ZBTB40 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	ZBTB40
Entrez Gene ID	9923
Full Name	zinc finger and BTB domain containing 40
Synonyms	ZNF923
General protein information	Preferred Names zinc finger and BTB domain containing 40 Names zinc finger and BTB domain-containing protein 40
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 1 Map Location: 1p36.12
Disorder MIM:	612106

mRNA and Protein(s)

mRNA	Protein	Name
XM_011542500.2	XP_011540802.1	zinc finger and BTB domain-containing protein 40 isoform X3
NM_001083621.1	NP_001077090.1	zinc finger and BTB domain-containing protein 40 isoform a
NM_014870.3	NP_055685.3	zinc finger and BTB domain-containing protein 40 isoform a
NM_014870.4	NP_055685.3	zinc finger and BTB domain-containing protein 40 isoform a
XM_011542499.2	XP_011540801.1	zinc finger and BTB domain-containing protein 40 isoform X1
XM_024451297.1	XP_024307065.1	zinc finger and BTB domain-containing protein 40 isoform X2
XM_011542499.1	XP_011540801.1	zinc finger and BTB domain-containing protein 40 isoform X1
NM_001330398.1	NP_001317327.1	zinc finger and BTB domain-containing protein 40 isoform b

Pathways from BioSystems

Homologies

Homo sapiens (human)	ZBTB40	NP_001077090.1
Pan troglodytes (chimpanzee)	ZBTB40	XP_513186.2
	ZBTB40	XP_001101372.1
Canis lupus familiaris (dog)	ZBTB40	XP_544510.2
Mus musculus (house mouse)	Zbtb40	NP_937891.1
Rattus norvegicus (Norway rat)	Zbtb40	NP_001178800.1
Danio rerio (zebrafish)	LOC571158	XP_005172972.1
Bos taurus (cattle)	ZBTB40	NP_001192990.1
Gallus gallus (chicken)	ZBTB40	XP_004947580.1
Xenopus tropicalis (tropical clawed frog)	zbtb40	XP_002937082.2

Gene Ontology
Bibliography

Related articles in PubMed

Multistage genome-wide association meta-analyses identified two new loci for bone mineral density.
Zhang L, Choi HJ, Estrada K, Leo PJ, Li J, Pei YF, Zhang Y, Lin Y, Shen H, Liu YZ, Liu Y, Zhao Y, Zhang JG, Tian Q, Wang YP, Han Y, Ran S, Hai R, Zhu XZ, Wu S, Yan H, Liu X, Yang TL, Guo Y, Zhang F, Guo YF, Chen Y, Chen X, Tan L, Zhang L, Deng FY, Deng H, Rivadeneira F, Duncan EL, Lee JY, Han BG, Cho NH, Nicholson GC, McCloskey E, Eastell R, Prince RL, Eisman JA, Jones G, Reid IR, Sambrook PN, Dennison EM, Danoy P, Yerges-Armstrong LM, Streeten EA, Hu T, Xiang S, Papasian CJ, Brown MA, Shin CS, Uitterlinden AG, Deng HW
Human molecular genetics23(7)1923-33(2014 Apr)

Genome-wide association study link novel loci to endometriosis.
Albertsen HM, Chettier R, Farrington P, Ward K
PloS one8(3)e58257(2013)

Opposite associations of osteoprotegerin and ZBTB40 polymorphisms with bone mineral density of the hip in postmenopausal Taiwanese women.
Chao TH, Yu HN, Huang CC, Liu WS, Lu KH
Journal of the Chinese Medical Association : JCMA75(7)335-40(2012 Jul)

Genome-wide meta-analysis identifies 56 bone mineral density loci and reveals 14 loci associated with risk of fracture.
Estrada K, Styrkarsdottir U, Evangelou E, Hsu YH, Duncan EL, Ntzani EE, Oei L, Albagha OM, Amin N, Kemp JP, Koller DL, Li G, Liu CT, Minster RL, Moayyeri A, Vandenput L, Willner D, Xiao SM, Yerges-Armstrong LM, Zheng HF, Alonso N, Eriksson J, Kammerer CM, Kaptoge SK, Leo PJ, Thorleifsson G, Wilson SG, Wilson JF, Aalto V, Alen M, Aragaki AK, Aspelund T, Center JR, Dailiana Z, Duggan DJ, Garcia M, Garcia-Giralt N, Giroux S, Hallmans G, Hocking LJ, Husted LB, Jameson KA, Khusainova R, Kim GS, Kooperberg C, Koromila T, Kruk M, Laaksonen M, Lacroix AZ, Lee SH, Leung PC, Lewis JR, Masi L, Mencej-Bedrac S, Nguyen TV, Nogues X, Patel MS, Prezelj J, Rose LM, Scollen S, Siggeirsdottir K, Smith AV, Svensson O, Trompet S, Trummer O, van Schoor NM, Woo J, Zhu K, Balcells S, Brandi ML, Buckley BM, Cheng S, Christiansen C, Cooper C, Dedoussis G, Ford I, Frost M, Goltzman D, Gonz?lez-Mac?as J, K?h?nen M, Karlsson M, Khusnutdinova E, Koh JM, Kollia P, Langdahl BL, Leslie WD, Lips P, Ljunggren ?, Lorenc RS, Marc J, Mellstr?m D, Obermayer-Pietsch B, Olmos JM, Pettersson-Kymmer U, Reid DM, Riancho JA, Ridker PM, Rousseau F, Slagboom PE, Tang NL, Urreizti R, Van Hul W, Viikari J, Zarrabeitia MT, Aulchenko YS, Castano-Betancourt M, Grundberg E, Herrera L, Ingvarsson T, Johannsdottir H, Kwan T, Li R, Luben R, Medina-G?mez C, Palsson ST, Reppe S, Rotter JI, Sigurdsson G, van Meurs JB, Verlaan D, Williams FM, Wood AR, Zhou Y, Gautvik KM, Pastinen T, Raychaudhuri S, Cauley JA, Chasman DI, Clark GR, Cummings SR, Danoy P, Dennison EM, Eastell R, Eisman JA, Gudnason V, Hofman A, Jackson RD, Jones G, Jukema JW, Khaw KT, Lehtim?ki T, Liu Y, Lorentzon M, McCloskey E, Mitchell BD, Nandakumar K, Nicholson GC, Oostra BA, Peacock M, Pols HA, Prince RL, Raitakari O, Reid IR, Robbins J, Sambrook PN, Sham PC, Shuldiner AR, Tylavsky FA, van Duijn CM, Wareham NJ, Cupples LA, Econs MJ, Evans DM, Harris TB, Kung AW, Psaty BM, Reeve J, Spector TD, Streeten EA, Zillikens MC, Thorsteinsdottir U, Ohlsson C, Karasik D, Richards JB, Brown MA, Stefansson K, Uitterlinden AG, Ralston SH, Ioannidis JP, Kiel DP, Rivadeneira F
Nature genetics44(5)491-501(2012 Apr)

Genome-wide association study using extreme truncate selection identifies novel genes affecting bone mineral density and fracture risk.
Duncan EL, Danoy P, Kemp JP, Leo PJ, McCloskey E, Nicholson GC, Eastell R, Prince RL, Eisman JA, Jones G, Sambrook PN, Reid IR, Dennison EM, Wark J, Richards JB, Uitterlinden AG, Spector TD, Esapa C, Cox RD, Brown SD, Thakker RV, Addison KA, Bradbury LA, Center JR, Cooper C, Cremin C, Estrada K, Felsenberg D, Gl?er CC, Hadler J, Henry MJ, Hofman A, Kotowicz MA, Makovey J, Nguyen SC, Nguyen TV, Pasco JA, Pryce K, Reid DM, Rivadeneira F, Roux C, Stefansson K, Styrkarsdottir U, Thorleifsson G, Tichawangana R, Evans DM, Brown MA
PLoS genetics7(4)e1001372(2011 Apr)

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

Opposite associations of osteoprotegerin and ZBTB40 polymorphisms with bone mineral density of the hip in postmenopausal Taiwanese women.
Title: Opposite associations of osteoprotegerin and ZBTB40 polymorphisms with bone mineral density of the hip in postmenopausal Taiwanese women.

Observational study of gene-disease association. (HuGE Navigator)
Title: Analysis of recently identified osteoporosis susceptibility genes in Han Chinese women.

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

Observational study of gene-disease association. (HuGE Navigator)
Title: Multiple genetic loci for bone mineral density and fractures.

The following ZBTB40 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ZBTB40 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)
OHu06706	NM_014870.4 Latest version!	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$459.50-$643.30 $919.00
OHu06706	NM_001083621.1 Latest version!	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$459.50-$643.30 $919.00
OHu06706	XM_011542499.2 Latest version!	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$459.50-$643.30 $919.00
OHu63526	XM_011542500.2 Latest version!	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	7-9	$307.30 $439.00
OHu102272	NM_001330398.1 Latest version!	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OHu102272	XM_024451297.1 Latest version!	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
View Old Accession Versions >>
OHu06706	NM_014870.3	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$459.50-$643.30 $919.00
OHu06706	XM_011542499.1	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$459.50-$643.30 $919.00
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)

ZBTB40 ( NM_001083621.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001077090.1 Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu06706
Clone ID Related Accession (Same CDS sequence)	NM_001083621.1 , NM_014870.3 , NM_014870.4 , XM_011542499.2 , XM_011542499.1
Accession Version	NM_001083621.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3720bp) 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	2019-02-16
Organism	Homo sapiens(human)
Product	zinc finger and BTB domain-containing protein 40 isoform a
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK091019.1, AL358788.17, AL035703.21, DA248977.1 and BC114607.1. Transcript Variant: This variant (1) represents the longest transcript. Both variants 1 and 2 encode the same isoform (a). Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The extent of this transcript is supported by transcript alignments. ##Evidence-Data-START## CDS exon combination :: SRR1803612.220868.1, SRR1660805.15814.1 [ECO:0000331] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GATGATAGTG 
AAATGTTTCG AGGGTGAAGG AGGACATTCA GCATTCCAGA GAATCCTGGG TAAAGTAAGA 
GAGGAAAGCC TGGATGTTCA AACTGTTGTG TCCCTGTTGA GGCTGTACCA ATATTCTAAT 
CCTGCAGTAA AAACAGCACT ATTAGACAGG AAGCCAGAAG ATGTAGACAC AGTGCAGCCA 
AAAGGGAGCA CAGAGGAGGG AAAGACCTTG TCTGTTCTGT TACTAGAACA CAAAGAGGAC 
CTGATACAGT GTGTAACACA GCTGAGACCT ATTATGGAGT CCCTGGAAAC AGCCAAGGAG 
GAATTCCTGA CTGGCACTGA AAAAAGGGTG ATTCTGAATT GCTGTGAGGG CAGAACACCC 
AAGGAGACAA TAGAAAATTT GTTGCACAGA ATGACTGAAG AGAAGACGCT GACTGCTGAG 
GGTTTGGTAA AACTCCTCCA GGCTGTGAAG ACGACTTTCC CAAACCTGGG CCTTCTGCTA 
GAGAAGTTGC AGAAATCAGC CACTTTGCCA AGCACCACAG TCCAACCAAG CCCTGATGAT 
TATGGGACTG AGCTATTGAG ACGCTATCAT GAAAACCTCT CTGAGATTTT CACAGACAAC 
CAGATTTTAT TAAAGATGAT CTCACACATG ACAAGTTTAG CCCCTGGAGA AAGAGAGGTC 
ATGGAGAAGC TTGTGAAACG TGACTCTGGT TCAGGTGGTT TCAATTCTCT GATATCAGCA 
GTTCTAGAAA AGCAGACTCT CTCTGCCACA GCCATTTGGC AACTGCTGCT GGTGGTTCAG 
GAGACAAAGA CCTGTCCATT GGACCTGCTC ATGGAGGAAA TACGAAGGGA GCCTGGTGCC 
GATGCTTTCT TCCGGGCAGT GACCACCCCA GAACATGCCA CTTTAGAAAC AATCCTGAGG 
CATAACCAGT TGATCTTGGA GGCCATCCAA CAGAAGATTG AGTACAAGCT CTTTACCTCG 
GAGGAGGAGC ACCTGGCAGA GACTGTGAAA GAGATTCTGA GCATTCCCTC TGAGACAGCC 
AGCCCTGAAG CTTCCCTGAG AGCAGTGCTG AGCAGAGCCA TGGAAAAATC AGTCCCGGCC 
ATTGAAATAT GCCACCTCCT GTGCAGTGTC CACAAATCTT TTCCAGGCCT GCAGCCTGTC 
ATGCAGGAGT TGGCATACAT TGGTGTCCTT ACTAAGGAAG ATGGAGAGAA GGAAACGTGG 
AAGGTGAGTA ATAAATTTCA CCTTGAAGCC AACAACAAAG AAGATGAAAA GGCAGCCAAA 
GAAGACAGCC AGCCTGGGGA ACAGAATGAT CAAGGAGAGA CTGGTTCCTT GCCAGGACAG 
CAAGAGAAAG AGGCTTCAGC CTCCCCAGAC CCTGCCAAGA AGAGCTTCAT CTGTAAGGCC 
TGCGACAAAA GCTTCCATTT CTACTGCCGC CTAAAGGTGC ACATGAAGCG CTGCCGGGTG 
GCTAAGAGCA AACAGGTGCA GTGTAAGGAG TGCAGTGAGA CCAAGGATTC AAAGAAAGAG 
CTGGACAAAC ATCAGCTGGA GGCCCATGGT GCAGGTGGAG AGCCCGATGC CCCCAAGAAG 
AAGAAGAAGA GGCTTCCAGT GACATGTGAC CTCTGTGGCA GAGAATTTGC CCATGCCTCA 
GGCATGCAGT ACCATAAGCT GACAGAGCAC TTCGATGAGA AGCCTTTCTC CTGTGAAGAG 
TGTGGGGCGA AGTTTGCAGC CAATTCCACC CTGAAGAACC ACCTTCGCCT TCACACCGGG 
GACCGCCCGT TCATGTGCAA GCACTGCCTC ATGACCTTCA CCCAGGCCTC CGCCCTGGCC 
TATCACACCA AGAAGAAGCA CTCAGAAGGG AAAATGTATG CATGCCAGTA CTGTGATGCT 
GTGTTTGCCC AGTCTATTGA GCTGTCCCGC CACGTGAGGA CCCACACCGG GGACAAGCCC 
TATGTCTGCA GAGACTGTGG CAAGGGCTTC CGGCAAGCCA ATGGCCTCTC CATCCATCTG 
CACACCTTTC ACAACATAGA AGATCCTTAT GACTGCAAGA AGTGCAGGAT GAGTTTCCCC 
ACTCTTCAGG ATCACCGGAA GCACATCCAT GAGGTGCACT CCAAAGAGTA CCACCCCTGC 
CCCACGTGTG GGAAGATCTT CAGTGCCCCG TCCATGCTGG AGCGGCACGT GGTGACCCAC 
GTTGGAGGGA AGCCCTTCAG CTGCGGGATC TGCAACAAGG CCTACCAGCA ATTGTCTGGT 
TTGTGGTACC ACAATCGAAC CCACCACCCT GACGTATTTG CTGCTCAGAA CCACCGATCT 
TCCAAGTTCT CATCACTCCA GTGCAGCTCC TGTGACAAAA CCTTCCCCAA CACCATTGAG 
CACAAGAAGC ACATCAAAGC AGAACATGCA GATATGAAGT TCCATGAATG TGACCAGTGT 
AAGGAGCTCT TCCCCACGCC AGCCTTGCTG CAGGTTCATG TCAAGTGCCA GCATTCAGGG 
TCCCAGCCAT TCCGGTGCTT GTACTGTGCT GCTACTTTCC GTTTTCCTGG AGCATTGCAG 
CACCATGTCA CCACGGAGCA CTTCAAGCAG TCAGAGACCA CCTTCCCCTG TGAGCTCTGT 
GGGGAACTCT TCACCTCCCA GGCCCAGCTT GACAGTCACC TGGAATCTGA GCACCCAAAG 
GTGATGAGCA CGGAAACCCA GGCCGCAGCC TCACAGATGG CGCAGGTGAT CCAAACCCCA 
GAGCCGGTGG CCCCGACAGA GCAGGTGATC ACTTTGGAGG AGACCCAGCT TGCCGGGTCG 
CAGGTGTTTG TGACGTTGCC AGATTCTCAG GCATCTCAGG CCAGCTCTGA GCTCGTGGCG 
GTGACTGTGG AGGACTTGCT GGATGGCACA GTGACGCTGA TCTGTGGTGA GGCCAAATGA

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

RefSeq	NP_001077090.1
CDS	512..4231
Translation	MELPNYSRQLLQQLYTLCKEQQFCDCTISIGTIYFRAHKLVLAAASLLFKTLLDNTDTISIDASVVSPEEFALLLEMMYTGKLPVGKHNFSKIISLADSLQMFDVAVSCKNLLTSLVNCSVQGQVVRDVSAPSSETFRKEPEKPQVEILSSEGAGEPHSSPELAATPGGPVKAETEEAAHSVSQEMSVNSPTAQESQRNAETPAETPTTAEACSPSPAVQTFSEAKKTSTEPGCERKHYQLNFLLENEGVFSDALMVTQDVLKKLEMCSEIKGPQKEMIVKCFEGEGGHSAFQRILGKVREESLDVQTVVSLLRLYQYSNPAVKTALLDRKPEDVDTVQPKGSTEEGKTLSVLLLEHKEDLIQCVTQLRPIMESLETAKEEFLTGTEKRVILNCCEGRTPKETIENLLHRMTEEKTLTAEGLVKLLQAVKTTFPNLGLLLEKLQKSATLPSTTVQPSPDDYGTELLRRYHENLSEIFTDNQILLKMISHMTSLAPGEREVMEKLVKRDSGSGGFNSLISAVLEKQTLSATAIWQLLLVVQETKTCPLDLLMEEIRREPGADAFFRAVTTPEHATLETILRHNQLILEAIQQKIEYKLFTSEEEHLAETVKEILSIPSETASPEASLRAVLSRAMEKSVPAIEICHLLCSVHKSFPGLQPVMQELAYIGVLTKEDGEKETWKVSNKFHLEANNKEDEKAAKEDSQPGEQNDQGETGSLPGQQEKEASASPDPAKKSFICKACDKSFHFYCRLKVHMKRCRVAKSKQVQCKECSETKDSKKELDKHQLEAHGAGGEPDAPKKKKKRLPVTCDLCGREFAHASGMQYHKLTEHFDEKPFSCEECGAKFAANSTLKNHLRLHTGDRPFMCKHCLMTFTQASALAYHTKKKHSEGKMYACQYCDAVFAQSIELSRHVRTHTGDKPYVCRDCGKGFRQANGLSIHLHTFHNIEDPYDCKKCRMSFPTLQDHRKHIHEVHSKEYHPCPTCGKIFSAPSMLERHVVTHVGGKPFSCGICNKAYQQLSGLWYHNRTHHPDVFAAQNHRSSKFSSLQCSSCDKTFPNTIEHKKHIKAEHADMKFHECDQCKELFPTPALLQVHVKCQHSGSQPFRCLYCAATFRFPGALQHHVTTEHFKQSETTFPCELCGELFTSQAQLDSHLESEHPKVMSTETQAAASQMAQVIQTPEPVAPTEQVITLEETQLAGSQVFVTLPDSQASQASSELVAVTVEDLLDGTVTLICGEAK

Target ORF information:

RefSeq Version	NM_001083621.1
Organism	Homo sapiens(human)
Definition	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 1, mRNA.

