGAT CGTCGCCCAA CTGGCTTCAA 
GCCCTGAAAC TGAAGAAGAA GAAGGTCTGA

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

TNKS1BP1 ( XM_006718725.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006718788.1 Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu05416
Clone ID Related Accession (Same CDS sequence)	NM_033396.3 , XM_006718725.3 , NM_033396.2
Accession Version	XM_006718725.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5190bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	182 kDa tankyrase-1-binding protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006718725.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAAGTGT CTACTCTCAG GGAAAGCTCA GCCATGGCTT CCCCACTGCC CCGGGAGATG 
GAGGAGGAGC TGGTGCCTAC TGGCTCTGAG CCAGGTGACA CTCGGGCCAA ACCCCCTGTC 
AAGCCCAAAC CCCGGGCCCT GCCTGCCAAG CCAGCCCTGC CTGCCAAACC CAGCCTGCTG 
GTGCCTGTTG GGCCTCGGCC TCCCCGGGGT CCCCTGGCTG AGTTGCCTTC TGCCAGGAAG 
ATGAACATGC TGGCAGGACC CCAGCCCTAT GGTGGCAGCA AGCGCCCCCT TCCCTTTGCA 
CCAAGGCCTG CGGTTGAGGC CTCCACTGGA GGAGAAGCCA CCCAAGAGAC TGGGAAAGAG 
GAGGCTGGGA AAGAGGAGCC ACCCCCTTTG ACACCCCCAG CTCGATGTGC AGCCCCAGGG 
GGTGTACGGA AGGCCCCTGC CCCTTTCCGC CCAGCCTCAG AGCGCTTCGC GGCCACCACG 
GTGGAAGAGA TCCTGGCCAA GATGGAGCAG CCTCGGAAGG AGGTCCTTGC CAGCCCCGAC 
CGCCTGTGGG GTTCCCGCCT CACCTTTAAC CACGATGGCA GCTCGCGATA TGGCCCCAGG 
ACCTATGGCA CGACCACTGC TCCCAGGGAT GAGGATGGCA GCACCCTCTT CAGGGGATGG 
TCCCAGGAGG GGCCAGTAAA GTCTCCAGCA GAGTGCCGGG AAGAGCACAG CAAGACCCCT 
GAGGAGAGGA GCCTTCCTTC CGACCTGGCC TTCAACGGGG ACCTGGCTAA GGCAGCCAGC 
TCGGAGCTAC CTGCTGATAT TTCCAAGCCC TGGATTCCCT CAAGTCCAGC CCCCTCCTCA 
GAGAATGGAG GCCCTGCCAG CCCAGGCCTC CCCGCAGAAG CCTCAGGCTC AGGCCCTGGC 
TCTCCCCATC TTCACCCGCC TGATAAGAGT TCTCCCTGCC ACTCACAGCT TCTGGAAGCC 
CAGACTCCTG AAGCTTCCCA GGCTTCTCCC TGCCCCGCTG TGACTCCATC AGCTCCAAGT 
GCAGCCCTGC CTGACGAGGG CTCCCGCCAC ACCCCCAGCC CGGGGCTCCC TGCCGAGGGG 
GCTCCAGAGG CCCCCAGACC CAGCAGCCCA CCCCCTGAGG TCTTGGAGCC CCATAGCCTG 
GATCAGCCCC CTGCCACCTC ACCCCGGCCC CTGATCGAGG TGGGTGAGTT GCTGGATCTC 
ACTCGGACGT TTCCATCTGG CGGGGAGGAG GAGGCCAAGG GTGACGCACA CCTCCGCCCC 
ACCAGCCTGG TTCAGCGCCG ATTCTCTGAA GGTGTGCTCC AGTCACCCAG TCAGGACCAG 
GAGAAGCTGG GGGGCTCGCT GGCTGCCCTG CCCCAAGGCC AGGGGAGCCA GTTGGCCCTG 
GATCGTCCCT TTGGGGCAGA GTCCAACTGG AGCTTATCAC AGTCCTTCGA ATGGACCTTC 
CCCACGAGGC CCTCGGGTCT GGGCGTGTGG CGGCTGGACT CCCCGCCTCC CTCCCCCATC 
ACTGAAGCCA GTGAGGCCGC CGAGGCTGCT GAGGCTGGCA ACTTGGCCGT TTCCAGCAGG 
GAAGAAGGAG TGTCTCAGCA GGGGCAAGGG GCTGGGTCAG CTCCAAGTGG GTCAGGAAGT 
TCCTGGGTGC AGGGGGATGA TCCAAGCATG TCCCTCACCC AGAAGGGCGA TGGGGAGAGT 
CAACCTCAAT TCCCAGCTGT TCCCCTTGAG CCCCTGCCTA CAACTGAGGG CACACCTGGA 
TTACCTTTGC AGCAGGCAGA GGAGAGATAC GAGTCGCAGG AGCCCTTGGC TGGACAGGAG 
TCCCCTCTCC CCCTGGCTAC CAGGGAGGCA GCCTTGCCCA TCCTGGAGCC AGTCCTGGGG 
CAGGAGCAGC CAGCAGCCCC TGACCAGCCC TGTGTTCTCT TTGCTGATGC CCCTGAGCCT 
GGACAGGCAC TGCCTGTTGA GGAGGAGGCC GTGACCCTAG CCCGGGCTGA GACCACCCAA 
GCCAGGACAG AGGCTCAAGA CTTGTGTAGG GCATCCCCCG AGCCTCCAGG CCCTGAAAGC 
AGCTCCCGCT GGCTGGACGA CCTCCTGGCT TCACCACCAC CCAGTGGTGG CGGTGCAAGG 
CGGGGAGCTG GAGCTGAGCT GAAGGACACA CAGTCCCCAA GTACCTGCTC TGAGGGACTC 
CTTGGCTGGT CCCAGAAAGA TCTGCAGAGT GAATTTGGGA TCACAGGAGA CCCACAGCCC 
AGCAGTTTCA GTCCTTCCAG CTGGTGTCAA GGTGCTTCTC AGGACTATGG CCTTGGGGGT 
GCAAGCCCTA GAGGAGACCC AGGTCTCGGA GAGAGGGACT GGACCAGCAA GTATGGGCAA 
GGAGCAGGGG AAGGGAGCAC CAGGGAGTGG GCCAGCAGGT GTGGCATCGG CCAGGAGGAG 
ATGGAGGCCA GCAGCAGCCA AGACCAGAGT AAAGTGTCTG CCCCAGGGGT GCTCACAGCC 
CAGGACCGGG TAGTTGGAAA GCCAGCCCAG CTTGGCACTC AGCGGAGCCA GGAGGCAGAT 
GTTCAGGACT GGGAGTTCAG AAAGAGGGAT TCCCAGGGCA CTTACTCCAG CCGGGATGCA 
GAACTCCAGG ACCAGGAATT CGGAAAGAGA GATTCACTGG GTACCTACAG TAGTCGAGAT 
GTAAGCCTTG GGGACTGGGA ATTTGGGAAG AGAGATTCTC TGGGTGCTTA TGCCAGCCAA 
GATGCCAACG AGCAGGGCCA AGATTTGGGG AAGAGGGACC ACCATGGTAG GTACAGCAGC 
CAGGATGCCG ATGAGCAGGA CTGGGAGTTT CAGAAGAGAG ATGTGTCACT CGGCACCTAT 
GGCAGCCGGG CTGCGGAGCC ACAGGAACAG GAGTTTGGGA AGAGCGCTTG GATAAGGGAC 
TACAGCAGTG GTGGCAGCTC CAGGACCCTT GACGCCCAGG ACAGAAGCTT TGGAACGAGA 
CCCCTGAGCT CTGGGTTCAG CCCCGAGGAA GCCCAGCAAC AGGATGAGGA ATTTGAGAAG 
AAGATTCCAA GTGTGGAAGA CAGCCTTGGA GAGGGCAGCA GGGATGCTGG CCGGCCAGGA 
GAGAGAGGAT CCGGGGGCTT GTTCAGTCCT AGCACTGCCC ACGTGCCGGA TGGGGCACTC 
GGGCAGAGAG ACCAGAGCAG CTGGCAAAAC AGTGATGCTA GCCAGGAGGT GGGAGGGCAT 
CAGGAGAGAC AGCAGGCAGG GGCTCAGGGC CCTGGCAGTG CTGACCTGGA AGATGGGGAG 
ATGGGAAAGC GAGGCTGGGT CGGTGAGTTT AGCCTCAGTG TTGGCCCCCA GCGAGAGGCA 
GCATTTAGCC CAGGGCAGCA GGACTGGAGC CGGGACTTCT GCATCGAGGC CAGTGAGAGG 
AGCTATCAGT TTGGCATCAT TGGCAACGAC AGAGTGAGTG GTGCTGGCTT TAGCCCTTCT 
AGCAAGATGG AAGGTGGTCA CTTTGTGCCT CCTGGGAAGA CCACAGCTGG CTCGGTGGAC 
TGGACTGACC AGCTGGGTCT CAGGAACTTG GAAGTGTCCA GCTGTGTGGG TTCTGGGGGC 
TCGAGCGAGG CCAGGGAGAG TGCCGTGGGA CAGATGGGCT GGTCAGGTGG CCTGAGCTTG 
AGAGACATGA ACCTGACCGG CTGTTTGGAA AGTGGAGGGT CTGAAGAGCC GGGGGGAATC 
GGAGTTGGGG AGAAGGACTG GACTTCTGAT GTTAATGTGA AGAGCAAAGA TTTGGCTGAG 
GTCGGGGAGG GAGGAGGCCA CAGCCAGGCC AGAGAGAGTG GCGTGGGGCA GACTGACTGG 
TCAGGTGTGG AGGCCGGAGA GTTCCTTAAA TCAAGGGAGC GTGGAGTTGG ACAGGCAGAC 
TGGACACCTG ACCTTGGGCT GAGAAACATG GCCCCAGGGG CAGTCTGCAG TCCTGGAGAG 
TCCAAAGAGC TTGGGGTGGG CCAGATGGAC TGGGGTAACA ATCTGGGCCT GAGGGATTTG 
GAGGTGACCT GTGACCCAGA CTCTGGAGGT TCTCAGGGGC TACGGGGATG TGGAGTGGGG 
CAGATGGACT GGACCCAGGA CTTGGCGCCC CAGAATGTGG AGCTCTTTGG GGCTCCAAGT 
GAAGCCAGGG AGCATGGGGT GGGCGGGGTG AGCCAGTGCC CAGAGCCCGG CCTGAGGCAC 
AATGGCAGCT TGTCTCCTGG CCTGGAGGCC AGAGACCCCT TGGAGGCCAG GGAGCTGGGG 
GTTGGTGAGA CAAGTGGGCC AGAGACCCAG GGTGAAGATT ACTCCTCGTC TTCCTTGGAG 
CCACACCCTG CAGACCCTGG AATGGAGACA GGAGAAGCCC TCAGCTTCGG AGCAAGCCCT 
GGCAGGTGCC CGGCCCGCCC CCCACCCTCC GGCTCCCAGG GCCTGCTGGA GGAGATGCTG 
GCAGCCAGCA GCTCCAAGGC GGTGGCTCGG AGGGAGTCAG CGGCCTCGGG CCTTGGGGGC 
CTGTTGGAGG AGGAAGGAGC CGGGGCAGGT GCTGCCCAAG AGGAGGTGCT GGAGCCTGGC 
AGGGACTCTC CACCCTCCTG GAGGCCGCAG CCTGATGGTG AGGCCAGCCA GACAGAAGAC 
GTGGATGGCA CCTGGGGCTC TTCAGCAGCC AGGTGGAGCG ATCAGGGGCC AGCACAGACT 
TCTCGGCGAC CCTCCCAAGG CCCTCCTGCC AGATCCCCCA GTCAGGACTT CTCCTTCATT 
GAGGACACCG AGATCCTCGA CAGTGCCATG TATCGGAGCC GTGCCAACTT GGGGCGCAAG 
CGTGGGCACC GGGCCCCGGT CATTCGGCCT GGGGGTACCT TGGGCCTGTC GGAGGCAGCA 
GACTCGGATG CACACCTGTT CCAGGACTCT ACAGAGCCAC GGGCATCTCG GGTGCCATCT 
TCAGATGAAG AGGTAGTGGA GGAACCTCAG AGCCGCCGGA CACGGATGTC GTTGGGCACC 
AAGGGGCTGA AAGTCAACCT CTTTCCTGGC CTGAGCCCCT CAGCCCTGAA GGCCAAGCTG 
CGCCCCCGGA ATCGCTCAGC TGAGGAGGGA GAGCTGGCTG AGAGCAAGTC GAGCCAGAAG 
GAGTCCGCGG TCCAGCGTTC GAAATCCTGC AAGGTCCCAG GACTGGGAAA GCCCCTCACG 
TTACCTCCCA AGCCAGAGAA ATCCTCAGGG TCAGAAGGAT CGTCGCCCAA CTGGCTTCAA 
GCCCTGAAAC TGAAGAAGAA GAAGGTCTGA