Target ORF information:

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

NM_001083621.1

ORF Insert Sequence:

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GATGATAGTG 
AAATGTTTCG AGGGTGAAGG AGGACATTCA GCATTCCAGA GAATCCTGGG TAAAGTAAGA 
GAGGAAAGCC TGGATGTTCA AACTGTTGTG TCCCTGTTGA GGCTGTACCA ATATTCTAAT 
CCTGCAGTAA AAACAGCACT ATTAGACAGG AAGCCAGAAG ATGTAGACAC AGTGCAGCCA 
AAAGGGAGCA CAGAGGAGGG AAAGACCTTG TCTGTTCTGT TACTAGAACA CAAAGAGGAC 
CTGATACAGT GTGTAACACA GCTGAGACCT ATTATGGAGT CCCTGGAAAC AGCCAAGGAG 
GAATTCCTGA CTGGCACTGA AAAAAGGGTG ATTCTGAATT GCTGTGAGGG CAGAACACCC 
AAGGAGACAA TAGAAAATTT GTTGCACAGA ATGACTGAAG AGAAGACGCT GACTGCTGAG 
GGTTTGGTAA AACTCCTCCA GGCTGTGAAG ACGACTTTCC CAAACCTGGG CCTTCTGCTA 
GAGAAGTTGC AGAAATCAGC CACTTTGCCA AGCACCACAG TCCAACCAAG CCCTGATGAT 
TATGGGACTG AGCTATTGAG ACGCTATCAT GAAAACCTCT CTGAGATTTT CACAGACAAC 
CAGATTTTAT TAAAGATGAT CTCACACATG ACAAGTTTAG CCCCTGGAGA AAGAGAGGTC 
ATGGAGAAGC TTGTGAAACG TGACTCTGGT TCAGGTGGTT TCAATTCTCT GATATCAGCA 
GTTCTAGAAA AGCAGACTCT CTCTGCCACA GCCATTTGGC AACTGCTGCT GGTGGTTCAG 
GAGACAAAGA CCTGTCCATT GGACCTGCTC ATGGAGGAAA TACGAAGGGA GCCTGGTGCC 
GATGCTTTCT TCCGGGCAGT GACCACCCCA GAACATGCCA CTTTAGAAAC AATCCTGAGG 
CATAACCAGT TGATCTTGGA GGCCATCCAA CAGAAGATTG AGTACAAGCT CTTTACCTCG 
GAGGAGGAGC ACCTGGCAGA GACTGTGAAA GAGATTCTGA GCATTCCCTC TGAGACAGCC 
AGCCCTGAAG CTTCCCTGAG AGCAGTGCTG AGCAGAGCCA TGGAAAAATC AGTCCCGGCC 
ATTGAAATAT GCCACCTCCT GTGCAGTGTC CACAAATCTT TTCCAGGCCT GCAGCCTGTC 
ATGCAGGAGT TGGCATACAT TGGTGTCCTT ACTAAGGAAG ATGGAGAGAA GGAAACGTGG 
AAGGTGAGTA ATAAATTTCA CCTTGAAGCC AACAACAAAG AAGATGAAAA GGCAGCCAAA 
GAAGACAGCC AGCCTGGGGA ACAGAATGAT CAAGGAGAGA CTGGTTCCTT GCCAGGACAG 
CAAGAGAAAG AGGCTTCAGC CTCCCCAGAC CCTGCCAAGA AGAGCTTCAT CTGTAAGGCC 
TGCGACAAAA GCTTCCATTT CTACTGCCGC CTAAAGGTGC ACATGAAGCG CTGCCGGGTG 
GCTAAGAGCA AACAGGTGCA GTGTAAGGAG TGCAGTGAGA CCAAGGATTC AAAGAAAGAG 
CTGGACAAAC ATCAGCTGGA GGCCCATGGT GCAGGTGGAG AGCCCGATGC CCCCAAGAAG 
AAGAAGAAGA GGCTTCCAGT GACATGTGAC CTCTGTGGCA GAGAATTTGC CCATGCCTCA 
GGCATGCAGT ACCATAAGCT GACAGAGCAC TTCGATGAGA AGCCTTTCTC CTGTGAAGAG 
TGTGGGGCGA AGTTTGCAGC CAATTCCACC CTGAAGAACC ACCTTCGCCT TCACACCGGG 
GACCGCCCGT TCATGTGCAA GCACTGCCTC ATGACCTTCA CCCAGGCCTC CGCCCTGGCC 
TATCACACCA AGAAGAAGCA CTCAGAAGGG AAAATGTATG CATGCCAGTA CTGTGATGCT 
GTGTTTGCCC AGTCTATTGA GCTGTCCCGC CACGTGAGGA CCCACACCGG GGACAAGCCC 
TATGTCTGCA GAGACTGTGG CAAGGGCTTC CGGCAAGCCA ATGGCCTCTC CATCCATCTG 
CACACCTTTC ACAACATAGA AGATCCTTAT GACTGCAAGA AGTGCAGGAT GAGTTTCCCC 
ACTCTTCAGG ATCACCGGAA GCACATCCAT GAGGTGCACT CCAAAGAGTA CCACCCCTGC 
CCCACGTGTG GGAAGATCTT CAGTGCCCCG TCCATGCTGG AGCGGCACGT GGTGACCCAC 
GTTGGAGGGA AGCCCTTCAG CTGCGGGATC TGCAACAAGG CCTACCAGCA ATTGTCTGGT 
TTGTGGTACC ACAATCGAAC CCACCACCCT GACGTATTTG CTGCTCAGAA CCACCGATCT 
TCCAAGTTCT CATCACTCCA GTGCAGCTCC TGTGACAAAA CCTTCCCCAA CACCATTGAG 
CACAAGAAGC ACATCAAAGC AGAACATGCA GATATGAAGT TCCATGAATG TGACCAGTGT 
AAGGAGCTCT TCCCCACGCC AGCCTTGCTG CAGGTTCATG TCAAGTGCCA GCATTCAGGG 
TCCCAGCCAT TCCGGTGCTT GTACTGTGCT GCTACTTTCC GTTTTCCTGG AGCATTGCAG 
CACCATGTCA CCACGGAGCA CTTCAAGCAG TCAGAGACCA CCTTCCCCTG TGAGCTCTGT 
GGGGAACTCT TCACCTCCCA GGCCCAGCTT GACAGTCACC TGGAATCTGA GCACCCAAAG 
GTGATGAGCA CGGAAACCCA GGCCGCAGCC TCACAGATGG CGCAGGTGAT CCAAACCCCA 
GAGCCGGTGG CCCCGACAGA GCAGGTGATC ACTTTGGAGG AGACCCAGCT TGCCGGGTCG 
CAGGTGTTTG TGACGTTGCC AGATTCTCAG GCATCTCAGG CCAGCTCTGA GCTCGTGGCG 
GTGACTGTGG AGGACTTGCT GGATGGCACA GTGACGCTGA TCTGTGGTGA GGCCAAATGA

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

ZBTB40 ( NM_014870.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_055685.3 Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu06706
Clone ID Related Accession (Same CDS sequence)	NM_001083621.1 , NM_014870.3 , NM_014870.4 , XM_011542499.2 , XM_011542499.1
Accession Version	NM_014870.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3720bp) 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	2017-10-01
Organism	Homo sapiens(human)
Product	zinc finger and BTB domain-containing protein 40 isoform a
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DA787818.1, BC114607.1, DA248977.1 and AL035703.21. On Apr 3, 2007 this sequence version replaced NM_014870.2. Transcript Variant: This variant (2) differs in the 5' UTR compared to variant 1. Both variants 1 and 2 encode the same isoform (a). Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The extent of this transcript is supported by transcript alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.220868.1, SRR1660805.15814.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GATGATAGTG 
AAATGTTTCG AGGGTGAAGG AGGACATTCA GCATTCCAGA GAATCCTGGG TAAAGTAAGA 
GAGGAAAGCC TGGATGTTCA AACTGTTGTG TCCCTGTTGA GGCTGTACCA ATATTCTAAT 
CCTGCAGTAA AAACAGCACT ATTAGACAGG AAGCCAGAAG ATGTAGACAC AGTGCAGCCA 
AAAGGGAGCA CAGAGGAGGG AAAGACCTTG TCTGTTCTGT TACTAGAACA CAAAGAGGAC 
CTGATACAGT GTGTAACACA GCTGAGACCT ATTATGGAGT CCCTGGAAAC AGCCAAGGAG 
GAATTCCTGA CTGGCACTGA AAAAAGGGTG ATTCTGAATT GCTGTGAGGG CAGAACACCC 
AAGGAGACAA TAGAAAATTT GTTGCACAGA ATGACTGAAG AGAAGACGCT GACTGCTGAG 
GGTTTGGTAA AACTCCTCCA GGCTGTGAAG ACGACTTTCC CAAACCTGGG CCTTCTGCTA 
GAGAAGTTGC AGAAATCAGC CACTTTGCCA AGCACCACAG TCCAACCAAG CCCTGATGAT 
TATGGGACTG AGCTATTGAG ACGCTATCAT GAAAACCTCT CTGAGATTTT CACAGACAAC 
CAGATTTTAT TAAAGATGAT CTCACACATG ACAAGTTTAG CCCCTGGAGA AAGAGAGGTC 
ATGGAGAAGC TTGTGAAACG TGACTCTGGT TCAGGTGGTT TCAATTCTCT GATATCAGCA 
GTTCTAGAAA AGCAGACTCT CTCTGCCACA GCCATTTGGC AACTGCTGCT GGTGGTTCAG 
GAGACAAAGA CCTGTCCATT GGACCTGCTC ATGGAGGAAA TACGAAGGGA GCCTGGTGCC 
GATGCTTTCT TCCGGGCAGT GACCACCCCA GAACATGCCA CTTTAGAAAC AATCCTGAGG 
CATAACCAGT TGATCTTGGA GGCCATCCAA CAGAAGATTG AGTACAAGCT CTTTACCTCG 
GAGGAGGAGC ACCTGGCAGA GACTGTGAAA GAGATTCTGA GCATTCCCTC TGAGACAGCC 
AGCCCTGAAG CTTCCCTGAG AGCAGTGCTG AGCAGAGCCA TGGAAAAATC AGTCCCGGCC 
ATTGAAATAT GCCACCTCCT GTGCAGTGTC CACAAATCTT TTCCAGGCCT GCAGCCTGTC 
ATGCAGGAGT TGGCATACAT TGGTGTCCTT ACTAAGGAAG ATGGAGAGAA GGAAACGTGG 
AAGGTGAGTA ATAAATTTCA CCTTGAAGCC AACAACAAAG AAGATGAAAA GGCAGCCAAA 
GAAGACAGCC AGCCTGGGGA ACAGAATGAT CAAGGAGAGA CTGGTTCCTT GCCAGGACAG 
CAAGAGAAAG AGGCTTCAGC CTCCCCAGAC CCTGCCAAGA AGAGCTTCAT CTGTAAGGCC 
TGCGACAAAA GCTTCCATTT CTACTGCCGC CTAAAGGTGC ACATGAAGCG CTGCCGGGTG 
GCTAAGAGCA AACAGGTGCA GTGTAAGGAG TGCAGTGAGA CCAAGGATTC AAAGAAAGAG 
CTGGACAAAC ATCAGCTGGA GGCCCATGGT GCAGGTGGAG AGCCCGATGC CCCCAAGAAG 
AAGAAGAAGA GGCTTCCAGT GACATGTGAC CTCTGTGGCA GAGAATTTGC CCATGCCTCA 
GGCATGCAGT ACCATAAGCT GACAGAGCAC TTCGATGAGA AGCCTTTCTC CTGTGAAGAG 
TGTGGGGCGA AGTTTGCAGC CAATTCCACC CTGAAGAACC ACCTTCGCCT TCACACCGGG 
GACCGCCCGT TCATGTGCAA GCACTGCCTC ATGACCTTCA CCCAGGCCTC CGCCCTGGCC 
TATCACACCA AGAAGAAGCA CTCAGAAGGG AAAATGTATG CATGCCAGTA CTGTGATGCT 
GTGTTTGCCC AGTCTATTGA GCTGTCCCGC CACGTGAGGA CCCACACCGG GGACAAGCCC 
TATGTCTGCA GAGACTGTGG CAAGGGCTTC CGGCAAGCCA ATGGCCTCTC CATCCATCTG 
CACACCTTTC ACAACATAGA AGATCCTTAT GACTGCAAGA AGTGCAGGAT GAGTTTCCCC 
ACTCTTCAGG ATCACCGGAA GCACATCCAT GAGGTGCACT CCAAAGAGTA CCACCCCTGC 
CCCACGTGTG GGAAGATCTT CAGTGCCCCG TCCATGCTGG AGCGGCACGT GGTGACCCAC 
GTTGGAGGGA AGCCCTTCAG CTGCGGGATC TGCAACAAGG CCTACCAGCA ATTGTCTGGT 
TTGTGGTACC ACAATCGAAC CCACCACCCT GACGTATTTG CTGCTCAGAA CCACCGATCT 
TCCAAGTTCT CATCACTCCA GTGCAGCTCC TGTGACAAAA CCTTCCCCAA CACCATTGAG 
CACAAGAAGC ACATCAAAGC AGAACATGCA GATATGAAGT TCCATGAATG TGACCAGTGT 
AAGGAGCTCT TCCCCACGCC AGCCTTGCTG CAGGTTCATG TCAAGTGCCA GCATTCAGGG 
TCCCAGCCAT TCCGGTGCTT GTACTGTGCT GCTACTTTCC GTTTTCCTGG AGCATTGCAG 
CACCATGTCA CCACGGAGCA CTTCAAGCAG TCAGAGACCA CCTTCCCCTG TGAGCTCTGT 
GGGGAACTCT TCACCTCCCA GGCCCAGCTT GACAGTCACC TGGAATCTGA GCACCCAAAG 
GTGATGAGCA CGGAAACCCA GGCCGCAGCC TCACAGATGG CGCAGGTGAT CCAAACCCCA 
GAGCCGGTGG CCCCGACAGA GCAGGTGATC ACTTTGGAGG AGACCCAGCT TGCCGGGTCG 
CAGGTGTTTG TGACGTTGCC AGATTCTCAG GCATCTCAGG CCAGCTCTGA GCTCGTGGCG 
GTGACTGTGG AGGACTTGCT GGATGGCACA GTGACGCTGA TCTGTGGTGA GGCCAAATGA

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

RefSeq	NP_055685.3
CDS	224..3943
Translation	MELPNYSRQLLQQLYTLCKEQQFCDCTISIGTIYFRAHKLVLAAASLLFKTLLDNTDTISIDASVVSPEEFALLLEMMYTGKLPVGKHNFSKIISLADSLQMFDVAVSCKNLLTSLVNCSVQGQVVRDVSAPSSETFRKEPEKPQVEILSSEGAGEPHSSPELAATPGGPVKAETEEAAHSVSQEMSVNSPTAQESQRNAETPAETPTTAEACSPSPAVQTFSEAKKTSTEPGCERKHYQLNFLLENEGVFSDALMVTQDVLKKLEMCSEIKGPQKEMIVKCFEGEGGHSAFQRILGKVREESLDVQTVVSLLRLYQYSNPAVKTALLDRKPEDVDTVQPKGSTEEGKTLSVLLLEHKEDLIQCVTQLRPIMESLETAKEEFLTGTEKRVILNCCEGRTPKETIENLLHRMTEEKTLTAEGLVKLLQAVKTTFPNLGLLLEKLQKSATLPSTTVQPSPDDYGTELLRRYHENLSEIFTDNQILLKMISHMTSLAPGEREVMEKLVKRDSGSGGFNSLISAVLEKQTLSATAIWQLLLVVQETKTCPLDLLMEEIRREPGADAFFRAVTTPEHATLETILRHNQLILEAIQQKIEYKLFTSEEEHLAETVKEILSIPSETASPEASLRAVLSRAMEKSVPAIEICHLLCSVHKSFPGLQPVMQELAYIGVLTKEDGEKETWKVSNKFHLEANNKEDEKAAKEDSQPGEQNDQGETGSLPGQQEKEASASPDPAKKSFICKACDKSFHFYCRLKVHMKRCRVAKSKQVQCKECSETKDSKKELDKHQLEAHGAGGEPDAPKKKKKRLPVTCDLCGREFAHASGMQYHKLTEHFDEKPFSCEECGAKFAANSTLKNHLRLHTGDRPFMCKHCLMTFTQASALAYHTKKKHSEGKMYACQYCDAVFAQSIELSRHVRTHTGDKPYVCRDCGKGFRQANGLSIHLHTFHNIEDPYDCKKCRMSFPTLQDHRKHIHEVHSKEYHPCPTCGKIFSAPSMLERHVVTHVGGKPFSCGICNKAYQQLSGLWYHNRTHHPDVFAAQNHRSSKFSSLQCSSCDKTFPNTIEHKKHIKAEHADMKFHECDQCKELFPTPALLQVHVKCQHSGSQPFRCLYCAATFRFPGALQHHVTTEHFKQSETTFPCELCGELFTSQAQLDSHLESEHPKVMSTETQAAASQMAQVIQTPEPVAPTEQVITLEETQLAGSQVFVTLPDSQASQASSELVAVTVEDLLDGTVTLICGEAK

Target ORF information:

RefSeq Version	NM_014870.3
Organism	Homo sapiens(human)
Definition	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 2, mRNA.

Target ORF information:

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

NM_014870.3

ORF Insert Sequence:

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GATGATAGTG 
AAATGTTTCG AGGGTGAAGG AGGACATTCA GCATTCCAGA GAATCCTGGG TAAAGTAAGA 
GAGGAAAGCC TGGATGTTCA AACTGTTGTG TCCCTGTTGA GGCTGTACCA ATATTCTAAT 
CCTGCAGTAA AAACAGCACT ATTAGACAGG AAGCCAGAAG ATGTAGACAC AGTGCAGCCA 
AAAGGGAGCA CAGAGGAGGG AAAGACCTTG TCTGTTCTGT TACTAGAACA CAAAGAGGAC 
CTGATACAGT GTGTAACACA GCTGAGACCT ATTATGGAGT CCCTGGAAAC AGCCAAGGAG 
GAATTCCTGA CTGGCACTGA AAAAAGGGTG ATTCTGAATT GCTGTGAGGG CAGAACACCC 
AAGGAGACAA TAGAAAATTT GTTGCACAGA ATGACTGAAG AGAAGACGCT GACTGCTGAG 
GGTTTGGTAA AACTCCTCCA GGCTGTGAAG ACGACTTTCC CAAACCTGGG CCTTCTGCTA 
GAGAAGTTGC AGAAATCAGC CACTTTGCCA AGCACCACAG TCCAACCAAG CCCTGATGAT 
TATGGGACTG AGCTATTGAG ACGCTATCAT GAAAACCTCT CTGAGATTTT CACAGACAAC 
CAGATTTTAT TAAAGATGAT CTCACACATG ACAAGTTTAG CCCCTGGAGA AAGAGAGGTC 
ATGGAGAAGC TTGTGAAACG TGACTCTGGT TCAGGTGGTT TCAATTCTCT GATATCAGCA 
GTTCTAGAAA AGCAGACTCT CTCTGCCACA GCCATTTGGC AACTGCTGCT GGTGGTTCAG 
GAGACAAAGA CCTGTCCATT GGACCTGCTC ATGGAGGAAA TACGAAGGGA GCCTGGTGCC 
GATGCTTTCT TCCGGGCAGT GACCACCCCA GAACATGCCA CTTTAGAAAC AATCCTGAGG 
CATAACCAGT TGATCTTGGA GGCCATCCAA CAGAAGATTG AGTACAAGCT CTTTACCTCG 
GAGGAGGAGC ACCTGGCAGA GACTGTGAAA GAGATTCTGA GCATTCCCTC TGAGACAGCC 
AGCCCTGAAG CTTCCCTGAG AGCAGTGCTG AGCAGAGCCA TGGAAAAATC AGTCCCGGCC 
ATTGAAATAT GCCACCTCCT GTGCAGTGTC CACAAATCTT TTCCAGGCCT GCAGCCTGTC 
ATGCAGGAGT TGGCATACAT TGGTGTCCTT ACTAAGGAAG ATGGAGAGAA GGAAACGTGG 
AAGGTGAGTA ATAAATTTCA CCTTGAAGCC AACAACAAAG AAGATGAAAA GGCAGCCAAA 
GAAGACAGCC AGCCTGGGGA ACAGAATGAT CAAGGAGAGA CTGGTTCCTT GCCAGGACAG 
CAAGAGAAAG AGGCTTCAGC CTCCCCAGAC CCTGCCAAGA AGAGCTTCAT CTGTAAGGCC 
TGCGACAAAA GCTTCCATTT CTACTGCCGC CTAAAGGTGC ACATGAAGCG CTGCCGGGTG 
GCTAAGAGCA AACAGGTGCA GTGTAAGGAG TGCAGTGAGA CCAAGGATTC AAAGAAAGAG 
CTGGACAAAC ATCAGCTGGA GGCCCATGGT GCAGGTGGAG AGCCCGATGC CCCCAAGAAG 
AAGAAGAAGA GGCTTCCAGT GACATGTGAC CTCTGTGGCA GAGAATTTGC CCATGCCTCA 
GGCATGCAGT ACCATAAGCT GACAGAGCAC TTCGATGAGA AGCCTTTCTC CTGTGAAGAG 
TGTGGGGCGA AGTTTGCAGC CAATTCCACC CTGAAGAACC ACCTTCGCCT TCACACCGGG 
GACCGCCCGT TCATGTGCAA GCACTGCCTC ATGACCTTCA CCCAGGCCTC CGCCCTGGCC 
TATCACACCA AGAAGAAGCA CTCAGAAGGG AAAATGTATG CATGCCAGTA CTGTGATGCT 
GTGTTTGCCC AGTCTATTGA GCTGTCCCGC CACGTGAGGA CCCACACCGG GGACAAGCCC 
TATGTCTGCA GAGACTGTGG CAAGGGCTTC CGGCAAGCCA ATGGCCTCTC CATCCATCTG 
CACACCTTTC ACAACATAGA AGATCCTTAT GACTGCAAGA AGTGCAGGAT GAGTTTCCCC 
ACTCTTCAGG ATCACCGGAA GCACATCCAT GAGGTGCACT CCAAAGAGTA CCACCCCTGC 
CCCACGTGTG GGAAGATCTT CAGTGCCCCG TCCATGCTGG AGCGGCACGT GGTGACCCAC 
GTTGGAGGGA AGCCCTTCAG CTGCGGGATC TGCAACAAGG CCTACCAGCA ATTGTCTGGT 
TTGTGGTACC ACAATCGAAC CCACCACCCT GACGTATTTG CTGCTCAGAA CCACCGATCT 
TCCAAGTTCT CATCACTCCA GTGCAGCTCC TGTGACAAAA CCTTCCCCAA CACCATTGAG 
CACAAGAAGC ACATCAAAGC AGAACATGCA GATATGAAGT TCCATGAATG TGACCAGTGT 
AAGGAGCTCT TCCCCACGCC AGCCTTGCTG CAGGTTCATG TCAAGTGCCA GCATTCAGGG 
TCCCAGCCAT TCCGGTGCTT GTACTGTGCT GCTACTTTCC GTTTTCCTGG AGCATTGCAG 
CACCATGTCA CCACGGAGCA CTTCAAGCAG TCAGAGACCA CCTTCCCCTG TGAGCTCTGT 
GGGGAACTCT TCACCTCCCA GGCCCAGCTT GACAGTCACC TGGAATCTGA GCACCCAAAG 
GTGATGAGCA CGGAAACCCA GGCCGCAGCC TCACAGATGG CGCAGGTGAT CCAAACCCCA 
GAGCCGGTGG CCCCGACAGA GCAGGTGATC ACTTTGGAGG AGACCCAGCT TGCCGGGTCG 
CAGGTGTTTG TGACGTTGCC AGATTCTCAG GCATCTCAGG CCAGCTCTGA GCTCGTGGCG 
GTGACTGTGG AGGACTTGCT GGATGGCACA GTGACGCTGA TCTGTGGTGA GGCCAAATGA

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

ZBTB40 ( NM_014870.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_055685.3 Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu06706
Clone ID Related Accession (Same CDS sequence)	NM_001083621.1 , NM_014870.3 , NM_014870.4 , XM_011542499.2 , XM_011542499.1
Accession Version	NM_014870.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3720bp) 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	2019-05-01
Organism	Homo sapiens(human)
Product	zinc finger and BTB domain-containing protein 40 isoform a
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DA787818.1, BC114607.1, DA248977.1 and AL035703.21. On Nov 22, 2018 this sequence version replaced NM_014870.3. Transcript Variant: This variant (2) differs in the 5' UTR compared to variant 1. Both variants 1 and 2 encode the same isoform (a). Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The extent of this transcript is supported by transcript alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.215422.1, SRR1803612.220868.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000375647.5/ ENSP00000364798.4 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GATGATAGTG 
AAATGTTTCG AGGGTGAAGG AGGACATTCA GCATTCCAGA GAATCCTGGG TAAAGTAAGA 
GAGGAAAGCC TGGATGTTCA AACTGTTGTG TCCCTGTTGA GGCTGTACCA ATATTCTAAT 
CCTGCAGTAA AAACAGCACT ATTAGACAGG AAGCCAGAAG ATGTAGACAC AGTGCAGCCA 
AAAGGGAGCA CAGAGGAGGG AAAGACCTTG TCTGTTCTGT TACTAGAACA CAAAGAGGAC 
CTGATACAGT GTGTAACACA GCTGAGACCT ATTATGGAGT CCCTGGAAAC AGCCAAGGAG 
GAATTCCTGA CTGGCACTGA AAAAAGGGTG ATTCTGAATT GCTGTGAGGG CAGAACACCC 
AAGGAGACAA TAGAAAATTT GTTGCACAGA ATGACTGAAG AGAAGACGCT GACTGCTGAG 
GGTTTGGTAA AACTCCTCCA GGCTGTGAAG ACGACTTTCC CAAACCTGGG CCTTCTGCTA 
GAGAAGTTGC AGAAATCAGC CACTTTGCCA AGCACCACAG TCCAACCAAG CCCTGATGAT 
TATGGGACTG AGCTATTGAG ACGCTATCAT GAAAACCTCT CTGAGATTTT CACAGACAAC 
CAGATTTTAT TAAAGATGAT CTCACACATG ACAAGTTTAG CCCCTGGAGA AAGAGAGGTC 
ATGGAGAAGC TTGTGAAACG TGACTCTGGT TCAGGTGGTT TCAATTCTCT GATATCAGCA 
GTTCTAGAAA AGCAGACTCT CTCTGCCACA GCCATTTGGC AACTGCTGCT GGTGGTTCAG 
GAGACAAAGA CCTGTCCATT GGACCTGCTC ATGGAGGAAA TACGAAGGGA GCCTGGTGCC 
GATGCTTTCT TCCGGGCAGT GACCACCCCA GAACATGCCA CTTTAGAAAC AATCCTGAGG 
CATAACCAGT TGATCTTGGA GGCCATCCAA CAGAAGATTG AGTACAAGCT CTTTACCTCG 
GAGGAGGAGC ACCTGGCAGA GACTGTGAAA GAGATTCTGA GCATTCCCTC TGAGACAGCC 
AGCCCTGAAG CTTCCCTGAG AGCAGTGCTG AGCAGAGCCA TGGAAAAATC AGTCCCGGCC 
ATTGAAATAT GCCACCTCCT GTGCAGTGTC CACAAATCTT TTCCAGGCCT GCAGCCTGTC 
ATGCAGGAGT TGGCATACAT TGGTGTCCTT ACTAAGGAAG ATGGAGAGAA GGAAACGTGG 
AAGGTGAGTA ATAAATTTCA CCTTGAAGCC AACAACAAAG AAGATGAAAA GGCAGCCAAA 
GAAGACAGCC AGCCTGGGGA ACAGAATGAT CAAGGAGAGA CTGGTTCCTT GCCAGGACAG 
CAAGAGAAAG AGGCTTCAGC CTCCCCAGAC CCTGCCAAGA AGAGCTTCAT CTGTAAGGCC 
TGCGACAAAA GCTTCCATTT CTACTGCCGC CTAAAGGTGC ACATGAAGCG CTGCCGGGTG 
GCTAAGAGCA AACAGGTGCA GTGTAAGGAG TGCAGTGAGA CCAAGGATTC AAAGAAAGAG 
CTGGACAAAC ATCAGCTGGA GGCCCATGGT GCAGGTGGAG AGCCCGATGC CCCCAAGAAG 
AAGAAGAAGA GGCTTCCAGT GACATGTGAC CTCTGTGGCA GAGAATTTGC CCATGCCTCA 
GGCATGCAGT ACCATAAGCT GACAGAGCAC TTCGATGAGA AGCCTTTCTC CTGTGAAGAG 
TGTGGGGCGA AGTTTGCAGC CAATTCCACC CTGAAGAACC ACCTTCGCCT TCACACCGGG 
GACCGCCCGT TCATGTGCAA GCACTGCCTC ATGACCTTCA CCCAGGCCTC CGCCCTGGCC 
TATCACACCA AGAAGAAGCA CTCAGAAGGG AAAATGTATG CATGCCAGTA CTGTGATGCT 
GTGTTTGCCC AGTCTATTGA GCTGTCCCGC CACGTGAGGA CCCACACCGG GGACAAGCCC 
TATGTCTGCA GAGACTGTGG CAAGGGCTTC CGGCAAGCCA ATGGCCTCTC CATCCATCTG 
CACACCTTTC ACAACATAGA AGATCCTTAT GACTGCAAGA AGTGCAGGAT GAGTTTCCCC 
ACTCTTCAGG ATCACCGGAA GCACATCCAT GAGGTGCACT CCAAAGAGTA CCACCCCTGC 
CCCACGTGTG GGAAGATCTT CAGTGCCCCG TCCATGCTGG AGCGGCACGT GGTGACCCAC 
GTTGGAGGGA AGCCCTTCAG CTGCGGGATC TGCAACAAGG CCTACCAGCA ATTGTCTGGT 
TTGTGGTACC ACAATCGAAC CCACCACCCT GACGTATTTG CTGCTCAGAA CCACCGATCT 
TCCAAGTTCT CATCACTCCA GTGCAGCTCC TGTGACAAAA CCTTCCCCAA CACCATTGAG 
CACAAGAAGC ACATCAAAGC AGAACATGCA GATATGAAGT TCCATGAATG TGACCAGTGT 
AAGGAGCTCT TCCCCACGCC AGCCTTGCTG CAGGTTCATG TCAAGTGCCA GCATTCAGGG 
TCCCAGCCAT TCCGGTGCTT GTACTGTGCT GCTACTTTCC GTTTTCCTGG AGCATTGCAG 
CACCATGTCA CCACGGAGCA CTTCAAGCAG TCAGAGACCA CCTTCCCCTG TGAGCTCTGT 
GGGGAACTCT TCACCTCCCA GGCCCAGCTT GACAGTCACC TGGAATCTGA GCACCCAAAG 
GTGATGAGCA CGGAAACCCA GGCCGCAGCC TCACAGATGG CGCAGGTGAT CCAAACCCCA 
GAGCCGGTGG CCCCGACAGA GCAGGTGATC ACTTTGGAGG AGACCCAGCT TGCCGGGTCG 
CAGGTGTTTG TGACGTTGCC AGATTCTCAG GCATCTCAGG CCAGCTCTGA GCTCGTGGCG 
GTGACTGTGG AGGACTTGCT GGATGGCACA GTGACGCTGA TCTGTGGTGA GGCCAAATGA

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

RefSeq	NP_055685.3
CDS	224..3943
Translation	MELPNYSRQLLQQLYTLCKEQQFCDCTISIGTIYFRAHKLVLAAASLLFKTLLDNTDTISIDASVVSPEEFALLLEMMYTGKLPVGKHNFSKIISLADSLQMFDVAVSCKNLLTSLVNCSVQGQVVRDVSAPSSETFRKEPEKPQVEILSSEGAGEPHSSPELAATPGGPVKAETEEAAHSVSQEMSVNSPTAQESQRNAETPAETPTTAEACSPSPAVQTFSEAKKTSTEPGCERKHYQLNFLLENEGVFSDALMVTQDVLKKLEMCSEIKGPQKEMIVKCFEGEGGHSAFQRILGKVREESLDVQTVVSLLRLYQYSNPAVKTALLDRKPEDVDTVQPKGSTEEGKTLSVLLLEHKEDLIQCVTQLRPIMESLETAKEEFLTGTEKRVILNCCEGRTPKETIENLLHRMTEEKTLTAEGLVKLLQAVKTTFPNLGLLLEKLQKSATLPSTTVQPSPDDYGTELLRRYHENLSEIFTDNQILLKMISHMTSLAPGEREVMEKLVKRDSGSGGFNSLISAVLEKQTLSATAIWQLLLVVQETKTCPLDLLMEEIRREPGADAFFRAVTTPEHATLETILRHNQLILEAIQQKIEYKLFTSEEEHLAETVKEILSIPSETASPEASLRAVLSRAMEKSVPAIEICHLLCSVHKSFPGLQPVMQELAYIGVLTKEDGEKETWKVSNKFHLEANNKEDEKAAKEDSQPGEQNDQGETGSLPGQQEKEASASPDPAKKSFICKACDKSFHFYCRLKVHMKRCRVAKSKQVQCKECSETKDSKKELDKHQLEAHGAGGEPDAPKKKKKRLPVTCDLCGREFAHASGMQYHKLTEHFDEKPFSCEECGAKFAANSTLKNHLRLHTGDRPFMCKHCLMTFTQASALAYHTKKKHSEGKMYACQYCDAVFAQSIELSRHVRTHTGDKPYVCRDCGKGFRQANGLSIHLHTFHNIEDPYDCKKCRMSFPTLQDHRKHIHEVHSKEYHPCPTCGKIFSAPSMLERHVVTHVGGKPFSCGICNKAYQQLSGLWYHNRTHHPDVFAAQNHRSSKFSSLQCSSCDKTFPNTIEHKKHIKAEHADMKFHECDQCKELFPTPALLQVHVKCQHSGSQPFRCLYCAATFRFPGALQHHVTTEHFKQSETTFPCELCGELFTSQAQLDSHLESEHPKVMSTETQAAASQMAQVIQTPEPVAPTEQVITLEETQLAGSQVFVTLPDSQASQASSELVAVTVEDLLDGTVTLICGEAK

Target ORF information:

RefSeq Version	NM_014870.4
Organism	Homo sapiens(human)
Definition	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 2, mRNA.