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

RefSeq	XP_006718788.1
CDS	182..5371
Translation	MKVSTLRESSAMASPLPREMEEELVPTGSEPGDTRAKPPVKPKPRALPAKPALPAKPSLLVPVGPRPPRGPLAELPSARKMNMLAGPQPYGGSKRPLPFAPRPAVEASTGGEATQETGKEEAGKEEPPPLTPPARCAAPGGVRKAPAPFRPASERFAATTVEEILAKMEQPRKEVLASPDRLWGSRLTFNHDGSSRYGPRTYGTTTAPRDEDGSTLFRGWSQEGPVKSPAECREEHSKTPEERSLPSDLAFNGDLAKAASSELPADISKPWIPSSPAPSSENGGPASPGLPAEASGSGPGSPHLHPPDKSSPCHSQLLEAQTPEASQASPCPAVTPSAPSAALPDEGSRHTPSPGLPAEGAPEAPRPSSPPPEVLEPHSLDQPPATSPRPLIEVGELLDLTRTFPSGGEEEAKGDAHLRPTSLVQRRFSEGVLQSPSQDQEKLGGSLAALPQGQGSQLALDRPFGAESNWSLSQSFEWTFPTRPSGLGVWRLDSPPPSPITEASEAAEAAEAGNLAVSSREEGVSQQGQGAGSAPSGSGSSWVQGDDPSMSLTQKGDGESQPQFPAVPLEPLPTTEGTPGLPLQQAEERYESQEPLAGQESPLPLATREAALPILEPVLGQEQPAAPDQPCVLFADAPEPGQALPVEEEAVTLARAETTQARTEAQDLCRASPEPPGPESSSRWLDDLLASPPPSGGGARRGAGAELKDTQSPSTCSEGLLGWSQKDLQSEFGITGDPQPSSFSPSSWCQGASQDYGLGGASPRGDPGLGERDWTSKYGQGAGEGSTREWASRCGIGQEEMEASSSQDQSKVSAPGVLTAQDRVVGKPAQLGTQRSQEADVQDWEFRKRDSQGTYSSRDAELQDQEFGKRDSLGTYSSRDVSLGDWEFGKRDSLGAYASQDANEQGQDLGKRDHHGRYSSQDADEQDWEFQKRDVSLGTYGSRAAEPQEQEFGKSAWIRDYSSGGSSRTLDAQDRSFGTRPLSSGFSPEEAQQQDEEFEKKIPSVEDSLGEGSRDAGRPGERGSGGLFSPSTAHVPDGALGQRDQSSWQNSDASQEVGGHQERQQAGAQGPGSADLEDGEMGKRGWVGEFSLSVGPQREAAFSPGQQDWSRDFCIEASERSYQFGIIGNDRVSGAGFSPSSKMEGGHFVPPGKTTAGSVDWTDQLGLRNLEVSSCVGSGGSSEARESAVGQMGWSGGLSLRDMNLTGCLESGGSEEPGGIGVGEKDWTSDVNVKSKDLAEVGEGGGHSQARESGVGQTDWSGVEAGEFLKSRERGVGQADWTPDLGLRNMAPGAVCSPGESKELGVGQMDWGNNLGLRDLEVTCDPDSGGSQGLRGCGVGQMDWTQDLAPQNVELFGAPSEAREHGVGGVSQCPEPGLRHNGSLSPGLEARDPLEARELGVGETSGPETQGEDYSSSSLEPHPADPGMETGEALSFGASPGRCPARPPPSGSQGLLEEMLAASSSKAVARRESAASGLGGLLEEEGAGAGAAQEEVLEPGRDSPPSWRPQPDGEASQTEDVDGTWGSSAARWSDQGPAQTSRRPSQGPPARSPSQDFSFIEDTEILDSAMYRSRANLGRKRGHRAPVIRPGGTLGLSEAADSDAHLFQDSTEPRASRVPSSDEEVVEEPQSRRTRMSLGTKGLKVNLFPGLSPSALKAKLRPRNRSAEEGELAESKSSQKESAVQRSKSCKVPGLGKPLTLPPKPEKSSGSEGSSPNWLQALKLKKKKV

Target ORF information:

RefSeq Version	XM_006718725.3
Organism	Homo sapiens(human)
Definition	Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), transcript variant X1, mRNA.

Target ORF information:

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

XM_006718725.3

ORF Insert Sequence:

ATGAAAGTGT CTACTCTCAG GGAAAGCTCA GCCATGGCTT CCCCACTGCC CCGGGAGATG 
GAGGAGGAGC TGGTGCCTAC TGGCTCTGAG CCAGGTGACA CTCGGGCCAA ACCCCCTGTC 
AAGCCCAAAC CCCGGGCCCT GCCTGCCAAG CCAGCCCTGC CTGCCAAACC CAGCCTGCTG 
GTGCCTGTTG GGCCTCGGCC TCCCCGGGGT CCCCTGGCTG AGTTGCCTTC TGCCAGGAAG 
ATGAACATGC TGGCAGGACC CCAGCCCTAT GGTGGCAGCA AGCGCCCCCT TCCCTTTGCA 
CCAAGGCCTG CGGTTGAGGC CTCCACTGGA GGAGAAGCCA CCCAAGAGAC TGGGAAAGAG 
GAGGCTGGGA AAGAGGAGCC ACCCCCTTTG ACACCCCCAG CTCGATGTGC AGCCCCAGGG 
GGTGTACGGA AGGCCCCTGC CCCTTTCCGC CCAGCCTCAG AGCGCTTCGC GGCCACCACG 
GTGGAAGAGA TCCTGGCCAA GATGGAGCAG CCTCGGAAGG AGGTCCTTGC CAGCCCCGAC 
CGCCTGTGGG GTTCCCGCCT CACCTTTAAC CACGATGGCA GCTCGCGATA TGGCCCCAGG 
ACCTATGGCA CGACCACTGC TCCCAGGGAT GAGGATGGCA GCACCCTCTT CAGGGGATGG 
TCCCAGGAGG GGCCAGTAAA GTCTCCAGCA GAGTGCCGGG AAGAGCACAG CAAGACCCCT 
GAGGAGAGGA GCCTTCCTTC CGACCTGGCC TTCAACGGGG ACCTGGCTAA GGCAGCCAGC 
TCGGAGCTAC CTGCTGATAT TTCCAAGCCC TGGATTCCCT CAAGTCCAGC CCCCTCCTCA 
GAGAATGGAG GCCCTGCCAG CCCAGGCCTC CCCGCAGAAG CCTCAGGCTC AGGCCCTGGC 
TCTCCCCATC TTCACCCGCC TGATAAGAGT TCTCCCTGCC ACTCACAGCT TCTGGAAGCC 
CAGACTCCTG AAGCTTCCCA GGCTTCTCCC TGCCCCGCTG TGACTCCATC AGCTCCAAGT 
GCAGCCCTGC CTGACGAGGG CTCCCGCCAC ACCCCCAGCC CGGGGCTCCC TGCCGAGGGG 
GCTCCAGAGG CCCCCAGACC CAGCAGCCCA CCCCCTGAGG TCTTGGAGCC CCATAGCCTG 
GATCAGCCCC CTGCCACCTC ACCCCGGCCC CTGATCGAGG TGGGTGAGTT GCTGGATCTC 
ACTCGGACGT TTCCATCTGG CGGGGAGGAG GAGGCCAAGG GTGACGCACA CCTCCGCCCC 
ACCAGCCTGG TTCAGCGCCG ATTCTCTGAA GGTGTGCTCC AGTCACCCAG TCAGGACCAG 
GAGAAGCTGG GGGGCTCGCT GGCTGCCCTG CCCCAAGGCC AGGGGAGCCA GTTGGCCCTG 
GATCGTCCCT TTGGGGCAGA GTCCAACTGG AGCTTATCAC AGTCCTTCGA ATGGACCTTC 
CCCACGAGGC CCTCGGGTCT GGGCGTGTGG CGGCTGGACT CCCCGCCTCC CTCCCCCATC 
ACTGAAGCCA GTGAGGCCGC CGAGGCTGCT GAGGCTGGCA ACTTGGCCGT TTCCAGCAGG 
GAAGAAGGAG TGTCTCAGCA GGGGCAAGGG GCTGGGTCAG CTCCAAGTGG GTCAGGAAGT 
TCCTGGGTGC AGGGGGATGA TCCAAGCATG TCCCTCACCC AGAAGGGCGA TGGGGAGAGT 
CAACCTCAAT TCCCAGCTGT TCCCCTTGAG CCCCTGCCTA CAACTGAGGG CACACCTGGA 
TTACCTTTGC AGCAGGCAGA GGAGAGATAC GAGTCGCAGG AGCCCTTGGC TGGACAGGAG 
TCCCCTCTCC CCCTGGCTAC CAGGGAGGCA GCCTTGCCCA TCCTGGAGCC AGTCCTGGGG 
CAGGAGCAGC CAGCAGCCCC TGACCAGCCC TGTGTTCTCT TTGCTGATGC CCCTGAGCCT 
GGACAGGCAC TGCCTGTTGA GGAGGAGGCC GTGACCCTAG CCCGGGCTGA GACCACCCAA 
GCCAGGACAG AGGCTCAAGA CTTGTGTAGG GCATCCCCCG AGCCTCCAGG CCCTGAAAGC 
AGCTCCCGCT GGCTGGACGA CCTCCTGGCT TCACCACCAC CCAGTGGTGG CGGTGCAAGG 
CGGGGAGCTG GAGCTGAGCT GAAGGACACA CAGTCCCCAA GTACCTGCTC TGAGGGACTC 
CTTGGCTGGT CCCAGAAAGA TCTGCAGAGT GAATTTGGGA TCACAGGAGA CCCACAGCCC 
AGCAGTTTCA GTCCTTCCAG CTGGTGTCAA GGTGCTTCTC AGGACTATGG CCTTGGGGGT 
GCAAGCCCTA GAGGAGACCC AGGTCTCGGA GAGAGGGACT GGACCAGCAA GTATGGGCAA 
GGAGCAGGGG AAGGGAGCAC CAGGGAGTGG GCCAGCAGGT GTGGCATCGG CCAGGAGGAG 
ATGGAGGCCA GCAGCAGCCA AGACCAGAGT AAAGTGTCTG CCCCAGGGGT GCTCACAGCC 
CAGGACCGGG TAGTTGGAAA GCCAGCCCAG CTTGGCACTC AGCGGAGCCA GGAGGCAGAT 
GTTCAGGACT GGGAGTTCAG AAAGAGGGAT TCCCAGGGCA CTTACTCCAG CCGGGATGCA 
GAACTCCAGG ACCAGGAATT CGGAAAGAGA GATTCACTGG GTACCTACAG TAGTCGAGAT 
GTAAGCCTTG GGGACTGGGA ATTTGGGAAG AGAGATTCTC TGGGTGCTTA TGCCAGCCAA 
GATGCCAACG AGCAGGGCCA AGATTTGGGG AAGAGGGACC ACCATGGTAG GTACAGCAGC 
CAGGATGCCG ATGAGCAGGA CTGGGAGTTT CAGAAGAGAG ATGTGTCACT CGGCACCTAT 
GGCAGCCGGG CTGCGGAGCC ACAGGAACAG GAGTTTGGGA AGAGCGCTTG GATAAGGGAC 
TACAGCAGTG GTGGCAGCTC CAGGACCCTT GACGCCCAGG ACAGAAGCTT TGGAACGAGA 
CCCCTGAGCT CTGGGTTCAG CCCCGAGGAA GCCCAGCAAC AGGATGAGGA ATTTGAGAAG 
AAGATTCCAA GTGTGGAAGA CAGCCTTGGA GAGGGCAGCA GGGATGCTGG CCGGCCAGGA 
GAGAGAGGAT CCGGGGGCTT GTTCAGTCCT AGCACTGCCC ACGTGCCGGA TGGGGCACTC 
GGGCAGAGAG ACCAGAGCAG CTGGCAAAAC AGTGATGCTA GCCAGGAGGT GGGAGGGCAT 
CAGGAGAGAC AGCAGGCAGG GGCTCAGGGC CCTGGCAGTG CTGACCTGGA AGATGGGGAG 
ATGGGAAAGC GAGGCTGGGT CGGTGAGTTT AGCCTCAGTG TTGGCCCCCA GCGAGAGGCA 
GCATTTAGCC CAGGGCAGCA GGACTGGAGC CGGGACTTCT GCATCGAGGC CAGTGAGAGG 
AGCTATCAGT TTGGCATCAT TGGCAACGAC AGAGTGAGTG GTGCTGGCTT TAGCCCTTCT 
AGCAAGATGG AAGGTGGTCA CTTTGTGCCT CCTGGGAAGA CCACAGCTGG CTCGGTGGAC 
TGGACTGACC AGCTGGGTCT CAGGAACTTG GAAGTGTCCA GCTGTGTGGG TTCTGGGGGC 
TCGAGCGAGG CCAGGGAGAG TGCCGTGGGA CAGATGGGCT GGTCAGGTGG CCTGAGCTTG 
AGAGACATGA ACCTGACCGG CTGTTTGGAA AGTGGAGGGT CTGAAGAGCC GGGGGGAATC 
GGAGTTGGGG AGAAGGACTG GACTTCTGAT GTTAATGTGA AGAGCAAAGA TTTGGCTGAG 
GTCGGGGAGG GAGGAGGCCA CAGCCAGGCC AGAGAGAGTG GCGTGGGGCA GACTGACTGG 
TCAGGTGTGG AGGCCGGAGA GTTCCTTAAA TCAAGGGAGC GTGGAGTTGG ACAGGCAGAC 
TGGACACCTG ACCTTGGGCT GAGAAACATG GCCCCAGGGG CAGTCTGCAG TCCTGGAGAG 
TCCAAAGAGC TTGGGGTGGG CCAGATGGAC TGGGGTAACA ATCTGGGCCT GAGGGATTTG 
GAGGTGACCT GTGACCCAGA CTCTGGAGGT TCTCAGGGGC TACGGGGATG TGGAGTGGGG 
CAGATGGACT GGACCCAGGA CTTGGCGCCC CAGAATGTGG AGCTCTTTGG GGCTCCAAGT 
GAAGCCAGGG AGCATGGGGT GGGCGGGGTG AGCCAGTGCC CAGAGCCCGG CCTGAGGCAC 
AATGGCAGCT TGTCTCCTGG CCTGGAGGCC AGAGACCCCT TGGAGGCCAG GGAGCTGGGG 
GTTGGTGAGA CAAGTGGGCC AGAGACCCAG GGTGAAGATT ACTCCTCGTC TTCCTTGGAG 
CCACACCCTG CAGACCCTGG AATGGAGACA GGAGAAGCCC TCAGCTTCGG AGCAAGCCCT 
GGCAGGTGCC CGGCCCGCCC CCCACCCTCC GGCTCCCAGG GCCTGCTGGA GGAGATGCTG 
GCAGCCAGCA GCTCCAAGGC GGTGGCTCGG AGGGAGTCAG CGGCCTCGGG CCTTGGGGGC 
CTGTTGGAGG AGGAAGGAGC CGGGGCAGGT GCTGCCCAAG AGGAGGTGCT GGAGCCTGGC 
AGGGACTCTC CACCCTCCTG GAGGCCGCAG CCTGATGGTG AGGCCAGCCA GACAGAAGAC 
GTGGATGGCA CCTGGGGCTC TTCAGCAGCC AGGTGGAGCG ATCAGGGGCC AGCACAGACT 
TCTCGGCGAC CCTCCCAAGG CCCTCCTGCC AGATCCCCCA GTCAGGACTT CTCCTTCATT 
GAGGACACCG AGATCCTCGA CAGTGCCATG TATCGGAGCC GTGCCAACTT GGGGCGCAAG 
CGTGGGCACC GGGCCCCGGT CATTCGGCCT GGGGGTACCT TGGGCCTGTC GGAGGCAGCA 
GACTCGGATG CACACCTGTT CCAGGACTCT ACAGAGCCAC GGGCATCTCG GGTGCCATCT 
TCAGATGAAG AGGTAGTGGA GGAACCTCAG AGCCGCCGGA CACGGATGTC GTTGGGCACC 
AAGGGGCTGA AAGTCAACCT CTTTCCTGGC CTGAGCCCCT CAGCCCTGAA GGCCAAGCTG 
CGCCCCCGGA ATCGCTCAGC TGAGGAGGGA GAGCTGGCTG AGAGCAAGTC GAGCCAGAAG 
GAGTCCGCGG TCCAGCGTTC GAAATCCTGC AAGGTCCCAG GACTGGGAAA GCCCCTCACG 
TTACCTCCCA AGCCAGAGAA ATCCTCAGGG TCAGAAGGAT CGTCGCCCAA CTGGCTTCAA 
GCCCTGAAAC TGAAGAAGAA GAAGGTCTGA

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

TNKS1BP1 ( XM_011545325.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011543627.1 Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), transcript variant X2, mRNA.