Target ORF information:

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

NM_014870.4

ORF Insert Sequence:

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GATGATAGTG 
AAATGTTTCG AGGGTGAAGG AGGACATTCA GCATTCCAGA GAATCCTGGG TAAAGTAAGA 
GAGGAAAGCC TGGATGTTCA AACTGTTGTG TCCCTGTTGA GGCTGTACCA ATATTCTAAT 
CCTGCAGTAA AAACAGCACT ATTAGACAGG AAGCCAGAAG ATGTAGACAC AGTGCAGCCA 
AAAGGGAGCA CAGAGGAGGG AAAGACCTTG TCTGTTCTGT TACTAGAACA CAAAGAGGAC 
CTGATACAGT GTGTAACACA GCTGAGACCT ATTATGGAGT CCCTGGAAAC AGCCAAGGAG 
GAATTCCTGA CTGGCACTGA AAAAAGGGTG ATTCTGAATT GCTGTGAGGG CAGAACACCC 
AAGGAGACAA TAGAAAATTT GTTGCACAGA ATGACTGAAG AGAAGACGCT GACTGCTGAG 
GGTTTGGTAA AACTCCTCCA GGCTGTGAAG ACGACTTTCC CAAACCTGGG CCTTCTGCTA 
GAGAAGTTGC AGAAATCAGC CACTTTGCCA AGCACCACAG TCCAACCAAG CCCTGATGAT 
TATGGGACTG AGCTATTGAG ACGCTATCAT GAAAACCTCT CTGAGATTTT CACAGACAAC 
CAGATTTTAT TAAAGATGAT CTCACACATG ACAAGTTTAG CCCCTGGAGA AAGAGAGGTC 
ATGGAGAAGC TTGTGAAACG TGACTCTGGT TCAGGTGGTT TCAATTCTCT GATATCAGCA 
GTTCTAGAAA AGCAGACTCT CTCTGCCACA GCCATTTGGC AACTGCTGCT GGTGGTTCAG 
GAGACAAAGA CCTGTCCATT GGACCTGCTC ATGGAGGAAA TACGAAGGGA GCCTGGTGCC 
GATGCTTTCT TCCGGGCAGT GACCACCCCA GAACATGCCA CTTTAGAAAC AATCCTGAGG 
CATAACCAGT TGATCTTGGA GGCCATCCAA CAGAAGATTG AGTACAAGCT CTTTACCTCG 
GAGGAGGAGC ACCTGGCAGA GACTGTGAAA GAGATTCTGA GCATTCCCTC TGAGACAGCC 
AGCCCTGAAG CTTCCCTGAG AGCAGTGCTG AGCAGAGCCA TGGAAAAATC AGTCCCGGCC 
ATTGAAATAT GCCACCTCCT GTGCAGTGTC CACAAATCTT TTCCAGGCCT GCAGCCTGTC 
ATGCAGGAGT TGGCATACAT TGGTGTCCTT ACTAAGGAAG ATGGAGAGAA GGAAACGTGG 
AAGGTGAGTA ATAAATTTCA CCTTGAAGCC AACAACAAAG AAGATGAAAA GGCAGCCAAA 
GAAGACAGCC AGCCTGGGGA ACAGAATGAT CAAGGAGAGA CTGGTTCCTT GCCAGGACAG 
CAAGAGAAAG AGGCTTCAGC CTCCCCAGAC CCTGCCAAGA AGAGCTTCAT CTGTAAGGCC 
TGCGACAAAA GCTTCCATTT CTACTGCCGC CTAAAGGTGC ACATGAAGCG CTGCCGGGTG 
GCTAAGAGCA AACAGGTGCA GTGTAAGGAG TGCAGTGAGA CCAAGGATTC AAAGAAAGAG 
CTGGACAAAC ATCAGCTGGA GGCCCATGGT GCAGGTGGAG AGCCCGATGC CCCCAAGAAG 
AAGAAGAAGA GGCTTCCAGT GACATGTGAC CTCTGTGGCA GAGAATTTGC CCATGCCTCA 
GGCATGCAGT ACCATAAGCT GACAGAGCAC TTCGATGAGA AGCCTTTCTC CTGTGAAGAG 
TGTGGGGCGA AGTTTGCAGC CAATTCCACC CTGAAGAACC ACCTTCGCCT TCACACCGGG 
GACCGCCCGT TCATGTGCAA GCACTGCCTC ATGACCTTCA CCCAGGCCTC CGCCCTGGCC 
TATCACACCA AGAAGAAGCA CTCAGAAGGG AAAATGTATG CATGCCAGTA CTGTGATGCT 
GTGTTTGCCC AGTCTATTGA GCTGTCCCGC CACGTGAGGA CCCACACCGG GGACAAGCCC 
TATGTCTGCA GAGACTGTGG CAAGGGCTTC CGGCAAGCCA ATGGCCTCTC CATCCATCTG 
CACACCTTTC ACAACATAGA AGATCCTTAT GACTGCAAGA AGTGCAGGAT GAGTTTCCCC 
ACTCTTCAGG ATCACCGGAA GCACATCCAT GAGGTGCACT CCAAAGAGTA CCACCCCTGC 
CCCACGTGTG GGAAGATCTT CAGTGCCCCG TCCATGCTGG AGCGGCACGT GGTGACCCAC 
GTTGGAGGGA AGCCCTTCAG CTGCGGGATC TGCAACAAGG CCTACCAGCA ATTGTCTGGT 
TTGTGGTACC ACAATCGAAC CCACCACCCT GACGTATTTG CTGCTCAGAA CCACCGATCT 
TCCAAGTTCT CATCACTCCA GTGCAGCTCC TGTGACAAAA CCTTCCCCAA CACCATTGAG 
CACAAGAAGC ACATCAAAGC AGAACATGCA GATATGAAGT TCCATGAATG TGACCAGTGT 
AAGGAGCTCT TCCCCACGCC AGCCTTGCTG CAGGTTCATG TCAAGTGCCA GCATTCAGGG 
TCCCAGCCAT TCCGGTGCTT GTACTGTGCT GCTACTTTCC GTTTTCCTGG AGCATTGCAG 
CACCATGTCA CCACGGAGCA CTTCAAGCAG TCAGAGACCA CCTTCCCCTG TGAGCTCTGT 
GGGGAACTCT TCACCTCCCA GGCCCAGCTT GACAGTCACC TGGAATCTGA GCACCCAAAG 
GTGATGAGCA CGGAAACCCA GGCCGCAGCC TCACAGATGG CGCAGGTGAT CCAAACCCCA 
GAGCCGGTGG CCCCGACAGA GCAGGTGATC ACTTTGGAGG AGACCCAGCT TGCCGGGTCG 
CAGGTGTTTG TGACGTTGCC AGATTCTCAG GCATCTCAGG CCAGCTCTGA GCTCGTGGCG 
GTGACTGTGG AGGACTTGCT GGATGGCACA GTGACGCTGA TCTGTGGTGA GGCCAAATGA

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

ZBTB40 ( XM_011542499.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011540801.1 Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X1, mRNA.

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CloneID	OHu06706
Clone ID Related Accession (Same CDS sequence)	NM_001083621.1 , NM_014870.3 , NM_014870.4 , XM_011542499.2 , XM_011542499.1
Accession Version	XM_011542499.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3720bp) 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	zinc finger and BTB domain-containing protein 40 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011542499.1. ##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##

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GATGATAGTG 
AAATGTTTCG AGGGTGAAGG AGGACATTCA GCATTCCAGA GAATCCTGGG TAAAGTAAGA 
GAGGAAAGCC TGGATGTTCA AACTGTTGTG TCCCTGTTGA GGCTGTACCA ATATTCTAAT 
CCTGCAGTAA AAACAGCACT ATTAGACAGG AAGCCAGAAG ATGTAGACAC AGTGCAGCCA 
AAAGGGAGCA CAGAGGAGGG AAAGACCTTG TCTGTTCTGT TACTAGAACA CAAAGAGGAC 
CTGATACAGT GTGTAACACA GCTGAGACCT ATTATGGAGT CCCTGGAAAC AGCCAAGGAG 
GAATTCCTGA CTGGCACTGA AAAAAGGGTG ATTCTGAATT GCTGTGAGGG CAGAACACCC 
AAGGAGACAA TAGAAAATTT GTTGCACAGA ATGACTGAAG AGAAGACGCT GACTGCTGAG 
GGTTTGGTAA AACTCCTCCA GGCTGTGAAG ACGACTTTCC CAAACCTGGG CCTTCTGCTA 
GAGAAGTTGC AGAAATCAGC CACTTTGCCA AGCACCACAG TCCAACCAAG CCCTGATGAT 
TATGGGACTG AGCTATTGAG ACGCTATCAT GAAAACCTCT CTGAGATTTT CACAGACAAC 
CAGATTTTAT TAAAGATGAT CTCACACATG ACAAGTTTAG CCCCTGGAGA AAGAGAGGTC 
ATGGAGAAGC TTGTGAAACG TGACTCTGGT TCAGGTGGTT TCAATTCTCT GATATCAGCA 
GTTCTAGAAA AGCAGACTCT CTCTGCCACA GCCATTTGGC AACTGCTGCT GGTGGTTCAG 
GAGACAAAGA CCTGTCCATT GGACCTGCTC ATGGAGGAAA TACGAAGGGA GCCTGGTGCC 
GATGCTTTCT TCCGGGCAGT GACCACCCCA GAACATGCCA CTTTAGAAAC AATCCTGAGG 
CATAACCAGT TGATCTTGGA GGCCATCCAA CAGAAGATTG AGTACAAGCT CTTTACCTCG 
GAGGAGGAGC ACCTGGCAGA GACTGTGAAA GAGATTCTGA GCATTCCCTC TGAGACAGCC 
AGCCCTGAAG CTTCCCTGAG AGCAGTGCTG AGCAGAGCCA TGGAAAAATC AGTCCCGGCC 
ATTGAAATAT GCCACCTCCT GTGCAGTGTC CACAAATCTT TTCCAGGCCT GCAGCCTGTC 
ATGCAGGAGT TGGCATACAT TGGTGTCCTT ACTAAGGAAG ATGGAGAGAA GGAAACGTGG 
AAGGTGAGTA ATAAATTTCA CCTTGAAGCC AACAACAAAG AAGATGAAAA GGCAGCCAAA 
GAAGACAGCC AGCCTGGGGA ACAGAATGAT CAAGGAGAGA CTGGTTCCTT GCCAGGACAG 
CAAGAGAAAG AGGCTTCAGC CTCCCCAGAC CCTGCCAAGA AGAGCTTCAT CTGTAAGGCC 
TGCGACAAAA GCTTCCATTT CTACTGCCGC CTAAAGGTGC ACATGAAGCG CTGCCGGGTG 
GCTAAGAGCA AACAGGTGCA GTGTAAGGAG TGCAGTGAGA CCAAGGATTC AAAGAAAGAG 
CTGGACAAAC ATCAGCTGGA GGCCCATGGT GCAGGTGGAG AGCCCGATGC CCCCAAGAAG 
AAGAAGAAGA GGCTTCCAGT GACATGTGAC CTCTGTGGCA GAGAATTTGC CCATGCCTCA 
GGCATGCAGT ACCATAAGCT GACAGAGCAC TTCGATGAGA AGCCTTTCTC CTGTGAAGAG 
TGTGGGGCGA AGTTTGCAGC CAATTCCACC CTGAAGAACC ACCTTCGCCT TCACACCGGG 
GACCGCCCGT TCATGTGCAA GCACTGCCTC ATGACCTTCA CCCAGGCCTC CGCCCTGGCC 
TATCACACCA AGAAGAAGCA CTCAGAAGGG AAAATGTATG CATGCCAGTA CTGTGATGCT 
GTGTTTGCCC AGTCTATTGA GCTGTCCCGC CACGTGAGGA CCCACACCGG GGACAAGCCC 
TATGTCTGCA GAGACTGTGG CAAGGGCTTC CGGCAAGCCA ATGGCCTCTC CATCCATCTG 
CACACCTTTC ACAACATAGA AGATCCTTAT GACTGCAAGA AGTGCAGGAT GAGTTTCCCC 
ACTCTTCAGG ATCACCGGAA GCACATCCAT GAGGTGCACT CCAAAGAGTA CCACCCCTGC 
CCCACGTGTG GGAAGATCTT CAGTGCCCCG TCCATGCTGG AGCGGCACGT GGTGACCCAC 
GTTGGAGGGA AGCCCTTCAG CTGCGGGATC TGCAACAAGG CCTACCAGCA ATTGTCTGGT 
TTGTGGTACC ACAATCGAAC CCACCACCCT GACGTATTTG CTGCTCAGAA CCACCGATCT 
TCCAAGTTCT CATCACTCCA GTGCAGCTCC TGTGACAAAA CCTTCCCCAA CACCATTGAG 
CACAAGAAGC ACATCAAAGC AGAACATGCA GATATGAAGT TCCATGAATG TGACCAGTGT 
AAGGAGCTCT TCCCCACGCC AGCCTTGCTG CAGGTTCATG TCAAGTGCCA GCATTCAGGG 
TCCCAGCCAT TCCGGTGCTT GTACTGTGCT GCTACTTTCC GTTTTCCTGG AGCATTGCAG 
CACCATGTCA CCACGGAGCA CTTCAAGCAG TCAGAGACCA CCTTCCCCTG TGAGCTCTGT 
GGGGAACTCT TCACCTCCCA GGCCCAGCTT GACAGTCACC TGGAATCTGA GCACCCAAAG 
GTGATGAGCA CGGAAACCCA GGCCGCAGCC TCACAGATGG CGCAGGTGAT CCAAACCCCA 
GAGCCGGTGG CCCCGACAGA GCAGGTGATC ACTTTGGAGG AGACCCAGCT TGCCGGGTCG 
CAGGTGTTTG TGACGTTGCC AGATTCTCAG GCATCTCAGG CCAGCTCTGA GCTCGTGGCG 
GTGACTGTGG AGGACTTGCT GGATGGCACA GTGACGCTGA TCTGTGGTGA GGCCAAATGA

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

RefSeq	XP_011540801.1
CDS	247..3966
Translation	MELPNYSRQLLQQLYTLCKEQQFCDCTISIGTIYFRAHKLVLAAASLLFKTLLDNTDTISIDASVVSPEEFALLLEMMYTGKLPVGKHNFSKIISLADSLQMFDVAVSCKNLLTSLVNCSVQGQVVRDVSAPSSETFRKEPEKPQVEILSSEGAGEPHSSPELAATPGGPVKAETEEAAHSVSQEMSVNSPTAQESQRNAETPAETPTTAEACSPSPAVQTFSEAKKTSTEPGCERKHYQLNFLLENEGVFSDALMVTQDVLKKLEMCSEIKGPQKEMIVKCFEGEGGHSAFQRILGKVREESLDVQTVVSLLRLYQYSNPAVKTALLDRKPEDVDTVQPKGSTEEGKTLSVLLLEHKEDLIQCVTQLRPIMESLETAKEEFLTGTEKRVILNCCEGRTPKETIENLLHRMTEEKTLTAEGLVKLLQAVKTTFPNLGLLLEKLQKSATLPSTTVQPSPDDYGTELLRRYHENLSEIFTDNQILLKMISHMTSLAPGEREVMEKLVKRDSGSGGFNSLISAVLEKQTLSATAIWQLLLVVQETKTCPLDLLMEEIRREPGADAFFRAVTTPEHATLETILRHNQLILEAIQQKIEYKLFTSEEEHLAETVKEILSIPSETASPEASLRAVLSRAMEKSVPAIEICHLLCSVHKSFPGLQPVMQELAYIGVLTKEDGEKETWKVSNKFHLEANNKEDEKAAKEDSQPGEQNDQGETGSLPGQQEKEASASPDPAKKSFICKACDKSFHFYCRLKVHMKRCRVAKSKQVQCKECSETKDSKKELDKHQLEAHGAGGEPDAPKKKKKRLPVTCDLCGREFAHASGMQYHKLTEHFDEKPFSCEECGAKFAANSTLKNHLRLHTGDRPFMCKHCLMTFTQASALAYHTKKKHSEGKMYACQYCDAVFAQSIELSRHVRTHTGDKPYVCRDCGKGFRQANGLSIHLHTFHNIEDPYDCKKCRMSFPTLQDHRKHIHEVHSKEYHPCPTCGKIFSAPSMLERHVVTHVGGKPFSCGICNKAYQQLSGLWYHNRTHHPDVFAAQNHRSSKFSSLQCSSCDKTFPNTIEHKKHIKAEHADMKFHECDQCKELFPTPALLQVHVKCQHSGSQPFRCLYCAATFRFPGALQHHVTTEHFKQSETTFPCELCGELFTSQAQLDSHLESEHPKVMSTETQAAASQMAQVIQTPEPVAPTEQVITLEETQLAGSQVFVTLPDSQASQASSELVAVTVEDLLDGTVTLICGEAK

Target ORF information:

RefSeq Version	XM_011542499.2
Organism	Homo sapiens(human)
Definition	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X1, mRNA.