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CloneID	OHu73995
Clone ID Related Accession (Same CDS sequence)	XM_011545325.2 , XM_011545325.3
Accession Version	XM_011545325.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4443bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	182 kDa tankyrase-1-binding protein isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545325.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAAGTGT CTACTCTCAG GGAAAGCTCA GCCATGGCTT CCCCACTGCC CCGGGAGATG 
GAGGAGGAGC TGGTGCCTAC TGGCTCTGAG CCAGGTGACA CTCGGGCCAA ACCCCCTGTC 
AAGCCCAAAC CCCGGGCCCT GCCTGCCAAG CCAGCCCTGC CTGCCAAACC CAGCCTGCTG 
GTGCCTGTTG GGCCTCGGCC TCCCCGGGGT CCCCTGGCTG AGTTGCCTTC TGCCAGGAAG 
ATGAACATGC TGGCAGGACC CCAGCCCTAT GGTGGCAGCA AGCGCCCCCT TCCCTTTGCA 
CCAAGGCCTG CGGTTGAGGC CTCCACTGGA GGAGAAGCCA CCCAAGAGAC TGGGAAAGAG 
GAGGCTGGGA AAGAGGAGCC ACCCCCTTTG ACACCCCCAG CTCGATGTGC AGCCCCAGGG 
GGTGTACGGA AGGCCCCTGC CCCTTTCCGC CCAGCCTCAG AGCGCTTCGC GGCCACCACG 
GTGGAAGAGA TCCTGGCCAA GATGGAGCAG CCTCGGAAGG AGGTCCTTGC CAGCCCCGAC 
CGCCTGTGGG GTTCCCGCCT CACCTTTAAC CACGATGGCA GCTCGCGATA TGGCCCCAGG 
ACCTATGGCA CGACCACTGC TCCCAGGGAT GAGGATGGCA GCACCCTCTT CAGGGGATGG 
TCCCAGGAGG GGCCAGTAAA GTCTCCAGCA GAGTGCCGGG AAGAGCACAG CAAGACCCCT 
GAGGAGAGGA GCCTTCCTTC CGACCTGGCC TTCAACGGGG ACCTGGCTAA GGCAGCCAGC 
TCGGAGCTAC CTGCTGATAT TTCCAAGCCC TGGATTCCCT CAAGTCCAGC CCCCTCCTCA 
GAGAATGGAG GCCCTGCCAG CCCAGGCCTC CCCGCAGAAG CCTCAGGCTC AGGCCCTGGC 
TCTCCCCATC TTCACCCGCC TGATAAGAGT TCTCCCTGCC ACTCACAGCT TCTGGAAGCC 
CAGACTCCTG AAGCTTCCCA GGCTTCTCCC TGCCCCGCTG TGACTCCATC AGCTCCAAGT 
GCAGCCCTGC CTGACGAGGG CTCCCGCCAC ACCCCCAGCC CGGGGCTCCC TGCCGAGGGG 
GCTCCAGAGG CCCCCAGACC CAGCAGCCCA CCCCCTGAGG TCTTGGAGCC CCATAGCCTG 
GATCAGCCCC CTGCCACCTC ACCCCGGCCC CTGATCGAGG TGGGTGAGTT GCTGGATCTC 
ACTCGGACGT TTCCATCTGG CGGGGAGGAG GAGGCCAAGG GTGACGCACA CCTCCGCCCC 
ACCAGCCTGG TTCAGCGCCG ATTCTCTGAA GGTGTGCTCC AGTCACCCAG TCAGGACCAG 
GAGAAGCTGG GGGGCTCGCT GGCTGCCCTG CCCCAAGGCC AGGGGAGCCA GTTGGCCCTG 
GATCGTCCCT TTGGGGCAGA GTCCAACTGG AGCTTATCAC AGTCCTTCGA ATGGACCTTC 
CCCACGAGGC CCTCGGGTCT GGGCGTGTGG CGGCTGGACT CCCCGCCTCC CTCCCCCATC 
ACTGAAGCCA GTGAGGCCGC CGAGGCTGCT GAGGCTGGCA ACTTGGCCGT TTCCAGCAGG 
GAAGAAGGAG TGTCTCAGCA GGGGCAAGGG GCTGGGTCAG CTCCAAGTGG GTCAGGAAGT 
TCCTGGGTGC AGGGGGATGA TCCAAGCATG TCCCTCACCC AGAAGGGCGA TGGGGAGAGT 
CAACCTCAAT TCCCAGCTGT TCCCCTTGAG CCCCTGCCTA CAACTGAGGG CACACCTGGA 
TTACCTTTGC AGCAGGCAGA GGAGAGATAC GAGTCGCAGG AGCCCTTGGC TGGACAGGAG 
TCCCCTCTCC CCCTGGCTAC CAGGGAGGCA GCCTTGCCCA TCCTGGAGCC AGTCCTGGGG 
CAGGAGCAGC CAGCAGCCCC TGACCAGCCC TGTGTTCTCT TTGCTGATGC CCCTGAGCCT 
GGACAGGCAC TGCCTGTTGA GGAGGAGGCC GTGACCCTAG CCCGGGCTGA GACCACCCAA 
GCCAGGACAG AGGCTCAAGA CTTGTGTAGG GCATCCCCCG AGCCTCCAGG CCCTGAAAGC 
AGCTCCCGCT GGCTGGACGA CCTCCTGGCT TCACCACCAC CCAGTGGTGG CGGTGCAAGG 
CGGGGAGCTG GAGCTGAGCT GAAGGACACA CAGTCCCCAA GTACCTGCTC TGAGGGACTC 
CTTGGCTGGT CCCAGAAAGA TCTGCAGAGT GAATTTGGGA TCACAGGAGA CCCACAGCCC 
AGCAGTTTCA GTCCTTCCAG CTGGTGTCAA GGTGCTTCTC AGGACTATGG CCTTGGGGGT 
GCAAGCCCTA GAGGAGACCC AGGTCTCGGA GAGAGGGACT GGACCAGCAA GTATGGGCAA 
GGAGCAGGGG AAGGGAGCAC CAGGGAGTGG GCCAGCAGGT GTGGCATCGG CCAGGAGGAG 
ATGGAGGCCA GCAGCAGCCA AGACCAGAGT AAAGTGTCTG CCCCAGGGGT GCTCACAGCC 
CAGGACCGGG TAGTTGGAAA GCCAGCCCAG CTTGGCACTC AGCGGAGCCA GGAGGCAGAT 
GTTCAGGACT GGGAGTTCAG AAAGAGGGAT TCCCAGGGCA CTTACTCCAG CCGGGATGCA 
GAACTCCAGG ACCAGGAATT CGGAAAGAGA GATTCACTGG GTACCTACAG TAGTCGAGAT 
GTAAGCCTTG GGGACTGGGA ATTTGGGAAG AGAGATTCTC TGGGTGCTTA TGCCAGCCAA 
GATGCCAACG AGCAGGGCCA AGATTTGGGG AAGAGGGACC ACCATGGTAG GTACAGCAGC 
CAGGATGCCG ATGAGCAGGA CTGGGAGTTT CAGAAGAGAG ATGTGTCACT CGGCACCTAT 
GGCAGCCGGG CTGCGGAGCC ACAGGAACAG GAGTTTGGGA AGAGCGCTTG GATAAGGGAC 
TACAGCAGTG GTGGCAGCTC CAGGACCCTT GACGCCCAGG ACAGAAGCTT TGGAACGAGA 
CCCCTGAGCT CTGGGTTCAG CCCCGAGGAA GCCCAGCAAC AGGATGAGGA ATTTGAGAAG 
AAGATTCCAA GTGTGGAAGA CAGCCTTGGA GAGGGCAGCA GGGATGCTGG CCGGCCAGGA 
GAGAGAGGAT CCGGGGGCTT GTTCAGTCCT AGCACTGCCC ACGTGCCGGA TGGGGCACTC 
GGGCAGAGAG ACCAGAGCAG CTGGCAAAAC AGTGATGCTA GCCAGGAGGT GGGAGGGCAT 
CAGGAGAGAC AGCAGGCAGG GGCTCAGGGC CCTGGCAGTG CTGACCTGGA AGATGGGGAG 
ATGGGAAAGC GAGGCTGGGT CGGTGAGTTT AGCCTCAGTG TTGGCCCCCA GCGAGAGGCA 
GCATTTAGCC CAGGGCAGCA GGACTGGAGC CGGGACTTCT GCATCGAGGC CAGTGAGAGG 
AGCTATCAGT TTGGCATCAT TGGCAACGAC AGAGTGAGTG GTGCTGGCTT TAGCCCTTCT 
AGCAAGATGG AAGGTGGTCA CTTTGTGCCT CCTGGGAAGA CCACAGCTGG CTCGGTGGAC 
TGGACTGACC AGCTGGGTCT CAGGAACTTG GAAGTGTCCA GCTGTGTGGG TTCTGGGGGC 
TCGAGCGAGG CCAGGGAGAG TGCCGTGGGA CAGATGGGCT GGTCAGGTGG CCTGAGCTTG 
AGAGACATGA ACCTGACCGG CTGTTTGGAA AGTGGAGGGT CTGAAGAGCC GGGGGGAATC 
GGAGTTGGGG AGAAGGACTG GACTTCTGAT GTTAATGTGA AGAGCAAAGA TTTGGCTGAG 
GTCGGGGAGG GAGGAGGCCA CAGCCAGGCC AGAGAGAGTG GCGTGGGGCA GACTGACTGG 
TCAGGTGTGG AGGCCGGAGA GTTCCTTAAA TCAAGGGAGC GTGGAGTTGG ACAGGCAGAC 
TGGACACCTG ACCTTGGGCT GAGAAACATG GCCCCAGGGG CAGTCTGCAG TCCTGGAGAG 
TCCAAAGAGC TTGGGGTGGG CCAGATGGAC TGGGGTAACA ATCTGGGCCT GAGGGATTTG 
GAGGTGACCT GTGACCCAGA CTCTGGAGGT TCTCAGGGGC TACGGGGATG TGGAGTGGGG 
CAGATGGACT GGACCCAGGA CTTGGCGCCC CAGAATGTGG AGCTCTTTGG GGCTCCAAGT 
GAAGCCAGGG AGCATGGGGT GGGCGGGGTG AGCCAGTGCC CAGAGCCCGG CCTGAGGCAC 
AATGGCAGCT TGTCTCCTGG CCTGGAGGCC AGAGACCCCT TGGAGGCCAG GGAGCTGGGG 
GTTGGTGAGA CAAGTGGGCC AGAGACCCAG GGTGAAGATT ACTCCTCGTC TTCCTTGGAG 
CCACACCCTG CAGACCCTGG AATGGAGACA GGAGAAGCCC TCAGCTTCGG AGCAAGCGAC 
TCCGTGCAGT TAGAGGAGCC TGAGCTGTTT CCAGGGGAGG GGGCTCACCC GAGGTCTCAG 
GGATTTGAAC CTGCCAGACT GGCTCAGCTC TTCACCTGTG TGCTGTGTTG CTCAAGGCCC 
TGA