Target ORF information:

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

XM_011542499.2

ORF Insert Sequence:

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GATGATAGTG 
AAATGTTTCG AGGGTGAAGG AGGACATTCA GCATTCCAGA GAATCCTGGG TAAAGTAAGA 
GAGGAAAGCC TGGATGTTCA AACTGTTGTG TCCCTGTTGA GGCTGTACCA ATATTCTAAT 
CCTGCAGTAA AAACAGCACT ATTAGACAGG AAGCCAGAAG ATGTAGACAC AGTGCAGCCA 
AAAGGGAGCA CAGAGGAGGG AAAGACCTTG TCTGTTCTGT TACTAGAACA CAAAGAGGAC 
CTGATACAGT GTGTAACACA GCTGAGACCT ATTATGGAGT CCCTGGAAAC AGCCAAGGAG 
GAATTCCTGA CTGGCACTGA AAAAAGGGTG ATTCTGAATT GCTGTGAGGG CAGAACACCC 
AAGGAGACAA TAGAAAATTT GTTGCACAGA ATGACTGAAG AGAAGACGCT GACTGCTGAG 
GGTTTGGTAA AACTCCTCCA GGCTGTGAAG ACGACTTTCC CAAACCTGGG CCTTCTGCTA 
GAGAAGTTGC AGAAATCAGC CACTTTGCCA AGCACCACAG TCCAACCAAG CCCTGATGAT 
TATGGGACTG AGCTATTGAG ACGCTATCAT GAAAACCTCT CTGAGATTTT CACAGACAAC 
CAGATTTTAT TAAAGATGAT CTCACACATG ACAAGTTTAG CCCCTGGAGA AAGAGAGGTC 
ATGGAGAAGC TTGTGAAACG TGACTCTGGT TCAGGTGGTT TCAATTCTCT GATATCAGCA 
GTTCTAGAAA AGCAGACTCT CTCTGCCACA GCCATTTGGC AACTGCTGCT GGTGGTTCAG 
GAGACAAAGA CCTGTCCATT GGACCTGCTC ATGGAGGAAA TACGAAGGGA GCCTGGTGCC 
GATGCTTTCT TCCGGGCAGT GACCACCCCA GAACATGCCA CTTTAGAAAC AATCCTGAGG 
CATAACCAGT TGATCTTGGA GGCCATCCAA CAGAAGATTG AGTACAAGCT CTTTACCTCG 
GAGGAGGAGC ACCTGGCAGA GACTGTGAAA GAGATTCTGA GCATTCCCTC TGAGACAGCC 
AGCCCTGAAG CTTCCCTGAG AGCAGTGCTG AGCAGAGCCA TGGAAAAATC AGTCCCGGCC 
ATTGAAATAT GCCACCTCCT GTGCAGTGTC CACAAATCTT TTCCAGGCCT GCAGCCTGTC 
ATGCAGGAGT TGGCATACAT TGGTGTCCTT ACTAAGGAAG ATGGAGAGAA GGAAACGTGG 
AAGGTGAGTA ATAAATTTCA CCTTGAAGCC AACAACAAAG AAGATGAAAA GGCAGCCAAA 
GAAGACAGCC AGCCTGGGGA ACAGAATGAT CAAGGAGAGA CTGGTTCCTT GCCAGGACAG 
CAAGAGAAAG AGGCTTCAGC CTCCCCAGAC CCTGCCAAGA AGAGCTTCAT CTGTAAGGCC 
TGCGACAAAA GCTTCCATTT CTACTGCCGC CTAAAGGTGC ACATGAAGCG CTGCCGGGTG 
GCTAAGAGCA AACAGGTGCA GTGTAAGGAG TGCAGTGAGA CCAAGGATTC AAAGAAAGAG 
CTGGACAAAC ATCAGCTGGA GGCCCATGGT GCAGGTGGAG AGCCCGATGC CCCCAAGAAG 
AAGAAGAAGA GGCTTCCAGT GACATGTGAC CTCTGTGGCA GAGAATTTGC CCATGCCTCA 
GGCATGCAGT ACCATAAGCT GACAGAGCAC TTCGATGAGA AGCCTTTCTC CTGTGAAGAG 
TGTGGGGCGA AGTTTGCAGC CAATTCCACC CTGAAGAACC ACCTTCGCCT TCACACCGGG 
GACCGCCCGT TCATGTGCAA GCACTGCCTC ATGACCTTCA CCCAGGCCTC CGCCCTGGCC 
TATCACACCA AGAAGAAGCA CTCAGAAGGG AAAATGTATG CATGCCAGTA CTGTGATGCT 
GTGTTTGCCC AGTCTATTGA GCTGTCCCGC CACGTGAGGA CCCACACCGG GGACAAGCCC 
TATGTCTGCA GAGACTGTGG CAAGGGCTTC CGGCAAGCCA ATGGCCTCTC CATCCATCTG 
CACACCTTTC ACAACATAGA AGATCCTTAT GACTGCAAGA AGTGCAGGAT GAGTTTCCCC 
ACTCTTCAGG ATCACCGGAA GCACATCCAT GAGGTGCACT CCAAAGAGTA CCACCCCTGC 
CCCACGTGTG GGAAGATCTT CAGTGCCCCG TCCATGCTGG AGCGGCACGT GGTGACCCAC 
GTTGGAGGGA AGCCCTTCAG CTGCGGGATC TGCAACAAGG CCTACCAGCA ATTGTCTGGT 
TTGTGGTACC ACAATCGAAC CCACCACCCT GACGTATTTG CTGCTCAGAA CCACCGATCT 
TCCAAGTTCT CATCACTCCA GTGCAGCTCC TGTGACAAAA CCTTCCCCAA CACCATTGAG 
CACAAGAAGC ACATCAAAGC AGAACATGCA GATATGAAGT TCCATGAATG TGACCAGTGT 
AAGGAGCTCT TCCCCACGCC AGCCTTGCTG CAGGTTCATG TCAAGTGCCA GCATTCAGGG 
TCCCAGCCAT TCCGGTGCTT GTACTGTGCT GCTACTTTCC GTTTTCCTGG AGCATTGCAG 
CACCATGTCA CCACGGAGCA CTTCAAGCAG TCAGAGACCA CCTTCCCCTG TGAGCTCTGT 
GGGGAACTCT TCACCTCCCA GGCCCAGCTT GACAGTCACC TGGAATCTGA GCACCCAAAG 
GTGATGAGCA CGGAAACCCA GGCCGCAGCC TCACAGATGG CGCAGGTGAT CCAAACCCCA 
GAGCCGGTGG CCCCGACAGA GCAGGTGATC ACTTTGGAGG AGACCCAGCT TGCCGGGTCG 
CAGGTGTTTG TGACGTTGCC AGATTCTCAG GCATCTCAGG CCAGCTCTGA GCTCGTGGCG 
GTGACTGTGG AGGACTTGCT GGATGGCACA GTGACGCTGA TCTGTGGTGA GGCCAAATGA

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

ZBTB40 ( XM_011542499.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011540801.1 Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X1, mRNA.

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CloneID	OHu06706
Clone ID Related Accession (Same CDS sequence)	NM_001083621.1 , NM_014870.3 , NM_014870.4 , XM_011542499.2 , XM_011542499.1
Accession Version	XM_011542499.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3720bp) 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	2015-03-11
Organism	Homo sapiens(Human)
Product	zinc finger and BTB domain-containing protein 40 isoform X1
Comment

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GATGATAGTG 
AAATGTTTCG AGGGTGAAGG AGGACATTCA GCATTCCAGA GAATCCTGGG TAAAGTAAGA 
GAGGAAAGCC TGGATGTTCA AACTGTTGTG TCCCTGTTGA GGCTGTACCA ATATTCTAAT 
CCTGCAGTAA AAACAGCACT ATTAGACAGG AAGCCAGAAG ATGTAGACAC AGTGCAGCCA 
AAAGGGAGCA CAGAGGAGGG AAAGACCTTG TCTGTTCTGT TACTAGAACA CAAAGAGGAC 
CTGATACAGT GTGTAACACA GCTGAGACCT ATTATGGAGT CCCTGGAAAC AGCCAAGGAG 
GAATTCCTGA CTGGCACTGA AAAAAGGGTG ATTCTGAATT GCTGTGAGGG CAGAACACCC 
AAGGAGACAA TAGAAAATTT GTTGCACAGA ATGACTGAAG AGAAGACGCT GACTGCTGAG 
GGTTTGGTAA AACTCCTCCA GGCTGTGAAG ACGACTTTCC CAAACCTGGG CCTTCTGCTA 
GAGAAGTTGC AGAAATCAGC CACTTTGCCA AGCACCACAG TCCAACCAAG CCCTGATGAT 
TATGGGACTG AGCTATTGAG ACGCTATCAT GAAAACCTCT CTGAGATTTT CACAGACAAC 
CAGATTTTAT TAAAGATGAT CTCACACATG ACAAGTTTAG CCCCTGGAGA AAGAGAGGTC 
ATGGAGAAGC TTGTGAAACG TGACTCTGGT TCAGGTGGTT TCAATTCTCT GATATCAGCA 
GTTCTAGAAA AGCAGACTCT CTCTGCCACA GCCATTTGGC AACTGCTGCT GGTGGTTCAG 
GAGACAAAGA CCTGTCCATT GGACCTGCTC ATGGAGGAAA TACGAAGGGA GCCTGGTGCC 
GATGCTTTCT TCCGGGCAGT GACCACCCCA GAACATGCCA CTTTAGAAAC AATCCTGAGG 
CATAACCAGT TGATCTTGGA GGCCATCCAA CAGAAGATTG AGTACAAGCT CTTTACCTCG 
GAGGAGGAGC ACCTGGCAGA GACTGTGAAA GAGATTCTGA GCATTCCCTC TGAGACAGCC 
AGCCCTGAAG CTTCCCTGAG AGCAGTGCTG AGCAGAGCCA TGGAAAAATC AGTCCCGGCC 
ATTGAAATAT GCCACCTCCT GTGCAGTGTC CACAAATCTT TTCCAGGCCT GCAGCCTGTC 
ATGCAGGAGT TGGCATACAT TGGTGTCCTT ACTAAGGAAG ATGGAGAGAA GGAAACGTGG 
AAGGTGAGTA ATAAATTTCA CCTTGAAGCC AACAACAAAG AAGATGAAAA GGCAGCCAAA 
GAAGACAGCC AGCCTGGGGA ACAGAATGAT CAAGGAGAGA CTGGTTCCTT GCCAGGACAG 
CAAGAGAAAG AGGCTTCAGC CTCCCCAGAC CCTGCCAAGA AGAGCTTCAT CTGTAAGGCC 
TGCGACAAAA GCTTCCATTT CTACTGCCGC CTAAAGGTGC ACATGAAGCG CTGCCGGGTG 
GCTAAGAGCA AACAGGTGCA GTGTAAGGAG TGCAGTGAGA CCAAGGATTC AAAGAAAGAG 
CTGGACAAAC ATCAGCTGGA GGCCCATGGT GCAGGTGGAG AGCCCGATGC CCCCAAGAAG 
AAGAAGAAGA GGCTTCCAGT GACATGTGAC CTCTGTGGCA GAGAATTTGC CCATGCCTCA 
GGCATGCAGT ACCATAAGCT GACAGAGCAC TTCGATGAGA AGCCTTTCTC CTGTGAAGAG 
TGTGGGGCGA AGTTTGCAGC CAATTCCACC CTGAAGAACC ACCTTCGCCT TCACACCGGG 
GACCGCCCGT TCATGTGCAA GCACTGCCTC ATGACCTTCA CCCAGGCCTC CGCCCTGGCC 
TATCACACCA AGAAGAAGCA CTCAGAAGGG AAAATGTATG CATGCCAGTA CTGTGATGCT 
GTGTTTGCCC AGTCTATTGA GCTGTCCCGC CACGTGAGGA CCCACACCGG GGACAAGCCC 
TATGTCTGCA GAGACTGTGG CAAGGGCTTC CGGCAAGCCA ATGGCCTCTC CATCCATCTG 
CACACCTTTC ACAACATAGA AGATCCTTAT GACTGCAAGA AGTGCAGGAT GAGTTTCCCC 
ACTCTTCAGG ATCACCGGAA GCACATCCAT GAGGTGCACT CCAAAGAGTA CCACCCCTGC 
CCCACGTGTG GGAAGATCTT CAGTGCCCCG TCCATGCTGG AGCGGCACGT GGTGACCCAC 
GTTGGAGGGA AGCCCTTCAG CTGCGGGATC TGCAACAAGG CCTACCAGCA ATTGTCTGGT 
TTGTGGTACC ACAATCGAAC CCACCACCCT GACGTATTTG CTGCTCAGAA CCACCGATCT 
TCCAAGTTCT CATCACTCCA GTGCAGCTCC TGTGACAAAA CCTTCCCCAA CACCATTGAG 
CACAAGAAGC ACATCAAAGC AGAACATGCA GATATGAAGT TCCATGAATG TGACCAGTGT 
AAGGAGCTCT TCCCCACGCC AGCCTTGCTG CAGGTTCATG TCAAGTGCCA GCATTCAGGG 
TCCCAGCCAT TCCGGTGCTT GTACTGTGCT GCTACTTTCC GTTTTCCTGG AGCATTGCAG 
CACCATGTCA CCACGGAGCA CTTCAAGCAG TCAGAGACCA CCTTCCCCTG TGAGCTCTGT 
GGGGAACTCT TCACCTCCCA GGCCCAGCTT GACAGTCACC TGGAATCTGA GCACCCAAAG 
GTGATGAGCA CGGAAACCCA GGCCGCAGCC TCACAGATGG CGCAGGTGAT CCAAACCCCA 
GAGCCGGTGG CCCCGACAGA GCAGGTGATC ACTTTGGAGG AGACCCAGCT TGCCGGGTCG 
CAGGTGTTTG TGACGTTGCC AGATTCTCAG GCATCTCAGG CCAGCTCTGA GCTCGTGGCG 
GTGACTGTGG AGGACTTGCT GGATGGCACA GTGACGCTGA TCTGTGGTGA GGCCAAATGA

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

RefSeq

XP_011540801.1

Translation

MELPNYSRQLLQQLYTLCKEQQFCDCTISIGTIYFRAHKLVLAAASLLFKTLLDNTDTISIDASVVSPEEFALLLEMMYTGKLPVGKHNFSKIISLADSLQMFDVAVSCKNLLTSLVNCSVQGQVVRDVSAPSSETFRKEPEKPQVEILSSEGAGEPHSSPELAATPGGPVKAETEEAAHSVSQEMSVNSPTAQESQRNAETPAETPTTAEACSPSPAVQTFSEAKKTSTEPGCERKHYQLNFLLENEGVFSDALMVTQDVLKKLEMCSEIKGPQKEMIVKCFEGEGGHSAFQRILGKVREESLDVQTVVSLLRLYQYSNPAVKTALLDRKPEDVDTVQPKGSTEEGKTLSVLLLEHKEDLIQCVTQLRPIMESLETAKEEFLTGTEKRVILNCCEGRTPKETIENLLHRMTEEKTLTAEGLVKLLQAVKTTFPNLGLLLEKLQKSATLPSTTVQPSPDDYGTELLRRYHENLSEIFTDNQILLKMISHMTSLAPGEREVMEKLVKRDSGSGGFNSLISAVLEKQTLSATAIWQLLLVVQETKTCPLDLLMEEIRREPGADAFFRAVTTPEHATLETILRHNQLILEAIQQKIEYKLFTSEEEHLAETVKEILSIPSETASPEASLRAVLSRAMEKSVPAIEICHLLCSVHKSFPGLQPVMQELAYIGVLTKEDGEKETWKVSNKFHLEANNKEDEKAAKEDSQPGEQNDQGETGSLPGQQEKEASASPDPAKKSFICKACDKSFHFYCRLKVHMKRCRVAKSKQVQCKECSETKDSKKELDKHQLEAHGAGGEPDAPKKKKKRLPVTCDLCGREFAHASGMQYHKLTEHFDEKPFSCEECGAKFAANSTLKNHLRLHTGDRPFMCKHCLMTFTQASALAYHTKKKHSEGKMYACQYCDAVFAQSIELSRHVRTHTGDKPYVCRDCGKGFRQANGLSIHLHTFHNIEDPYDCKKCRMSFPTLQDHRKHIHEVHSKEYHPCPTCGKIFSAPSMLERHVVTHVGGKPFSCGICNKAYQQLSGLWYHNRTHHPDVFAAQNHRSSKFSSLQCSSCDKTFPNTIEHKKHIKAEHADMKFHECDQCKELFPTPALLQVHVKCQHSGSQPFRCLYCAATFRFPGALQHHVTTEHFKQSETTFPCELCGELFTSQAQLDSHLESEHPKVMSTETQAAASQMAQVIQTPEPVAPTEQVITLEETQLAGSQVFVTLPDSQASQASSELVAVTVEDLLDGTVTLICGEAK

Target ORF information:

RefSeq Version	XM_011542499.1
Organism	Homo sapiens(Human)
Definition	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X1, mRNA.

Target ORF information:

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

XM_011542499.1

ORF Insert Sequence:

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GATGATAGTG 
AAATGTTTCG AGGGTGAAGG AGGACATTCA GCATTCCAGA GAATCCTGGG TAAAGTAAGA 
GAGGAAAGCC TGGATGTTCA AACTGTTGTG TCCCTGTTGA GGCTGTACCA ATATTCTAAT 
CCTGCAGTAA AAACAGCACT ATTAGACAGG AAGCCAGAAG ATGTAGACAC AGTGCAGCCA 
AAAGGGAGCA CAGAGGAGGG AAAGACCTTG TCTGTTCTGT TACTAGAACA CAAAGAGGAC 
CTGATACAGT GTGTAACACA GCTGAGACCT ATTATGGAGT CCCTGGAAAC AGCCAAGGAG 
GAATTCCTGA CTGGCACTGA AAAAAGGGTG ATTCTGAATT GCTGTGAGGG CAGAACACCC 
AAGGAGACAA TAGAAAATTT GTTGCACAGA ATGACTGAAG AGAAGACGCT GACTGCTGAG 
GGTTTGGTAA AACTCCTCCA GGCTGTGAAG ACGACTTTCC CAAACCTGGG CCTTCTGCTA 
GAGAAGTTGC AGAAATCAGC CACTTTGCCA AGCACCACAG TCCAACCAAG CCCTGATGAT 
TATGGGACTG AGCTATTGAG ACGCTATCAT GAAAACCTCT CTGAGATTTT CACAGACAAC 
CAGATTTTAT TAAAGATGAT CTCACACATG ACAAGTTTAG CCCCTGGAGA AAGAGAGGTC 
ATGGAGAAGC TTGTGAAACG TGACTCTGGT TCAGGTGGTT TCAATTCTCT GATATCAGCA 
GTTCTAGAAA AGCAGACTCT CTCTGCCACA GCCATTTGGC AACTGCTGCT GGTGGTTCAG 
GAGACAAAGA CCTGTCCATT GGACCTGCTC ATGGAGGAAA TACGAAGGGA GCCTGGTGCC 
GATGCTTTCT TCCGGGCAGT GACCACCCCA GAACATGCCA CTTTAGAAAC AATCCTGAGG 
CATAACCAGT TGATCTTGGA GGCCATCCAA CAGAAGATTG AGTACAAGCT CTTTACCTCG 
GAGGAGGAGC ACCTGGCAGA GACTGTGAAA GAGATTCTGA GCATTCCCTC TGAGACAGCC 
AGCCCTGAAG CTTCCCTGAG AGCAGTGCTG AGCAGAGCCA TGGAAAAATC AGTCCCGGCC 
ATTGAAATAT GCCACCTCCT GTGCAGTGTC CACAAATCTT TTCCAGGCCT GCAGCCTGTC 
ATGCAGGAGT TGGCATACAT TGGTGTCCTT ACTAAGGAAG ATGGAGAGAA GGAAACGTGG 
AAGGTGAGTA ATAAATTTCA CCTTGAAGCC AACAACAAAG AAGATGAAAA GGCAGCCAAA 
GAAGACAGCC AGCCTGGGGA ACAGAATGAT CAAGGAGAGA CTGGTTCCTT GCCAGGACAG 
CAAGAGAAAG AGGCTTCAGC CTCCCCAGAC CCTGCCAAGA AGAGCTTCAT CTGTAAGGCC 
TGCGACAAAA GCTTCCATTT CTACTGCCGC CTAAAGGTGC ACATGAAGCG CTGCCGGGTG 
GCTAAGAGCA AACAGGTGCA GTGTAAGGAG TGCAGTGAGA CCAAGGATTC AAAGAAAGAG 
CTGGACAAAC ATCAGCTGGA GGCCCATGGT GCAGGTGGAG AGCCCGATGC CCCCAAGAAG 
AAGAAGAAGA GGCTTCCAGT GACATGTGAC CTCTGTGGCA GAGAATTTGC CCATGCCTCA 
GGCATGCAGT ACCATAAGCT GACAGAGCAC TTCGATGAGA AGCCTTTCTC CTGTGAAGAG 
TGTGGGGCGA AGTTTGCAGC CAATTCCACC CTGAAGAACC ACCTTCGCCT TCACACCGGG 
GACCGCCCGT TCATGTGCAA GCACTGCCTC ATGACCTTCA CCCAGGCCTC CGCCCTGGCC 
TATCACACCA AGAAGAAGCA CTCAGAAGGG AAAATGTATG CATGCCAGTA CTGTGATGCT 
GTGTTTGCCC AGTCTATTGA GCTGTCCCGC CACGTGAGGA CCCACACCGG GGACAAGCCC 
TATGTCTGCA GAGACTGTGG CAAGGGCTTC CGGCAAGCCA ATGGCCTCTC CATCCATCTG 
CACACCTTTC ACAACATAGA AGATCCTTAT GACTGCAAGA AGTGCAGGAT GAGTTTCCCC 
ACTCTTCAGG ATCACCGGAA GCACATCCAT GAGGTGCACT CCAAAGAGTA CCACCCCTGC 
CCCACGTGTG GGAAGATCTT CAGTGCCCCG TCCATGCTGG AGCGGCACGT GGTGACCCAC 
GTTGGAGGGA AGCCCTTCAG CTGCGGGATC TGCAACAAGG CCTACCAGCA ATTGTCTGGT 
TTGTGGTACC ACAATCGAAC CCACCACCCT GACGTATTTG CTGCTCAGAA CCACCGATCT 
TCCAAGTTCT CATCACTCCA GTGCAGCTCC TGTGACAAAA CCTTCCCCAA CACCATTGAG 
CACAAGAAGC ACATCAAAGC AGAACATGCA GATATGAAGT TCCATGAATG TGACCAGTGT 
AAGGAGCTCT TCCCCACGCC AGCCTTGCTG CAGGTTCATG TCAAGTGCCA GCATTCAGGG 
TCCCAGCCAT TCCGGTGCTT GTACTGTGCT GCTACTTTCC GTTTTCCTGG AGCATTGCAG 
CACCATGTCA CCACGGAGCA CTTCAAGCAG TCAGAGACCA CCTTCCCCTG TGAGCTCTGT 
GGGGAACTCT TCACCTCCCA GGCCCAGCTT GACAGTCACC TGGAATCTGA GCACCCAAAG 
GTGATGAGCA CGGAAACCCA GGCCGCAGCC TCACAGATGG CGCAGGTGAT CCAAACCCCA 
GAGCCGGTGG CCCCGACAGA GCAGGTGATC ACTTTGGAGG AGACCCAGCT TGCCGGGTCG 
CAGGTGTTTG TGACGTTGCC AGATTCTCAG GCATCTCAGG CCAGCTCTGA GCTCGTGGCG 
GTGACTGTGG AGGACTTGCT GGATGGCACA GTGACGCTGA TCTGTGGTGA GGCCAAATGA

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

ZBTB40 ( XM_011542500.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011540802.1 Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X5, mRNA.

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CloneID	OHu63526
Clone ID Related Accession (Same CDS sequence)	XM_011542500.2
Accession Version	XM_011542500.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1989bp) 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	zinc finger and BTB domain-containing protein 40 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011542500.1. ##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##

ATGGGTGTCC AGCCCAGGAT CATTTGCATC CTGAGTGGGG AAGAACAAGA AAGGAACATG 
AAATTAAACT ACAGATTCAA ATGTAGTGCC CTTTTGATTC AGATTCTGAG CATTCCCTCT 
GAGACAGCCA GCCCTGAAGC TTCCCTGAGA GCAGTGCTGA GCAGAGCCAT GGAAAAATCA 
GTCCCGGCCA TTGAAATATG CCACCTCCTG TGCAGTGTCC ACAAATCTTT TCCAGGCCTG 
CAGCCTGTCA TGCAGGAGTT GGCATACATT GGTGTCCTTA CTAAGGAAGA TGGAGAGAAG 
GAAACGTGGA AGGTGAGTAA TAAATTTCAC CTTGAAGCCA ACAACAAAGA AGATGAAAAG 
GCAGCCAAAG AAGACAGCCA GCCTGGGGAA CAGAATGATC AAGGAGAGAC TGGTTCCTTG 
CCAGGACAGC AAGAGAAAGA GGCTTCAGCC TCCCCAGACC CTGCCAAGAA GAGCTTCATC 
TGTAAGGCCT GCGACAAAAG CTTCCATTTC TACTGCCGCC TAAAGGTGCA CATGAAGCGC 
TGCCGGGTGG CTAAGAGCAA ACAGGTGCAG TGTAAGGAGT GCAGTGAGAC CAAGGATTCA 
AAGAAAGAGC TGGACAAACA TCAGCTGGAG GCCCATGGTG CAGGTGGAGA GCCCGATGCC 
CCCAAGAAGA AGAAGAAGAG GCTTCCAGTG ACATGTGACC TCTGTGGCAG AGAATTTGCC 
CATGCCTCAG GCATGCAGTA CCATAAGCTG ACAGAGCACT TCGATGAGAA GCCTTTCTCC 
TGTGAAGAGT GTGGGGCGAA GTTTGCAGCC AATTCCACCC TGAAGAACCA CCTTCGCCTT 
CACACCGGGG ACCGCCCGTT CATGTGCAAG CACTGCCTCA TGACCTTCAC CCAGGCCTCC 
GCCCTGGCCT ATCACACCAA GAAGAAGCAC TCAGAAGGGA AAATGTATGC ATGCCAGTAC 
TGTGATGCTG TGTTTGCCCA GTCTATTGAG CTGTCCCGCC ACGTGAGGAC CCACACCGGG 
GACAAGCCCT ATGTCTGCAG AGACTGTGGC AAGGGCTTCC GGCAAGCCAA TGGCCTCTCC 
ATCCATCTGC ACACCTTTCA CAACATAGAA GATCCTTATG ACTGCAAGAA GTGCAGGATG 
AGTTTCCCCA CTCTTCAGGA TCACCGGAAG CACATCCATG AGGTGCACTC CAAAGAGTAC 
CACCCCTGCC CCACGTGTGG GAAGATCTTC AGTGCCCCGT CCATGCTGGA GCGGCACGTG 
GTGACCCACG TTGGAGGGAA GCCCTTCAGC TGCGGGATCT GCAACAAGGC CTACCAGCAA 
TTGTCTGGTT TGTGGTACCA CAATCGAACC CACCACCCTG ACGTATTTGC TGCTCAGAAC 
CACCGATCTT CCAAGTTCTC ATCACTCCAG TGCAGCTCCT GTGACAAAAC CTTCCCCAAC 
ACCATTGAGC ACAAGAAGCA CATCAAAGCA GAACATGCAG ATATGAAGTT CCATGAATGT 
GACCAGTGTA AGGAGCTCTT CCCCACGCCA GCCTTGCTGC AGGTTCATGT CAAGTGCCAG 
CATTCAGGGT CCCAGCCATT CCGGTGCTTG TACTGTGCTG CTACTTTCCG TTTTCCTGGA 
GCATTGCAGC ACCATGTCAC CACGGAGCAC TTCAAGCAGT CAGAGACCAC CTTCCCCTGT 
GAGCTCTGTG GGGAACTCTT CACCTCCCAG GCCCAGCTTG ACAGTCACCT GGAATCTGAG 
CACCCAAAGG TGATGAGCAC GGAAACCCAG GCCGCAGCCT CACAGATGGC GCAGGTGATC 
CAAACCCCAG AGCCGGTGGC CCCGACAGAG CAGGTGATCA CTTTGGAGGA GACCCAGCTT 
GCCGGGTCGC AGGTGTTTGT GACGTTGCCA GATTCTCAGG CATCTCAGGC CAGCTCTGAG 
CTCGTGGCGG TGACTGTGGA GGACTTGCTG GATGGCACAG TGACGCTGAT CTGTGGTGAG 
GCCAAATGA

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

RefSeq	XP_011540802.1
CDS	1228..3216
Translation	MGVQPRIICILSGEEQERNMKLNYRFKCSALLIQILSIPSETASPEASLRAVLSRAMEKSVPAIEICHLLCSVHKSFPGLQPVMQELAYIGVLTKEDGEKETWKVSNKFHLEANNKEDEKAAKEDSQPGEQNDQGETGSLPGQQEKEASASPDPAKKSFICKACDKSFHFYCRLKVHMKRCRVAKSKQVQCKECSETKDSKKELDKHQLEAHGAGGEPDAPKKKKKRLPVTCDLCGREFAHASGMQYHKLTEHFDEKPFSCEECGAKFAANSTLKNHLRLHTGDRPFMCKHCLMTFTQASALAYHTKKKHSEGKMYACQYCDAVFAQSIELSRHVRTHTGDKPYVCRDCGKGFRQANGLSIHLHTFHNIEDPYDCKKCRMSFPTLQDHRKHIHEVHSKEYHPCPTCGKIFSAPSMLERHVVTHVGGKPFSCGICNKAYQQLSGLWYHNRTHHPDVFAAQNHRSSKFSSLQCSSCDKTFPNTIEHKKHIKAEHADMKFHECDQCKELFPTPALLQVHVKCQHSGSQPFRCLYCAATFRFPGALQHHVTTEHFKQSETTFPCELCGELFTSQAQLDSHLESEHPKVMSTETQAAASQMAQVIQTPEPVAPTEQVITLEETQLAGSQVFVTLPDSQASQASSELVAVTVEDLLDGTVTLICGEAK

Target ORF information:

RefSeq Version	XM_011542500.2
Organism	Homo sapiens(human)
Definition	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X5, mRNA.

Target ORF information:

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

XM_011542500.2

ORF Insert Sequence:

ATGGGTGTCC AGCCCAGGAT CATTTGCATC CTGAGTGGGG AAGAACAAGA AAGGAACATG 
AAATTAAACT ACAGATTCAA ATGTAGTGCC CTTTTGATTC AGATTCTGAG CATTCCCTCT 
GAGACAGCCA GCCCTGAAGC TTCCCTGAGA GCAGTGCTGA GCAGAGCCAT GGAAAAATCA 
GTCCCGGCCA TTGAAATATG CCACCTCCTG TGCAGTGTCC ACAAATCTTT TCCAGGCCTG 
CAGCCTGTCA TGCAGGAGTT GGCATACATT GGTGTCCTTA CTAAGGAAGA TGGAGAGAAG 
GAAACGTGGA AGGTGAGTAA TAAATTTCAC CTTGAAGCCA ACAACAAAGA AGATGAAAAG 
GCAGCCAAAG AAGACAGCCA GCCTGGGGAA CAGAATGATC AAGGAGAGAC TGGTTCCTTG 
CCAGGACAGC AAGAGAAAGA GGCTTCAGCC TCCCCAGACC CTGCCAAGAA GAGCTTCATC 
TGTAAGGCCT GCGACAAAAG CTTCCATTTC TACTGCCGCC TAAAGGTGCA CATGAAGCGC 
TGCCGGGTGG CTAAGAGCAA ACAGGTGCAG TGTAAGGAGT GCAGTGAGAC CAAGGATTCA 
AAGAAAGAGC TGGACAAACA TCAGCTGGAG GCCCATGGTG CAGGTGGAGA GCCCGATGCC 
CCCAAGAAGA AGAAGAAGAG GCTTCCAGTG ACATGTGACC TCTGTGGCAG AGAATTTGCC 
CATGCCTCAG GCATGCAGTA CCATAAGCTG ACAGAGCACT TCGATGAGAA GCCTTTCTCC 
TGTGAAGAGT GTGGGGCGAA GTTTGCAGCC AATTCCACCC TGAAGAACCA CCTTCGCCTT 
CACACCGGGG ACCGCCCGTT CATGTGCAAG CACTGCCTCA TGACCTTCAC CCAGGCCTCC 
GCCCTGGCCT ATCACACCAA GAAGAAGCAC TCAGAAGGGA AAATGTATGC ATGCCAGTAC 
TGTGATGCTG TGTTTGCCCA GTCTATTGAG CTGTCCCGCC ACGTGAGGAC CCACACCGGG 
GACAAGCCCT ATGTCTGCAG AGACTGTGGC AAGGGCTTCC GGCAAGCCAA TGGCCTCTCC 
ATCCATCTGC ACACCTTTCA CAACATAGAA GATCCTTATG ACTGCAAGAA GTGCAGGATG 
AGTTTCCCCA CTCTTCAGGA TCACCGGAAG CACATCCATG AGGTGCACTC CAAAGAGTAC 
CACCCCTGCC CCACGTGTGG GAAGATCTTC AGTGCCCCGT CCATGCTGGA GCGGCACGTG 
GTGACCCACG TTGGAGGGAA GCCCTTCAGC TGCGGGATCT GCAACAAGGC CTACCAGCAA 
TTGTCTGGTT TGTGGTACCA CAATCGAACC CACCACCCTG ACGTATTTGC TGCTCAGAAC 
CACCGATCTT CCAAGTTCTC ATCACTCCAG TGCAGCTCCT GTGACAAAAC CTTCCCCAAC 
ACCATTGAGC ACAAGAAGCA CATCAAAGCA GAACATGCAG ATATGAAGTT CCATGAATGT 
GACCAGTGTA AGGAGCTCTT CCCCACGCCA GCCTTGCTGC AGGTTCATGT CAAGTGCCAG 
CATTCAGGGT CCCAGCCATT CCGGTGCTTG TACTGTGCTG CTACTTTCCG TTTTCCTGGA 
GCATTGCAGC ACCATGTCAC CACGGAGCAC TTCAAGCAGT CAGAGACCAC CTTCCCCTGT 
GAGCTCTGTG GGGAACTCTT CACCTCCCAG GCCCAGCTTG ACAGTCACCT GGAATCTGAG 
CACCCAAAGG TGATGAGCAC GGAAACCCAG GCCGCAGCCT CACAGATGGC GCAGGTGATC 
CAAACCCCAG AGCCGGTGGC CCCGACAGAG CAGGTGATCA CTTTGGAGGA GACCCAGCTT 
GCCGGGTCGC AGGTGTTTGT GACGTTGCCA GATTCTCAGG CATCTCAGGC CAGCTCTGAG 
CTCGTGGCGG TGACTGTGGA GGACTTGCTG GATGGCACAG TGACGCTGAT CTGTGGTGAG 
GCCAAATGA

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

ZBTB40 ( NM_001330398.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001317327.1 Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 3, mRNA.