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

RefSeq	XP_011543627.1
CDS	179..4621
Translation	MKVSTLRESSAMASPLPREMEEELVPTGSEPGDTRAKPPVKPKPRALPAKPALPAKPSLLVPVGPRPPRGPLAELPSARKMNMLAGPQPYGGSKRPLPFAPRPAVEASTGGEATQETGKEEAGKEEPPPLTPPARCAAPGGVRKAPAPFRPASERFAATTVEEILAKMEQPRKEVLASPDRLWGSRLTFNHDGSSRYGPRTYGTTTAPRDEDGSTLFRGWSQEGPVKSPAECREEHSKTPEERSLPSDLAFNGDLAKAASSELPADISKPWIPSSPAPSSENGGPASPGLPAEASGSGPGSPHLHPPDKSSPCHSQLLEAQTPEASQASPCPAVTPSAPSAALPDEGSRHTPSPGLPAEGAPEAPRPSSPPPEVLEPHSLDQPPATSPRPLIEVGELLDLTRTFPSGGEEEAKGDAHLRPTSLVQRRFSEGVLQSPSQDQEKLGGSLAALPQGQGSQLALDRPFGAESNWSLSQSFEWTFPTRPSGLGVWRLDSPPPSPITEASEAAEAAEAGNLAVSSREEGVSQQGQGAGSAPSGSGSSWVQGDDPSMSLTQKGDGESQPQFPAVPLEPLPTTEGTPGLPLQQAEERYESQEPLAGQESPLPLATREAALPILEPVLGQEQPAAPDQPCVLFADAPEPGQALPVEEEAVTLARAETTQARTEAQDLCRASPEPPGPESSSRWLDDLLASPPPSGGGARRGAGAELKDTQSPSTCSEGLLGWSQKDLQSEFGITGDPQPSSFSPSSWCQGASQDYGLGGASPRGDPGLGERDWTSKYGQGAGEGSTREWASRCGIGQEEMEASSSQDQSKVSAPGVLTAQDRVVGKPAQLGTQRSQEADVQDWEFRKRDSQGTYSSRDAELQDQEFGKRDSLGTYSSRDVSLGDWEFGKRDSLGAYASQDANEQGQDLGKRDHHGRYSSQDADEQDWEFQKRDVSLGTYGSRAAEPQEQEFGKSAWIRDYSSGGSSRTLDAQDRSFGTRPLSSGFSPEEAQQQDEEFEKKIPSVEDSLGEGSRDAGRPGERGSGGLFSPSTAHVPDGALGQRDQSSWQNSDASQEVGGHQERQQAGAQGPGSADLEDGEMGKRGWVGEFSLSVGPQREAAFSPGQQDWSRDFCIEASERSYQFGIIGNDRVSGAGFSPSSKMEGGHFVPPGKTTAGSVDWTDQLGLRNLEVSSCVGSGGSSEARESAVGQMGWSGGLSLRDMNLTGCLESGGSEEPGGIGVGEKDWTSDVNVKSKDLAEVGEGGGHSQARESGVGQTDWSGVEAGEFLKSRERGVGQADWTPDLGLRNMAPGAVCSPGESKELGVGQMDWGNNLGLRDLEVTCDPDSGGSQGLRGCGVGQMDWTQDLAPQNVELFGAPSEAREHGVGGVSQCPEPGLRHNGSLSPGLEARDPLEARELGVGETSGPETQGEDYSSSSLEPHPADPGMETGEALSFGASDSVQLEEPELFPGEGAHPRSQGFEPARLAQLFTCVLCCSRP

Target ORF information:

RefSeq Version	XM_011545325.2
Organism	Homo sapiens(human)
Definition	Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), transcript variant X2, mRNA.

Target ORF information:

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

XM_011545325.2

ORF Insert Sequence:

ATGAAAGTGT CTACTCTCAG GGAAAGCTCA GCCATGGCTT CCCCACTGCC CCGGGAGATG 
GAGGAGGAGC TGGTGCCTAC TGGCTCTGAG CCAGGTGACA CTCGGGCCAA ACCCCCTGTC 
AAGCCCAAAC CCCGGGCCCT GCCTGCCAAG CCAGCCCTGC CTGCCAAACC CAGCCTGCTG 
GTGCCTGTTG GGCCTCGGCC TCCCCGGGGT CCCCTGGCTG AGTTGCCTTC TGCCAGGAAG 
ATGAACATGC TGGCAGGACC CCAGCCCTAT GGTGGCAGCA AGCGCCCCCT TCCCTTTGCA 
CCAAGGCCTG CGGTTGAGGC CTCCACTGGA GGAGAAGCCA CCCAAGAGAC TGGGAAAGAG 
GAGGCTGGGA AAGAGGAGCC ACCCCCTTTG ACACCCCCAG CTCGATGTGC AGCCCCAGGG 
GGTGTACGGA AGGCCCCTGC CCCTTTCCGC CCAGCCTCAG AGCGCTTCGC GGCCACCACG 
GTGGAAGAGA TCCTGGCCAA GATGGAGCAG CCTCGGAAGG AGGTCCTTGC CAGCCCCGAC 
CGCCTGTGGG GTTCCCGCCT CACCTTTAAC CACGATGGCA GCTCGCGATA TGGCCCCAGG 
ACCTATGGCA CGACCACTGC TCCCAGGGAT GAGGATGGCA GCACCCTCTT CAGGGGATGG 
TCCCAGGAGG GGCCAGTAAA GTCTCCAGCA GAGTGCCGGG AAGAGCACAG CAAGACCCCT 
GAGGAGAGGA GCCTTCCTTC CGACCTGGCC TTCAACGGGG ACCTGGCTAA GGCAGCCAGC 
TCGGAGCTAC CTGCTGATAT TTCCAAGCCC TGGATTCCCT CAAGTCCAGC CCCCTCCTCA 
GAGAATGGAG GCCCTGCCAG CCCAGGCCTC CCCGCAGAAG CCTCAGGCTC AGGCCCTGGC 
TCTCCCCATC TTCACCCGCC TGATAAGAGT TCTCCCTGCC ACTCACAGCT TCTGGAAGCC 
CAGACTCCTG AAGCTTCCCA GGCTTCTCCC TGCCCCGCTG TGACTCCATC AGCTCCAAGT 
GCAGCCCTGC CTGACGAGGG CTCCCGCCAC ACCCCCAGCC CGGGGCTCCC TGCCGAGGGG 
GCTCCAGAGG CCCCCAGACC CAGCAGCCCA CCCCCTGAGG TCTTGGAGCC CCATAGCCTG 
GATCAGCCCC CTGCCACCTC ACCCCGGCCC CTGATCGAGG TGGGTGAGTT GCTGGATCTC 
ACTCGGACGT TTCCATCTGG CGGGGAGGAG GAGGCCAAGG GTGACGCACA CCTCCGCCCC 
ACCAGCCTGG TTCAGCGCCG ATTCTCTGAA GGTGTGCTCC AGTCACCCAG TCAGGACCAG 
GAGAAGCTGG GGGGCTCGCT GGCTGCCCTG CCCCAAGGCC AGGGGAGCCA GTTGGCCCTG 
GATCGTCCCT TTGGGGCAGA GTCCAACTGG AGCTTATCAC AGTCCTTCGA ATGGACCTTC 
CCCACGAGGC CCTCGGGTCT GGGCGTGTGG CGGCTGGACT CCCCGCCTCC CTCCCCCATC 
ACTGAAGCCA GTGAGGCCGC CGAGGCTGCT GAGGCTGGCA ACTTGGCCGT TTCCAGCAGG 
GAAGAAGGAG TGTCTCAGCA GGGGCAAGGG GCTGGGTCAG CTCCAAGTGG GTCAGGAAGT 
TCCTGGGTGC AGGGGGATGA TCCAAGCATG TCCCTCACCC AGAAGGGCGA TGGGGAGAGT 
CAACCTCAAT TCCCAGCTGT TCCCCTTGAG CCCCTGCCTA CAACTGAGGG CACACCTGGA 
TTACCTTTGC AGCAGGCAGA GGAGAGATAC GAGTCGCAGG AGCCCTTGGC TGGACAGGAG 
TCCCCTCTCC CCCTGGCTAC CAGGGAGGCA GCCTTGCCCA TCCTGGAGCC AGTCCTGGGG 
CAGGAGCAGC CAGCAGCCCC TGACCAGCCC TGTGTTCTCT TTGCTGATGC CCCTGAGCCT 
GGACAGGCAC TGCCTGTTGA GGAGGAGGCC GTGACCCTAG CCCGGGCTGA GACCACCCAA 
GCCAGGACAG AGGCTCAAGA CTTGTGTAGG GCATCCCCCG AGCCTCCAGG CCCTGAAAGC 
AGCTCCCGCT GGCTGGACGA CCTCCTGGCT TCACCACCAC CCAGTGGTGG CGGTGCAAGG 
CGGGGAGCTG GAGCTGAGCT GAAGGACACA CAGTCCCCAA GTACCTGCTC TGAGGGACTC 
CTTGGCTGGT CCCAGAAAGA TCTGCAGAGT GAATTTGGGA TCACAGGAGA CCCACAGCCC 
AGCAGTTTCA GTCCTTCCAG CTGGTGTCAA GGTGCTTCTC AGGACTATGG CCTTGGGGGT 
GCAAGCCCTA GAGGAGACCC AGGTCTCGGA GAGAGGGACT GGACCAGCAA GTATGGGCAA 
GGAGCAGGGG AAGGGAGCAC CAGGGAGTGG GCCAGCAGGT GTGGCATCGG CCAGGAGGAG 
ATGGAGGCCA GCAGCAGCCA AGACCAGAGT AAAGTGTCTG CCCCAGGGGT GCTCACAGCC 
CAGGACCGGG TAGTTGGAAA GCCAGCCCAG CTTGGCACTC AGCGGAGCCA GGAGGCAGAT 
GTTCAGGACT GGGAGTTCAG AAAGAGGGAT TCCCAGGGCA CTTACTCCAG CCGGGATGCA 
GAACTCCAGG ACCAGGAATT CGGAAAGAGA GATTCACTGG GTACCTACAG TAGTCGAGAT 
GTAAGCCTTG GGGACTGGGA ATTTGGGAAG AGAGATTCTC TGGGTGCTTA TGCCAGCCAA 
GATGCCAACG AGCAGGGCCA AGATTTGGGG AAGAGGGACC ACCATGGTAG GTACAGCAGC 
CAGGATGCCG ATGAGCAGGA CTGGGAGTTT CAGAAGAGAG ATGTGTCACT CGGCACCTAT 
GGCAGCCGGG CTGCGGAGCC ACAGGAACAG GAGTTTGGGA AGAGCGCTTG GATAAGGGAC 
TACAGCAGTG GTGGCAGCTC CAGGACCCTT GACGCCCAGG ACAGAAGCTT TGGAACGAGA 
CCCCTGAGCT CTGGGTTCAG CCCCGAGGAA GCCCAGCAAC AGGATGAGGA ATTTGAGAAG 
AAGATTCCAA GTGTGGAAGA CAGCCTTGGA GAGGGCAGCA GGGATGCTGG CCGGCCAGGA 
GAGAGAGGAT CCGGGGGCTT GTTCAGTCCT AGCACTGCCC ACGTGCCGGA TGGGGCACTC 
GGGCAGAGAG ACCAGAGCAG CTGGCAAAAC AGTGATGCTA GCCAGGAGGT GGGAGGGCAT 
CAGGAGAGAC AGCAGGCAGG GGCTCAGGGC CCTGGCAGTG CTGACCTGGA AGATGGGGAG 
ATGGGAAAGC GAGGCTGGGT CGGTGAGTTT AGCCTCAGTG TTGGCCCCCA GCGAGAGGCA 
GCATTTAGCC CAGGGCAGCA GGACTGGAGC CGGGACTTCT GCATCGAGGC CAGTGAGAGG 
AGCTATCAGT TTGGCATCAT TGGCAACGAC AGAGTGAGTG GTGCTGGCTT TAGCCCTTCT 
AGCAAGATGG AAGGTGGTCA CTTTGTGCCT CCTGGGAAGA CCACAGCTGG CTCGGTGGAC 
TGGACTGACC AGCTGGGTCT CAGGAACTTG GAAGTGTCCA GCTGTGTGGG TTCTGGGGGC 
TCGAGCGAGG CCAGGGAGAG TGCCGTGGGA CAGATGGGCT GGTCAGGTGG CCTGAGCTTG 
AGAGACATGA ACCTGACCGG CTGTTTGGAA AGTGGAGGGT CTGAAGAGCC GGGGGGAATC 
GGAGTTGGGG AGAAGGACTG GACTTCTGAT GTTAATGTGA AGAGCAAAGA TTTGGCTGAG 
GTCGGGGAGG GAGGAGGCCA CAGCCAGGCC AGAGAGAGTG GCGTGGGGCA GACTGACTGG 
TCAGGTGTGG AGGCCGGAGA GTTCCTTAAA TCAAGGGAGC GTGGAGTTGG ACAGGCAGAC 
TGGACACCTG ACCTTGGGCT GAGAAACATG GCCCCAGGGG CAGTCTGCAG TCCTGGAGAG 
TCCAAAGAGC TTGGGGTGGG CCAGATGGAC TGGGGTAACA ATCTGGGCCT GAGGGATTTG 
GAGGTGACCT GTGACCCAGA CTCTGGAGGT TCTCAGGGGC TACGGGGATG TGGAGTGGGG 
CAGATGGACT GGACCCAGGA CTTGGCGCCC CAGAATGTGG AGCTCTTTGG GGCTCCAAGT 
GAAGCCAGGG AGCATGGGGT GGGCGGGGTG AGCCAGTGCC CAGAGCCCGG CCTGAGGCAC 
AATGGCAGCT TGTCTCCTGG CCTGGAGGCC AGAGACCCCT TGGAGGCCAG GGAGCTGGGG 
GTTGGTGAGA CAAGTGGGCC AGAGACCCAG GGTGAAGATT ACTCCTCGTC TTCCTTGGAG 
CCACACCCTG CAGACCCTGG AATGGAGACA GGAGAAGCCC TCAGCTTCGG AGCAAGCGAC 
TCCGTGCAGT TAGAGGAGCC TGAGCTGTTT CCAGGGGAGG GGGCTCACCC GAGGTCTCAG 
GGATTTGAAC CTGCCAGACT GGCTCAGCTC TTCACCTGTG TGCTGTGTTG CTCAAGGCCC 
TGA