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CloneID	OHu102272
Clone ID Related Accession (Same CDS sequence)	XM_024451297.1 , NM_001330398.1
Accession Version	NM_001330398.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3384bp) 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	2018-06-29
Organism	Homo sapiens(human)
Product	zinc finger and BTB domain-containing protein 40 isoform b
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL358788.17 and AL035703.21. On Aug 29, 2016 this sequence version replaced XM_017003003.1. Transcript Variant: This variant (3) differs in the 5' UTR and lacks two alternate in-frame exons compared to variant 1. The resulting isoform (b) has the same N- and C-termini but is shorter compared to isoform a. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## CDS exon combination :: BC114607.1 [ECO:0000331] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1970526 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GGTGATTCTG 
AATTGCTGTG AGGGCAGAAC ACCCAAGGAG ACAATAGAAA ATTTGTTGCA CAGAATGACT 
GAAGAGAAGA CGCTGACTGC TGAGGGTTTG GTAAAACTCC TCCAGGCTGT GAAGACGACT 
TTCCCAAACC TGGGCCTTCT GCTAGAGAAG TTGCAGAAAT CAGCCACTTT GCCAAGCACC 
ACAGTCCAAC CAAGCCCTGA TGATTATGGG ACTGAGCTAT TGAGACGCTA TCATGAAAAC 
CTCTCTGAGA TTTTCACAGA CAACCAGATT TTATTAAAGA TGATCTCACA CATGACAAGT 
TTAGCCCCTG GAGAAAGAGA GGTCATGGAG AAGCTTGTGA AACGTGACTC TGGTTCAGGT 
GGTTTCAATT CTCTGATATC AGCAGTTCTA GAAAAGCAGA CTCTCTCTGC CACAGCCATT 
TGGCAACTGC TGCTGGTGGT TCAGGAGACA AAGACCTGTC CATTGGACCT GCTCATGGAG 
GAAATACGAA GGGAGCCTGG TGCCGATGCT TTCTTCCGGG CAGTGACCAC CCCAGAACAT 
GCCACTTTAG AAACAATCCT GAGGCATAAC CAGTTGATCT TGGAGGCCAT CCAACAGAAG 
ATTGAGTACA AGCTCTTTAC CTCGGAGGAG GAGCACCTGG CAGAGACTGT GAAAGAGATT 
CTGAGCATTC CCTCTGAGAC AGCCAGCCCT GAAGCTTCCC TGAGAGCAGT GCTGAGCAGA 
GCCATGGAAA AATCAGTCCC GGCCATTGAA ATATGCCACC TCCTGTGCAG TGTCCACAAA 
TCTTTTCCAG GCCTGCAGCC TGTCATGCAG GAGTTGGCAT ACATTGGTGT CCTTACTAAG 
GAAGATGGAG AGAAGGAAAC GTGGAAGGTG AGTAATAAAT TTCACCTTGA AGCCAACAAC 
AAAGAAGATG AAAAGGCAGC CAAAGAAGAC AGCCAGCCTG GGGAACAGAA TGATCAAGGA 
GAGACTGGTT CCTTGCCAGG ACAGCAAGAG AAAGAGGCTT CAGCCTCCCC AGACCCTGCC 
AAGAAGAGCT TCATCTGTAA GGCCTGCGAC AAAAGCTTCC ATTTCTACTG CCGCCTAAAG 
GTGCACATGA AGCGCTGCCG GGTGGCTAAG AGCAAACAGG TGCAGTGTAA GGAGTGCAGT 
GAGACCAAGG ATTCAAAGAA AGAGCTGGAC AAACATCAGC TGGAGGCCCA TGGTGCAGGT 
GGAGAGCCCG ATGCCCCCAA GAAGAAGAAG AAGAGGCTTC CAGTGACATG TGACCTCTGT 
GGCAGAGAAT TTGCCCATGC CTCAGGCATG CAGTACCATA AGCTGACAGA GCACTTCGAT 
GAGAAGCCTT TCTCCTGTGA AGAGTGTGGG GCGAAGTTTG CAGCCAATTC CACCCTGAAG 
AACCACCTTC GCCTTCACAC CGGGGACCGC CCGTTCATGT GCAAGCACTG CCTCATGACC 
TTCACCCAGG CCTCCGCCCT GGCCTATCAC ACCAAGAAGA AGCACTCAGA AGGGAAAATG 
TATGCATGCC AGTACTGTGA TGCTGTGTTT GCCCAGTCTA TTGAGCTGTC CCGCCACGTG 
AGGACCCACA CCGGGGACAA GCCCTATGTC TGCAGAGACT GTGGCAAGGG CTTCCGGCAA 
GCCAATGGCC TCTCCATCCA TCTGCACACC TTTCACAACA TAGAAGATCC TTATGACTGC 
AAGAAGTGCA GGATGAGTTT CCCCACTCTT CAGGATCACC GGAAGCACAT CCATGAGGTG 
CACTCCAAAG AGTACCACCC CTGCCCCACG TGTGGGAAGA TCTTCAGTGC CCCGTCCATG 
CTGGAGCGGC ACGTGGTGAC CCACGTTGGA GGGAAGCCCT TCAGCTGCGG GATCTGCAAC 
AAGGCCTACC AGCAATTGTC TGGTTTGTGG TACCACAATC GAACCCACCA CCCTGACGTA 
TTTGCTGCTC AGAACCACCG ATCTTCCAAG TTCTCATCAC TCCAGTGCAG CTCCTGTGAC 
AAAACCTTCC CCAACACCAT TGAGCACAAG AAGCACATCA AAGCAGAACA TGCAGATATG 
AAGTTCCATG AATGTGACCA GTGTAAGGAG CTCTTCCCCA CGCCAGCCTT GCTGCAGGTT 
CATGTCAAGT GCCAGCATTC AGGGTCCCAG CCATTCCGGT GCTTGTACTG TGCTGCTACT 
TTCCGTTTTC CTGGAGCATT GCAGCACCAT GTCACCACGG AGCACTTCAA GCAGTCAGAG 
ACCACCTTCC CCTGTGAGCT CTGTGGGGAA CTCTTCACCT CCCAGGCCCA GCTTGACAGT 
CACCTGGAAT CTGAGCACCC AAAGGTGATG AGCACGGAAA CCCAGGCCGC AGCCTCACAG 
ATGGCGCAGG TGATCCAAAC CCCAGAGCCG GTGGCCCCGA CAGAGCAGGT GATCACTTTG 
GAGGAGACCC AGCTTGCCGG GTCGCAGGTG TTTGTGACGT TGCCAGATTC TCAGGCATCT 
CAGGCCAGCT CTGAGCTCGT GGCGGTGACT GTGGAGGACT TGCTGGATGG CACAGTGACG 
CTGATCTGTG GTGAGGCCAA ATGA

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

RefSeq	NP_001317327.1
CDS	224..3607
Translation	MELPNYSRQLLQQLYTLCKEQQFCDCTISIGTIYFRAHKLVLAAASLLFKTLLDNTDTISIDASVVSPEEFALLLEMMYTGKLPVGKHNFSKIISLADSLQMFDVAVSCKNLLTSLVNCSVQGQVVRDVSAPSSETFRKEPEKPQVEILSSEGAGEPHSSPELAATPGGPVKAETEEAAHSVSQEMSVNSPTAQESQRNAETPAETPTTAEACSPSPAVQTFSEAKKTSTEPGCERKHYQLNFLLENEGVFSDALMVTQDVLKKLEMCSEIKGPQKEVILNCCEGRTPKETIENLLHRMTEEKTLTAEGLVKLLQAVKTTFPNLGLLLEKLQKSATLPSTTVQPSPDDYGTELLRRYHENLSEIFTDNQILLKMISHMTSLAPGEREVMEKLVKRDSGSGGFNSLISAVLEKQTLSATAIWQLLLVVQETKTCPLDLLMEEIRREPGADAFFRAVTTPEHATLETILRHNQLILEAIQQKIEYKLFTSEEEHLAETVKEILSIPSETASPEASLRAVLSRAMEKSVPAIEICHLLCSVHKSFPGLQPVMQELAYIGVLTKEDGEKETWKVSNKFHLEANNKEDEKAAKEDSQPGEQNDQGETGSLPGQQEKEASASPDPAKKSFICKACDKSFHFYCRLKVHMKRCRVAKSKQVQCKECSETKDSKKELDKHQLEAHGAGGEPDAPKKKKKRLPVTCDLCGREFAHASGMQYHKLTEHFDEKPFSCEECGAKFAANSTLKNHLRLHTGDRPFMCKHCLMTFTQASALAYHTKKKHSEGKMYACQYCDAVFAQSIELSRHVRTHTGDKPYVCRDCGKGFRQANGLSIHLHTFHNIEDPYDCKKCRMSFPTLQDHRKHIHEVHSKEYHPCPTCGKIFSAPSMLERHVVTHVGGKPFSCGICNKAYQQLSGLWYHNRTHHPDVFAAQNHRSSKFSSLQCSSCDKTFPNTIEHKKHIKAEHADMKFHECDQCKELFPTPALLQVHVKCQHSGSQPFRCLYCAATFRFPGALQHHVTTEHFKQSETTFPCELCGELFTSQAQLDSHLESEHPKVMSTETQAAASQMAQVIQTPEPVAPTEQVITLEETQLAGSQVFVTLPDSQASQASSELVAVTVEDLLDGTVTLICGEAK

Target ORF information:

RefSeq Version	NM_001330398.1
Organism	Homo sapiens(human)
Definition	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant 3, mRNA.

Target ORF information:

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

NM_001330398.1

ORF Insert Sequence:

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GGTGATTCTG 
AATTGCTGTG AGGGCAGAAC ACCCAAGGAG ACAATAGAAA ATTTGTTGCA CAGAATGACT 
GAAGAGAAGA CGCTGACTGC TGAGGGTTTG GTAAAACTCC TCCAGGCTGT GAAGACGACT 
TTCCCAAACC TGGGCCTTCT GCTAGAGAAG TTGCAGAAAT CAGCCACTTT GCCAAGCACC 
ACAGTCCAAC CAAGCCCTGA TGATTATGGG ACTGAGCTAT TGAGACGCTA TCATGAAAAC 
CTCTCTGAGA TTTTCACAGA CAACCAGATT TTATTAAAGA TGATCTCACA CATGACAAGT 
TTAGCCCCTG GAGAAAGAGA GGTCATGGAG AAGCTTGTGA AACGTGACTC TGGTTCAGGT 
GGTTTCAATT CTCTGATATC AGCAGTTCTA GAAAAGCAGA CTCTCTCTGC CACAGCCATT 
TGGCAACTGC TGCTGGTGGT TCAGGAGACA AAGACCTGTC CATTGGACCT GCTCATGGAG 
GAAATACGAA GGGAGCCTGG TGCCGATGCT TTCTTCCGGG CAGTGACCAC CCCAGAACAT 
GCCACTTTAG AAACAATCCT GAGGCATAAC CAGTTGATCT TGGAGGCCAT CCAACAGAAG 
ATTGAGTACA AGCTCTTTAC CTCGGAGGAG GAGCACCTGG CAGAGACTGT GAAAGAGATT 
CTGAGCATTC CCTCTGAGAC AGCCAGCCCT GAAGCTTCCC TGAGAGCAGT GCTGAGCAGA 
GCCATGGAAA AATCAGTCCC GGCCATTGAA ATATGCCACC TCCTGTGCAG TGTCCACAAA 
TCTTTTCCAG GCCTGCAGCC TGTCATGCAG GAGTTGGCAT ACATTGGTGT CCTTACTAAG 
GAAGATGGAG AGAAGGAAAC GTGGAAGGTG AGTAATAAAT TTCACCTTGA AGCCAACAAC 
AAAGAAGATG AAAAGGCAGC CAAAGAAGAC AGCCAGCCTG GGGAACAGAA TGATCAAGGA 
GAGACTGGTT CCTTGCCAGG ACAGCAAGAG AAAGAGGCTT CAGCCTCCCC AGACCCTGCC 
AAGAAGAGCT TCATCTGTAA GGCCTGCGAC AAAAGCTTCC ATTTCTACTG CCGCCTAAAG 
GTGCACATGA AGCGCTGCCG GGTGGCTAAG AGCAAACAGG TGCAGTGTAA GGAGTGCAGT 
GAGACCAAGG ATTCAAAGAA AGAGCTGGAC AAACATCAGC TGGAGGCCCA TGGTGCAGGT 
GGAGAGCCCG ATGCCCCCAA GAAGAAGAAG AAGAGGCTTC CAGTGACATG TGACCTCTGT 
GGCAGAGAAT TTGCCCATGC CTCAGGCATG CAGTACCATA AGCTGACAGA GCACTTCGAT 
GAGAAGCCTT TCTCCTGTGA AGAGTGTGGG GCGAAGTTTG CAGCCAATTC CACCCTGAAG 
AACCACCTTC GCCTTCACAC CGGGGACCGC CCGTTCATGT GCAAGCACTG CCTCATGACC 
TTCACCCAGG CCTCCGCCCT GGCCTATCAC ACCAAGAAGA AGCACTCAGA AGGGAAAATG 
TATGCATGCC AGTACTGTGA TGCTGTGTTT GCCCAGTCTA TTGAGCTGTC CCGCCACGTG 
AGGACCCACA CCGGGGACAA GCCCTATGTC TGCAGAGACT GTGGCAAGGG CTTCCGGCAA 
GCCAATGGCC TCTCCATCCA TCTGCACACC TTTCACAACA TAGAAGATCC TTATGACTGC 
AAGAAGTGCA GGATGAGTTT CCCCACTCTT CAGGATCACC GGAAGCACAT CCATGAGGTG 
CACTCCAAAG AGTACCACCC CTGCCCCACG TGTGGGAAGA TCTTCAGTGC CCCGTCCATG 
CTGGAGCGGC ACGTGGTGAC CCACGTTGGA GGGAAGCCCT TCAGCTGCGG GATCTGCAAC 
AAGGCCTACC AGCAATTGTC TGGTTTGTGG TACCACAATC GAACCCACCA CCCTGACGTA 
TTTGCTGCTC AGAACCACCG ATCTTCCAAG TTCTCATCAC TCCAGTGCAG CTCCTGTGAC 
AAAACCTTCC CCAACACCAT TGAGCACAAG AAGCACATCA AAGCAGAACA TGCAGATATG 
AAGTTCCATG AATGTGACCA GTGTAAGGAG CTCTTCCCCA CGCCAGCCTT GCTGCAGGTT 
CATGTCAAGT GCCAGCATTC AGGGTCCCAG CCATTCCGGT GCTTGTACTG TGCTGCTACT 
TTCCGTTTTC CTGGAGCATT GCAGCACCAT GTCACCACGG AGCACTTCAA GCAGTCAGAG 
ACCACCTTCC CCTGTGAGCT CTGTGGGGAA CTCTTCACCT CCCAGGCCCA GCTTGACAGT 
CACCTGGAAT CTGAGCACCC AAAGGTGATG AGCACGGAAA CCCAGGCCGC AGCCTCACAG 
ATGGCGCAGG TGATCCAAAC CCCAGAGCCG GTGGCCCCGA CAGAGCAGGT GATCACTTTG 
GAGGAGACCC AGCTTGCCGG GTCGCAGGTG TTTGTGACGT TGCCAGATTC TCAGGCATCT 
CAGGCCAGCT CTGAGCTCGT GGCGGTGACT GTGGAGGACT TGCTGGATGG CACAGTGACG 
CTGATCTGTG GTGAGGCCAA ATGA

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

ZBTB40 ( XM_024451297.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024307065.1 Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu102272
Clone ID Related Accession (Same CDS sequence)	XM_024451297.1 , NM_001330398.1
Accession Version	XM_024451297.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3384bp) 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	zinc finger and BTB domain-containing protein 40 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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##