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

TNKS1BP1 ( XM_011545325.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011543627.1 Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), transcript variant X2, mRNA.

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CloneID	OHu73995
Clone ID Related Accession (Same CDS sequence)	XM_011545325.2 , XM_011545325.3
Accession Version	XM_011545325.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4443bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	182 kDa tankyrase-1-binding protein isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011545325.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAAGTGT CTACTCTCAG GGAAAGCTCA GCCATGGCTT CCCCACTGCC CCGGGAGATG 
GAGGAGGAGC TGGTGCCTAC TGGCTCTGAG CCAGGTGACA CTCGGGCCAA ACCCCCTGTC 
AAGCCCAAAC CCCGGGCCCT GCCTGCCAAG CCAGCCCTGC CTGCCAAACC CAGCCTGCTG 
GTGCCTGTTG GGCCTCGGCC TCCCCGGGGT CCCCTGGCTG AGTTGCCTTC TGCCAGGAAG 
ATGAACATGC TGGCAGGACC CCAGCCCTAT GGTGGCAGCA AGCGCCCCCT TCCCTTTGCA 
CCAAGGCCTG CGGTTGAGGC CTCCACTGGA GGAGAAGCCA CCCAAGAGAC TGGGAAAGAG 
GAGGCTGGGA AAGAGGAGCC ACCCCCTTTG ACACCCCCAG CTCGATGTGC AGCCCCAGGG 
GGTGTACGGA AGGCCCCTGC CCCTTTCCGC CCAGCCTCAG AGCGCTTCGC GGCCACCACG 
GTGGAAGAGA TCCTGGCCAA GATGGAGCAG CCTCGGAAGG AGGTCCTTGC CAGCCCCGAC 
CGCCTGTGGG GTTCCCGCCT CACCTTTAAC CACGATGGCA GCTCGCGATA TGGCCCCAGG 
ACCTATGGCA CGACCACTGC TCCCAGGGAT GAGGATGGCA GCACCCTCTT CAGGGGATGG 
TCCCAGGAGG GGCCAGTAAA GTCTCCAGCA GAGTGCCGGG AAGAGCACAG CAAGACCCCT 
GAGGAGAGGA GCCTTCCTTC CGACCTGGCC TTCAACGGGG ACCTGGCTAA GGCAGCCAGC 
TCGGAGCTAC CTGCTGATAT TTCCAAGCCC TGGATTCCCT CAAGTCCAGC CCCCTCCTCA 
GAGAATGGAG GCCCTGCCAG CCCAGGCCTC CCCGCAGAAG CCTCAGGCTC AGGCCCTGGC 
TCTCCCCATC TTCACCCGCC TGATAAGAGT TCTCCCTGCC ACTCACAGCT TCTGGAAGCC 
CAGACTCCTG AAGCTTCCCA GGCTTCTCCC TGCCCCGCTG TGACTCCATC AGCTCCAAGT 
GCAGCCCTGC CTGACGAGGG CTCCCGCCAC ACCCCCAGCC CGGGGCTCCC TGCCGAGGGG 
GCTCCAGAGG CCCCCAGACC CAGCAGCCCA CCCCCTGAGG TCTTGGAGCC CCATAGCCTG 
GATCAGCCCC CTGCCACCTC ACCCCGGCCC CTGATCGAGG TGGGTGAGTT GCTGGATCTC 
ACTCGGACGT TTCCATCTGG CGGGGAGGAG GAGGCCAAGG GTGACGCACA CCTCCGCCCC 
ACCAGCCTGG TTCAGCGCCG ATTCTCTGAA GGTGTGCTCC AGTCACCCAG TCAGGACCAG 
GAGAAGCTGG GGGGCTCGCT GGCTGCCCTG CCCCAAGGCC AGGGGAGCCA GTTGGCCCTG 
GATCGTCCCT TTGGGGCAGA GTCCAACTGG AGCTTATCAC AGTCCTTCGA ATGGACCTTC 
CCCACGAGGC CCTCGGGTCT GGGCGTGTGG CGGCTGGACT CCCCGCCTCC CTCCCCCATC 
ACTGAAGCCA GTGAGGCCGC CGAGGCTGCT GAGGCTGGCA ACTTGGCCGT TTCCAGCAGG 
GAAGAAGGAG TGTCTCAGCA GGGGCAAGGG GCTGGGTCAG CTCCAAGTGG GTCAGGAAGT 
TCCTGGGTGC AGGGGGATGA TCCAAGCATG TCCCTCACCC AGAAGGGCGA TGGGGAGAGT 
CAACCTCAAT TCCCAGCTGT TCCCCTTGAG CCCCTGCCTA CAACTGAGGG CACACCTGGA 
TTACCTTTGC AGCAGGCAGA GGAGAGATAC GAGTCGCAGG AGCCCTTGGC TGGACAGGAG 
TCCCCTCTCC CCCTGGCTAC CAGGGAGGCA GCCTTGCCCA TCCTGGAGCC AGTCCTGGGG 
CAGGAGCAGC CAGCAGCCCC TGACCAGCCC TGTGTTCTCT TTGCTGATGC CCCTGAGCCT 
GGACAGGCAC TGCCTGTTGA GGAGGAGGCC GTGACCCTAG CCCGGGCTGA GACCACCCAA 
GCCAGGACAG AGGCTCAAGA CTTGTGTAGG GCATCCCCCG AGCCTCCAGG CCCTGAAAGC 
AGCTCCCGCT GGCTGGACGA CCTCCTGGCT TCACCACCAC CCAGTGGTGG CGGTGCAAGG 
CGGGGAGCTG GAGCTGAGCT GAAGGACACA CAGTCCCCAA GTACCTGCTC TGAGGGACTC 
CTTGGCTGGT CCCAGAAAGA TCTGCAGAGT GAATTTGGGA TCACAGGAGA CCCACAGCCC 
AGCAGTTTCA GTCCTTCCAG CTGGTGTCAA GGTGCTTCTC AGGACTATGG CCTTGGGGGT 
GCAAGCCCTA GAGGAGACCC AGGTCTCGGA GAGAGGGACT GGACCAGCAA GTATGGGCAA 
GGAGCAGGGG AAGGGAGCAC CAGGGAGTGG GCCAGCAGGT GTGGCATCGG CCAGGAGGAG 
ATGGAGGCCA GCAGCAGCCA AGACCAGAGT AAAGTGTCTG CCCCAGGGGT GCTCACAGCC 
CAGGACCGGG TAGTTGGAAA GCCAGCCCAG CTTGGCACTC AGCGGAGCCA GGAGGCAGAT 
GTTCAGGACT GGGAGTTCAG AAAGAGGGAT TCCCAGGGCA CTTACTCCAG CCGGGATGCA 
GAACTCCAGG ACCAGGAATT CGGAAAGAGA GATTCACTGG GTACCTACAG TAGTCGAGAT 
GTAAGCCTTG GGGACTGGGA ATTTGGGAAG AGAGATTCTC TGGGTGCTTA TGCCAGCCAA 
GATGCCAACG AGCAGGGCCA AGATTTGGGG AAGAGGGACC ACCATGGTAG GTACAGCAGC 
CAGGATGCCG ATGAGCAGGA CTGGGAGTTT CAGAAGAGAG ATGTGTCACT CGGCACCTAT 
GGCAGCCGGG CTGCGGAGCC ACAGGAACAG GAGTTTGGGA AGAGCGCTTG GATAAGGGAC 
TACAGCAGTG GTGGCAGCTC CAGGACCCTT GACGCCCAGG ACAGAAGCTT TGGAACGAGA 
CCCCTGAGCT CTGGGTTCAG CCCCGAGGAA GCCCAGCAAC AGGATGAGGA ATTTGAGAAG 
AAGATTCCAA GTGTGGAAGA CAGCCTTGGA GAGGGCAGCA GGGATGCTGG CCGGCCAGGA 
GAGAGAGGAT CCGGGGGCTT GTTCAGTCCT AGCACTGCCC ACGTGCCGGA TGGGGCACTC 
GGGCAGAGAG ACCAGAGCAG CTGGCAAAAC AGTGATGCTA GCCAGGAGGT GGGAGGGCAT 
CAGGAGAGAC AGCAGGCAGG GGCTCAGGGC CCTGGCAGTG CTGACCTGGA AGATGGGGAG 
ATGGGAAAGC GAGGCTGGGT CGGTGAGTTT AGCCTCAGTG TTGGCCCCCA GCGAGAGGCA 
GCATTTAGCC CAGGGCAGCA GGACTGGAGC CGGGACTTCT GCATCGAGGC CAGTGAGAGG 
AGCTATCAGT TTGGCATCAT TGGCAACGAC AGAGTGAGTG GTGCTGGCTT TAGCCCTTCT 
AGCAAGATGG AAGGTGGTCA CTTTGTGCCT CCTGGGAAGA CCACAGCTGG CTCGGTGGAC 
TGGACTGACC AGCTGGGTCT CAGGAACTTG GAAGTGTCCA GCTGTGTGGG TTCTGGGGGC 
TCGAGCGAGG CCAGGGAGAG TGCCGTGGGA CAGATGGGCT GGTCAGGTGG CCTGAGCTTG 
AGAGACATGA ACCTGACCGG CTGTTTGGAA AGTGGAGGGT CTGAAGAGCC GGGGGGAATC 
GGAGTTGGGG AGAAGGACTG GACTTCTGAT GTTAATGTGA AGAGCAAAGA TTTGGCTGAG 
GTCGGGGAGG GAGGAGGCCA CAGCCAGGCC AGAGAGAGTG GCGTGGGGCA GACTGACTGG 
TCAGGTGTGG AGGCCGGAGA GTTCCTTAAA TCAAGGGAGC GTGGAGTTGG ACAGGCAGAC 
TGGACACCTG ACCTTGGGCT GAGAAACATG GCCCCAGGGG CAGTCTGCAG TCCTGGAGAG 
TCCAAAGAGC TTGGGGTGGG CCAGATGGAC TGGGGTAACA ATCTGGGCCT GAGGGATTTG 
GAGGTGACCT GTGACCCAGA CTCTGGAGGT TCTCAGGGGC TACGGGGATG TGGAGTGGGG 
CAGATGGACT GGACCCAGGA CTTGGCGCCC CAGAATGTGG AGCTCTTTGG GGCTCCAAGT 
GAAGCCAGGG AGCATGGGGT GGGCGGGGTG AGCCAGTGCC CAGAGCCCGG CCTGAGGCAC 
AATGGCAGCT TGTCTCCTGG CCTGGAGGCC AGAGACCCCT TGGAGGCCAG GGAGCTGGGG 
GTTGGTGAGA CAAGTGGGCC AGAGACCCAG GGTGAAGATT ACTCCTCGTC TTCCTTGGAG 
CCACACCCTG CAGACCCTGG AATGGAGACA GGAGAAGCCC TCAGCTTCGG AGCAAGCGAC 
TCCGTGCAGT TAGAGGAGCC TGAGCTGTTT CCAGGGGAGG GGGCTCACCC GAGGTCTCAG 
GGATTTGAAC CTGCCAGACT GGCTCAGCTC TTCACCTGTG TGCTGTGTTG CTCAAGGCCC 
TGA

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

RefSeq	XP_011543627.1
CDS	179..4621
Translation	MKVSTLRESSAMASPLPREMEEELVPTGSEPGDTRAKPPVKPKPRALPAKPALPAKPSLLVPVGPRPPRGPLAELPSARKMNMLAGPQPYGGSKRPLPFAPRPAVEASTGGEATQETGKEEAGKEEPPPLTPPARCAAPGGVRKAPAPFRPASERFAATTVEEILAKMEQPRKEVLASPDRLWGSRLTFNHDGSSRYGPRTYGTTTAPRDEDGSTLFRGWSQEGPVKSPAECREEHSKTPEERSLPSDLAFNGDLAKAASSELPADISKPWIPSSPAPSSENGGPASPGLPAEASGSGPGSPHLHPPDKSSPCHSQLLEAQTPEASQASPCPAVTPSAPSAALPDEGSRHTPSPGLPAEGAPEAPRPSSPPPEVLEPHSLDQPPATSPRPLIEVGELLDLTRTFPSGGEEEAKGDAHLRPTSLVQRRFSEGVLQSPSQDQEKLGGSLAALPQGQGSQLALDRPFGAESNWSLSQSFEWTFPTRPSGLGVWRLDSPPPSPITEASEAAEAAEAGNLAVSSREEGVSQQGQGAGSAPSGSGSSWVQGDDPSMSLTQKGDGESQPQFPAVPLEPLPTTEGTPGLPLQQAEERYESQEPLAGQESPLPLATREAALPILEPVLGQEQPAAPDQPCVLFADAPEPGQALPVEEEAVTLARAETTQARTEAQDLCRASPEPPGPESSSRWLDDLLASPPPSGGGARRGAGAELKDTQSPSTCSEGLLGWSQKDLQSEFGITGDPQPSSFSPSSWCQGASQDYGLGGASPRGDPGLGERDWTSKYGQGAGEGSTREWASRCGIGQEEMEASSSQDQSKVSAPGVLTAQDRVVGKPAQLGTQRSQEADVQDWEFRKRDSQGTYSSRDAELQDQEFGKRDSLGTYSSRDVSLGDWEFGKRDSLGAYASQDANEQGQDLGKRDHHGRYSSQDADEQDWEFQKRDVSLGTYGSRAAEPQEQEFGKSAWIRDYSSGGSSRTLDAQDRSFGTRPLSSGFSPEEAQQQDEEFEKKIPSVEDSLGEGSRDAGRPGERGSGGLFSPSTAHVPDGALGQRDQSSWQNSDASQEVGGHQERQQAGAQGPGSADLEDGEMGKRGWVGEFSLSVGPQREAAFSPGQQDWSRDFCIEASERSYQFGIIGNDRVSGAGFSPSSKMEGGHFVPPGKTTAGSVDWTDQLGLRNLEVSSCVGSGGSSEARESAVGQMGWSGGLSLRDMNLTGCLESGGSEEPGGIGVGEKDWTSDVNVKSKDLAEVGEGGGHSQARESGVGQTDWSGVEAGEFLKSRERGVGQADWTPDLGLRNMAPGAVCSPGESKELGVGQMDWGNNLGLRDLEVTCDPDSGGSQGLRGCGVGQMDWTQDLAPQNVELFGAPSEAREHGVGGVSQCPEPGLRHNGSLSPGLEARDPLEARELGVGETSGPETQGEDYSSSSLEPHPADPGMETGEALSFGASDSVQLEEPELFPGEGAHPRSQGFEPARLAQLFTCVLCCSRP

Target ORF information:

RefSeq Version	XM_011545325.3
Organism	Homo sapiens(human)
Definition	Homo sapiens tankyrase 1 binding protein 1 (TNKS1BP1), transcript variant X2, mRNA.

Target ORF information:

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

XM_011545325.3

ORF Insert Sequence:

ATGAAAGTGT CTACTCTCAG GGAAAGCTCA GCCATGGCTT CCCCACTGCC CCGGGAGATG 
GAGGAGGAGC TGGTGCCTAC TGGCTCTGAG CCAGGTGACA CTCGGGCCAA ACCCCCTGTC 
AAGCCCAAAC CCCGGGCCCT GCCTGCCAAG CCAGCCCTGC CTGCCAAACC CAGCCTGCTG 
GTGCCTGTTG GGCCTCGGCC TCCCCGGGGT CCCCTGGCTG AGTTGCCTTC TGCCAGGAAG 
ATGAACATGC TGGCAGGACC CCAGCCCTAT GGTGGCAGCA AGCGCCCCCT TCCCTTTGCA 
CCAAGGCCTG CGGTTGAGGC CTCCACTGGA GGAGAAGCCA CCCAAGAGAC TGGGAAAGAG 
GAGGCTGGGA AAGAGGAGCC ACCCCCTTTG ACACCCCCAG CTCGATGTGC AGCCCCAGGG 
GGTGTACGGA AGGCCCCTGC CCCTTTCCGC CCAGCCTCAG AGCGCTTCGC GGCCACCACG 
GTGGAAGAGA TCCTGGCCAA GATGGAGCAG CCTCGGAAGG AGGTCCTTGC CAGCCCCGAC 
CGCCTGTGGG GTTCCCGCCT CACCTTTAAC CACGATGGCA GCTCGCGATA TGGCCCCAGG 
ACCTATGGCA CGACCACTGC TCCCAGGGAT GAGGATGGCA GCACCCTCTT CAGGGGATGG 
TCCCAGGAGG GGCCAGTAAA GTCTCCAGCA GAGTGCCGGG AAGAGCACAG CAAGACCCCT 
GAGGAGAGGA GCCTTCCTTC CGACCTGGCC TTCAACGGGG ACCTGGCTAA GGCAGCCAGC 
TCGGAGCTAC CTGCTGATAT TTCCAAGCCC TGGATTCCCT CAAGTCCAGC CCCCTCCTCA 
GAGAATGGAG GCCCTGCCAG CCCAGGCCTC CCCGCAGAAG CCTCAGGCTC AGGCCCTGGC 
TCTCCCCATC TTCACCCGCC TGATAAGAGT TCTCCCTGCC ACTCACAGCT TCTGGAAGCC 
CAGACTCCTG AAGCTTCCCA GGCTTCTCCC TGCCCCGCTG TGACTCCATC AGCTCCAAGT 
GCAGCCCTGC CTGACGAGGG CTCCCGCCAC ACCCCCAGCC CGGGGCTCCC TGCCGAGGGG 
GCTCCAGAGG CCCCCAGACC CAGCAGCCCA CCCCCTGAGG TCTTGGAGCC CCATAGCCTG 
GATCAGCCCC CTGCCACCTC ACCCCGGCCC CTGATCGAGG TGGGTGAGTT GCTGGATCTC 
ACTCGGACGT TTCCATCTGG CGGGGAGGAG GAGGCCAAGG GTGACGCACA CCTCCGCCCC 
ACCAGCCTGG TTCAGCGCCG ATTCTCTGAA GGTGTGCTCC AGTCACCCAG TCAGGACCAG 
GAGAAGCTGG GGGGCTCGCT GGCTGCCCTG CCCCAAGGCC AGGGGAGCCA GTTGGCCCTG 
GATCGTCCCT TTGGGGCAGA GTCCAACTGG AGCTTATCAC AGTCCTTCGA ATGGACCTTC 
CCCACGAGGC CCTCGGGTCT GGGCGTGTGG CGGCTGGACT CCCCGCCTCC CTCCCCCATC 
ACTGAAGCCA GTGAGGCCGC CGAGGCTGCT GAGGCTGGCA ACTTGGCCGT TTCCAGCAGG 
GAAGAAGGAG TGTCTCAGCA GGGGCAAGGG GCTGGGTCAG CTCCAAGTGG GTCAGGAAGT 
TCCTGGGTGC AGGGGGATGA TCCAAGCATG TCCCTCACCC AGAAGGGCGA TGGGGAGAGT 
CAACCTCAAT TCCCAGCTGT TCCCCTTGAG CCCCTGCCTA CAACTGAGGG CACACCTGGA 
TTACCTTTGC AGCAGGCAGA GGAGAGATAC GAGTCGCAGG AGCCCTTGGC TGGACAGGAG 
TCCCCTCTCC CCCTGGCTAC CAGGGAGGCA GCCTTGCCCA TCCTGGAGCC AGTCCTGGGG 
CAGGAGCAGC CAGCAGCCCC TGACCAGCCC TGTGTTCTCT TTGCTGATGC CCCTGAGCCT 
GGACAGGCAC TGCCTGTTGA GGAGGAGGCC GTGACCCTAG CCCGGGCTGA GACCACCCAA 
GCCAGGACAG AGGCTCAAGA CTTGTGTAGG GCATCCCCCG AGCCTCCAGG CCCTGAAAGC 
AGCTCCCGCT GGCTGGACGA CCTCCTGGCT TCACCACCAC CCAGTGGTGG CGGTGCAAGG 
CGGGGAGCTG GAGCTGAGCT GAAGGACACA CAGTCCCCAA GTACCTGCTC TGAGGGACTC 
CTTGGCTGGT CCCAGAAAGA TCTGCAGAGT GAATTTGGGA TCACAGGAGA CCCACAGCCC 
AGCAGTTTCA GTCCTTCCAG CTGGTGTCAA GGTGCTTCTC AGGACTATGG CCTTGGGGGT 
GCAAGCCCTA GAGGAGACCC AGGTCTCGGA GAGAGGGACT GGACCAGCAA GTATGGGCAA 
GGAGCAGGGG AAGGGAGCAC CAGGGAGTGG GCCAGCAGGT GTGGCATCGG CCAGGAGGAG 
ATGGAGGCCA GCAGCAGCCA AGACCAGAGT AAAGTGTCTG CCCCAGGGGT GCTCACAGCC 
CAGGACCGGG TAGTTGGAAA GCCAGCCCAG CTTGGCACTC AGCGGAGCCA GGAGGCAGAT 
GTTCAGGACT GGGAGTTCAG AAAGAGGGAT TCCCAGGGCA CTTACTCCAG CCGGGATGCA 
GAACTCCAGG ACCAGGAATT CGGAAAGAGA GATTCACTGG GTACCTACAG TAGTCGAGAT 
GTAAGCCTTG GGGACTGGGA ATTTGGGAAG AGAGATTCTC TGGGTGCTTA TGCCAGCCAA 
GATGCCAACG AGCAGGGCCA AGATTTGGGG AAGAGGGACC ACCATGGTAG GTACAGCAGC 
CAGGATGCCG ATGAGCAGGA CTGGGAGTTT CAGAAGAGAG ATGTGTCACT CGGCACCTAT 
GGCAGCCGGG CTGCGGAGCC ACAGGAACAG GAGTTTGGGA AGAGCGCTTG GATAAGGGAC 
TACAGCAGTG GTGGCAGCTC CAGGACCCTT GACGCCCAGG ACAGAAGCTT TGGAACGAGA 
CCCCTGAGCT CTGGGTTCAG CCCCGAGGAA GCCCAGCAAC AGGATGAGGA ATTTGAGAAG 
AAGATTCCAA GTGTGGAAGA CAGCCTTGGA GAGGGCAGCA GGGATGCTGG CCGGCCAGGA 
GAGAGAGGAT CCGGGGGCTT GTTCAGTCCT AGCACTGCCC ACGTGCCGGA TGGGGCACTC 
GGGCAGAGAG ACCAGAGCAG CTGGCAAAAC AGTGATGCTA GCCAGGAGGT GGGAGGGCAT 
CAGGAGAGAC AGCAGGCAGG GGCTCAGGGC CCTGGCAGTG CTGACCTGGA AGATGGGGAG 
ATGGGAAAGC GAGGCTGGGT CGGTGAGTTT AGCCTCAGTG TTGGCCCCCA GCGAGAGGCA 
GCATTTAGCC CAGGGCAGCA GGACTGGAGC CGGGACTTCT GCATCGAGGC CAGTGAGAGG 
AGCTATCAGT TTGGCATCAT TGGCAACGAC AGAGTGAGTG GTGCTGGCTT TAGCCCTTCT 
AGCAAGATGG AAGGTGGTCA CTTTGTGCCT CCTGGGAAGA CCACAGCTGG CTCGGTGGAC 
TGGACTGACC AGCTGGGTCT CAGGAACTTG GAAGTGTCCA GCTGTGTGGG TTCTGGGGGC 
TCGAGCGAGG CCAGGGAGAG TGCCGTGGGA CAGATGGGCT GGTCAGGTGG CCTGAGCTTG 
AGAGACATGA ACCTGACCGG CTGTTTGGAA AGTGGAGGGT CTGAAGAGCC GGGGGGAATC 
GGAGTTGGGG AGAAGGACTG GACTTCTGAT GTTAATGTGA AGAGCAAAGA TTTGGCTGAG 
GTCGGGGAGG GAGGAGGCCA CAGCCAGGCC AGAGAGAGTG GCGTGGGGCA GACTGACTGG 
TCAGGTGTGG AGGCCGGAGA GTTCCTTAAA TCAAGGGAGC GTGGAGTTGG ACAGGCAGAC 
TGGACACCTG ACCTTGGGCT GAGAAACATG GCCCCAGGGG CAGTCTGCAG TCCTGGAGAG 
TCCAAAGAGC TTGGGGTGGG CCAGATGGAC TGGGGTAACA ATCTGGGCCT GAGGGATTTG 
GAGGTGACCT GTGACCCAGA CTCTGGAGGT TCTCAGGGGC TACGGGGATG TGGAGTGGGG 
CAGATGGACT GGACCCAGGA CTTGGCGCCC CAGAATGTGG AGCTCTTTGG GGCTCCAAGT 
GAAGCCAGGG AGCATGGGGT GGGCGGGGTG AGCCAGTGCC CAGAGCCCGG CCTGAGGCAC 
AATGGCAGCT TGTCTCCTGG CCTGGAGGCC AGAGACCCCT TGGAGGCCAG GGAGCTGGGG 
GTTGGTGAGA CAAGTGGGCC AGAGACCCAG GGTGAAGATT ACTCCTCGTC TTCCTTGGAG 
CCACACCCTG CAGACCCTGG AATGGAGACA GGAGAAGCCC TCAGCTTCGG AGCAAGCGAC 
TCCGTGCAGT TAGAGGAGCC TGAGCTGTTT CCAGGGGAGG GGGCTCACCC GAGGTCTCAG 
GGATTTGAAC CTGCCAGACT GGCTCAGCTC TTCACCTGTG TGCTGTGTTG CTCAAGGCCC 
TGA

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

PubMed

Tankyrase-Binding Protein TNKS1BP1 Regulates Actin Cytoskeleton Rearrangement and Cancer Cell Invasion.
Cancer research77(9)2328-2338(2017 May)
Ohishi T,Yoshida H,Katori M,Migita T,Muramatsu Y,Miyake M,Ishikawa Y,Saiura A,Iemura SI,Natsume T,Seimiya H

Overexpression of TNKS1BP1 in lung cancers and its involvement in homologous recombination pathway of DNA double-strand breaks.
Cancer medicine6(2)483-493(2017 Feb)
Tan W,Guan H,Zou LH,Wang Y,Liu XD,Rang WQ,Zhou PK,Pei HD,Zhong CG

TNKS1BP1 functions in DNA double-strand break repair though facilitating DNA-PKcs autophosphorylation dependent on PARP-1.
Oncotarget6(9)7011-22(2015 Mar)
Zou LH,Shang ZF,Tan W,Liu XD,Xu QZ,Song M,Wang Y,Guan H,Zhang SM,Yu L,Zhong CG,Zhou PK

E-cadherin interactome complexity and robustness resolved by quantitative proteomics.
Science signaling7(354)rs7(2014 Dec)
Guo Z,Neilson LJ,Zhong H,Murray PS,Zanivan S,Zaidel-Bar R

Human Ccr4-Not complexes contain variable deadenylase subunits.
The Biochemical journal422(3)443-53(2009 Aug)
Lau NC,Kolkman A,van Schaik FM,Mulder KW,Pijnappel WW,Heck AJ,Timmers HT

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TNKS1BP1 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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