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GGTGATTCTG 
AATTGCTGTG AGGGCAGAAC ACCCAAGGAG ACAATAGAAA ATTTGTTGCA CAGAATGACT 
GAAGAGAAGA CGCTGACTGC TGAGGGTTTG GTAAAACTCC TCCAGGCTGT GAAGACGACT 
TTCCCAAACC TGGGCCTTCT GCTAGAGAAG TTGCAGAAAT CAGCCACTTT GCCAAGCACC 
ACAGTCCAAC CAAGCCCTGA TGATTATGGG ACTGAGCTAT TGAGACGCTA TCATGAAAAC 
CTCTCTGAGA TTTTCACAGA CAACCAGATT TTATTAAAGA TGATCTCACA CATGACAAGT 
TTAGCCCCTG GAGAAAGAGA GGTCATGGAG AAGCTTGTGA AACGTGACTC TGGTTCAGGT 
GGTTTCAATT CTCTGATATC AGCAGTTCTA GAAAAGCAGA CTCTCTCTGC CACAGCCATT 
TGGCAACTGC TGCTGGTGGT TCAGGAGACA AAGACCTGTC CATTGGACCT GCTCATGGAG 
GAAATACGAA GGGAGCCTGG TGCCGATGCT TTCTTCCGGG CAGTGACCAC CCCAGAACAT 
GCCACTTTAG AAACAATCCT GAGGCATAAC CAGTTGATCT TGGAGGCCAT CCAACAGAAG 
ATTGAGTACA AGCTCTTTAC CTCGGAGGAG GAGCACCTGG CAGAGACTGT GAAAGAGATT 
CTGAGCATTC CCTCTGAGAC AGCCAGCCCT GAAGCTTCCC TGAGAGCAGT GCTGAGCAGA 
GCCATGGAAA AATCAGTCCC GGCCATTGAA ATATGCCACC TCCTGTGCAG TGTCCACAAA 
TCTTTTCCAG GCCTGCAGCC TGTCATGCAG GAGTTGGCAT ACATTGGTGT CCTTACTAAG 
GAAGATGGAG AGAAGGAAAC GTGGAAGGTG AGTAATAAAT TTCACCTTGA AGCCAACAAC 
AAAGAAGATG AAAAGGCAGC CAAAGAAGAC AGCCAGCCTG GGGAACAGAA TGATCAAGGA 
GAGACTGGTT CCTTGCCAGG ACAGCAAGAG AAAGAGGCTT CAGCCTCCCC AGACCCTGCC 
AAGAAGAGCT TCATCTGTAA GGCCTGCGAC AAAAGCTTCC ATTTCTACTG CCGCCTAAAG 
GTGCACATGA AGCGCTGCCG GGTGGCTAAG AGCAAACAGG TGCAGTGTAA GGAGTGCAGT 
GAGACCAAGG ATTCAAAGAA AGAGCTGGAC AAACATCAGC TGGAGGCCCA TGGTGCAGGT 
GGAGAGCCCG ATGCCCCCAA GAAGAAGAAG AAGAGGCTTC CAGTGACATG TGACCTCTGT 
GGCAGAGAAT TTGCCCATGC CTCAGGCATG CAGTACCATA AGCTGACAGA GCACTTCGAT 
GAGAAGCCTT TCTCCTGTGA AGAGTGTGGG GCGAAGTTTG CAGCCAATTC CACCCTGAAG 
AACCACCTTC GCCTTCACAC CGGGGACCGC CCGTTCATGT GCAAGCACTG CCTCATGACC 
TTCACCCAGG CCTCCGCCCT GGCCTATCAC ACCAAGAAGA AGCACTCAGA AGGGAAAATG 
TATGCATGCC AGTACTGTGA TGCTGTGTTT GCCCAGTCTA TTGAGCTGTC CCGCCACGTG 
AGGACCCACA CCGGGGACAA GCCCTATGTC TGCAGAGACT GTGGCAAGGG CTTCCGGCAA 
GCCAATGGCC TCTCCATCCA TCTGCACACC TTTCACAACA TAGAAGATCC TTATGACTGC 
AAGAAGTGCA GGATGAGTTT CCCCACTCTT CAGGATCACC GGAAGCACAT CCATGAGGTG 
CACTCCAAAG AGTACCACCC CTGCCCCACG TGTGGGAAGA TCTTCAGTGC CCCGTCCATG 
CTGGAGCGGC ACGTGGTGAC CCACGTTGGA GGGAAGCCCT TCAGCTGCGG GATCTGCAAC 
AAGGCCTACC AGCAATTGTC TGGTTTGTGG TACCACAATC GAACCCACCA CCCTGACGTA 
TTTGCTGCTC AGAACCACCG ATCTTCCAAG TTCTCATCAC TCCAGTGCAG CTCCTGTGAC 
AAAACCTTCC CCAACACCAT TGAGCACAAG AAGCACATCA AAGCAGAACA TGCAGATATG 
AAGTTCCATG AATGTGACCA GTGTAAGGAG CTCTTCCCCA CGCCAGCCTT GCTGCAGGTT 
CATGTCAAGT GCCAGCATTC AGGGTCCCAG CCATTCCGGT GCTTGTACTG TGCTGCTACT 
TTCCGTTTTC CTGGAGCATT GCAGCACCAT GTCACCACGG AGCACTTCAA GCAGTCAGAG 
ACCACCTTCC CCTGTGAGCT CTGTGGGGAA CTCTTCACCT CCCAGGCCCA GCTTGACAGT 
CACCTGGAAT CTGAGCACCC AAAGGTGATG AGCACGGAAA CCCAGGCCGC AGCCTCACAG 
ATGGCGCAGG TGATCCAAAC CCCAGAGCCG GTGGCCCCGA CAGAGCAGGT GATCACTTTG 
GAGGAGACCC AGCTTGCCGG GTCGCAGGTG TTTGTGACGT TGCCAGATTC TCAGGCATCT 
CAGGCCAGCT CTGAGCTCGT GGCGGTGACT GTGGAGGACT TGCTGGATGG CACAGTGACG 
CTGATCTGTG GTGAGGCCAA ATGA

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

RefSeq	XP_024307065.1
CDS	247..3630
Translation	MELPNYSRQLLQQLYTLCKEQQFCDCTISIGTIYFRAHKLVLAAASLLFKTLLDNTDTISIDASVVSPEEFALLLEMMYTGKLPVGKHNFSKIISLADSLQMFDVAVSCKNLLTSLVNCSVQGQVVRDVSAPSSETFRKEPEKPQVEILSSEGAGEPHSSPELAATPGGPVKAETEEAAHSVSQEMSVNSPTAQESQRNAETPAETPTTAEACSPSPAVQTFSEAKKTSTEPGCERKHYQLNFLLENEGVFSDALMVTQDVLKKLEMCSEIKGPQKEVILNCCEGRTPKETIENLLHRMTEEKTLTAEGLVKLLQAVKTTFPNLGLLLEKLQKSATLPSTTVQPSPDDYGTELLRRYHENLSEIFTDNQILLKMISHMTSLAPGEREVMEKLVKRDSGSGGFNSLISAVLEKQTLSATAIWQLLLVVQETKTCPLDLLMEEIRREPGADAFFRAVTTPEHATLETILRHNQLILEAIQQKIEYKLFTSEEEHLAETVKEILSIPSETASPEASLRAVLSRAMEKSVPAIEICHLLCSVHKSFPGLQPVMQELAYIGVLTKEDGEKETWKVSNKFHLEANNKEDEKAAKEDSQPGEQNDQGETGSLPGQQEKEASASPDPAKKSFICKACDKSFHFYCRLKVHMKRCRVAKSKQVQCKECSETKDSKKELDKHQLEAHGAGGEPDAPKKKKKRLPVTCDLCGREFAHASGMQYHKLTEHFDEKPFSCEECGAKFAANSTLKNHLRLHTGDRPFMCKHCLMTFTQASALAYHTKKKHSEGKMYACQYCDAVFAQSIELSRHVRTHTGDKPYVCRDCGKGFRQANGLSIHLHTFHNIEDPYDCKKCRMSFPTLQDHRKHIHEVHSKEYHPCPTCGKIFSAPSMLERHVVTHVGGKPFSCGICNKAYQQLSGLWYHNRTHHPDVFAAQNHRSSKFSSLQCSSCDKTFPNTIEHKKHIKAEHADMKFHECDQCKELFPTPALLQVHVKCQHSGSQPFRCLYCAATFRFPGALQHHVTTEHFKQSETTFPCELCGELFTSQAQLDSHLESEHPKVMSTETQAAASQMAQVIQTPEPVAPTEQVITLEETQLAGSQVFVTLPDSQASQASSELVAVTVEDLLDGTVTLICGEAK

Target ORF information:

RefSeq Version	XM_024451297.1
Organism	Homo sapiens(human)
Definition	Homo sapiens zinc finger and BTB domain containing 40 (ZBTB40), transcript variant X4, mRNA.

Target ORF information:

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

XM_024451297.1

ORF Insert Sequence:

ATGGAGCTCC CCAACTACAG CCGGCAGCTG CTGCAGCAGC TGTACACTCT GTGCAAGGAG 
CAGCAGTTCT GTGATTGCAC CATCTCCATT GGTACCATTT ACTTCAGGGC TCACAAGCTT 
GTCCTGGCTG CTGCCAGCCT CCTGTTCAAA ACCCTGCTGG ATAACACAGA TACCATCTCC 
ATCGATGCAT CTGTGGTGAG CCCCGAGGAG TTTGCGCTCT TGTTGGAAAT GATGTACACG 
GGCAAACTAC CTGTGGGCAA GCACAACTTC TCCAAAATCA TCTCCTTAGC AGACAGTCTA 
CAGATGTTTG ATGTAGCTGT TAGCTGCAAA AATCTTCTGA CCAGCCTTGT AAACTGCTCG 
GTTCAGGGTC AGGTGGTAAG GGATGTCTCT GCGCCATCCT CAGAGACATT CAGAAAGGAA 
CCAGAGAAGC CTCAAGTAGA AATCCTTTCA TCTGAAGGTG CTGGAGAGCC TCATTCTTCC 
CCAGAGCTTG CTGCCACTCC AGGGGGCCCT GTGAAAGCTG AGACTGAGGA AGCAGCCCAT 
TCAGTTTCAC AAGAGATGAG TGTGAATTCT CCCACAGCCC AGGAGAGCCA GAGGAATGCA 
GAAACCCCAG CGGAGACTCC TACTACAGCT GAAGCTTGTT CCCCCTCCCC TGCTGTGCAA 
ACCTTTAGTG AGGCAAAGAA GACAAGCACA GAACCAGGAT GTGAAAGGAA ACACTACCAG 
CTGAATTTTC TTCTAGAAAA TGAAGGTGTC TTCTCAGATG CACTCATGGT TACCCAGGAT 
GTTTTAAAAA AACTAGAAAT GTGTTCAGAA ATTAAAGGTC CACAGAAGGA GGTGATTCTG 
AATTGCTGTG AGGGCAGAAC ACCCAAGGAG ACAATAGAAA ATTTGTTGCA CAGAATGACT 
GAAGAGAAGA CGCTGACTGC TGAGGGTTTG GTAAAACTCC TCCAGGCTGT GAAGACGACT 
TTCCCAAACC TGGGCCTTCT GCTAGAGAAG TTGCAGAAAT CAGCCACTTT GCCAAGCACC 
ACAGTCCAAC CAAGCCCTGA TGATTATGGG ACTGAGCTAT TGAGACGCTA TCATGAAAAC 
CTCTCTGAGA TTTTCACAGA CAACCAGATT TTATTAAAGA TGATCTCACA CATGACAAGT 
TTAGCCCCTG GAGAAAGAGA GGTCATGGAG AAGCTTGTGA AACGTGACTC TGGTTCAGGT 
GGTTTCAATT CTCTGATATC AGCAGTTCTA GAAAAGCAGA CTCTCTCTGC CACAGCCATT 
TGGCAACTGC TGCTGGTGGT TCAGGAGACA AAGACCTGTC CATTGGACCT GCTCATGGAG 
GAAATACGAA GGGAGCCTGG TGCCGATGCT TTCTTCCGGG CAGTGACCAC CCCAGAACAT 
GCCACTTTAG AAACAATCCT GAGGCATAAC CAGTTGATCT TGGAGGCCAT CCAACAGAAG 
ATTGAGTACA AGCTCTTTAC CTCGGAGGAG GAGCACCTGG CAGAGACTGT GAAAGAGATT 
CTGAGCATTC CCTCTGAGAC AGCCAGCCCT GAAGCTTCCC TGAGAGCAGT GCTGAGCAGA 
GCCATGGAAA AATCAGTCCC GGCCATTGAA ATATGCCACC TCCTGTGCAG TGTCCACAAA 
TCTTTTCCAG GCCTGCAGCC TGTCATGCAG GAGTTGGCAT ACATTGGTGT CCTTACTAAG 
GAAGATGGAG AGAAGGAAAC GTGGAAGGTG AGTAATAAAT TTCACCTTGA AGCCAACAAC 
AAAGAAGATG AAAAGGCAGC CAAAGAAGAC AGCCAGCCTG GGGAACAGAA TGATCAAGGA 
GAGACTGGTT CCTTGCCAGG ACAGCAAGAG AAAGAGGCTT CAGCCTCCCC AGACCCTGCC 
AAGAAGAGCT TCATCTGTAA GGCCTGCGAC AAAAGCTTCC ATTTCTACTG CCGCCTAAAG 
GTGCACATGA AGCGCTGCCG GGTGGCTAAG AGCAAACAGG TGCAGTGTAA GGAGTGCAGT 
GAGACCAAGG ATTCAAAGAA AGAGCTGGAC AAACATCAGC TGGAGGCCCA TGGTGCAGGT 
GGAGAGCCCG ATGCCCCCAA GAAGAAGAAG AAGAGGCTTC CAGTGACATG TGACCTCTGT 
GGCAGAGAAT TTGCCCATGC CTCAGGCATG CAGTACCATA AGCTGACAGA GCACTTCGAT 
GAGAAGCCTT TCTCCTGTGA AGAGTGTGGG GCGAAGTTTG CAGCCAATTC CACCCTGAAG 
AACCACCTTC GCCTTCACAC CGGGGACCGC CCGTTCATGT GCAAGCACTG CCTCATGACC 
TTCACCCAGG CCTCCGCCCT GGCCTATCAC ACCAAGAAGA AGCACTCAGA AGGGAAAATG 
TATGCATGCC AGTACTGTGA TGCTGTGTTT GCCCAGTCTA TTGAGCTGTC CCGCCACGTG 
AGGACCCACA CCGGGGACAA GCCCTATGTC TGCAGAGACT GTGGCAAGGG CTTCCGGCAA 
GCCAATGGCC TCTCCATCCA TCTGCACACC TTTCACAACA TAGAAGATCC TTATGACTGC 
AAGAAGTGCA GGATGAGTTT CCCCACTCTT CAGGATCACC GGAAGCACAT CCATGAGGTG 
CACTCCAAAG AGTACCACCC CTGCCCCACG TGTGGGAAGA TCTTCAGTGC CCCGTCCATG 
CTGGAGCGGC ACGTGGTGAC CCACGTTGGA GGGAAGCCCT TCAGCTGCGG GATCTGCAAC 
AAGGCCTACC AGCAATTGTC TGGTTTGTGG TACCACAATC GAACCCACCA CCCTGACGTA 
TTTGCTGCTC AGAACCACCG ATCTTCCAAG TTCTCATCAC TCCAGTGCAG CTCCTGTGAC 
AAAACCTTCC CCAACACCAT TGAGCACAAG AAGCACATCA AAGCAGAACA TGCAGATATG 
AAGTTCCATG AATGTGACCA GTGTAAGGAG CTCTTCCCCA CGCCAGCCTT GCTGCAGGTT 
CATGTCAAGT GCCAGCATTC AGGGTCCCAG CCATTCCGGT GCTTGTACTG TGCTGCTACT 
TTCCGTTTTC CTGGAGCATT GCAGCACCAT GTCACCACGG AGCACTTCAA GCAGTCAGAG 
ACCACCTTCC CCTGTGAGCT CTGTGGGGAA CTCTTCACCT CCCAGGCCCA GCTTGACAGT 
CACCTGGAAT CTGAGCACCC AAAGGTGATG AGCACGGAAA CCCAGGCCGC AGCCTCACAG 
ATGGCGCAGG TGATCCAAAC CCCAGAGCCG GTGGCCCCGA CAGAGCAGGT GATCACTTTG 
GAGGAGACCC AGCTTGCCGG GTCGCAGGTG TTTGTGACGT TGCCAGATTC TCAGGCATCT 
CAGGCCAGCT CTGAGCTCGT GGCGGTGACT GTGGAGGACT TGCTGGATGG CACAGTGACG 
CTGATCTGTG GTGAGGCCAA ATGA

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

PubMed

Multistage genome-wide association meta-analyses identified two new loci for bone mineral density.
Human molecular genetics23(7)1923-33(2014 Apr)
Zhang L,Choi HJ,Estrada K,Leo PJ,Li J,Pei YF,Zhang Y,Lin Y,Shen H,Liu YZ,Liu Y,Zhao Y,Zhang JG,Tian Q,Wang YP,Han Y,Ran S,Hai R,Zhu XZ,Wu S,Yan H,Liu X,Yang TL,Guo Y,Zhang F,Guo YF,Chen Y,Chen X,Tan L,Zhang L,Deng FY,Deng H,Rivadeneira F,Duncan EL,Lee JY,Han BG,Cho NH,Nicholson GC,McCloskey E,Eastell R,Prince RL,Eisman JA,Jones G,Reid IR,Sambrook PN,Dennison EM,Danoy P,Yerges-Armstrong LM,Streeten EA,Hu T,Xiang S,Papasian CJ,Brown MA,Shin CS,Uitterlinden AG,Deng HW

Genome-wide association study link novel loci to endometriosis.
PloS one8(3)e58257(2013)
Albertsen HM,Chettier R,Farrington P,Ward K

Opposite associations of osteoprotegerin and ZBTB40 polymorphisms with bone mineral density of the hip in postmenopausal Taiwanese women.
Journal of the Chinese Medical Association : JCMA75(7)335-40(2012 Jul)
Chao TH,Yu HN,Huang CC,Liu WS,Lu KH

Genome-wide meta-analysis identifies 56 bone mineral density loci and reveals 14 loci associated with risk of fracture.
Nature genetics44(5)491-501(2012 Apr)
Estrada K,Styrkarsdottir U,Evangelou E,Hsu YH,Duncan EL,Ntzani EE,Oei L,Albagha OM,Amin N,Kemp JP,Koller DL,Li G,Liu CT,Minster RL,Moayyeri A,Vandenput L,Willner D,Xiao SM,Yerges-Armstrong LM,Zheng HF,Alonso N,Eriksson J,Kammerer CM,Kaptoge SK,Leo PJ,Thorleifsson G,Wilson SG,Wilson JF,Aalto V,Alen M,Aragaki AK,Aspelund T,Center JR,Dailiana Z,Duggan DJ,Garcia M,Garcia-Giralt N,Giroux S,Hallmans G,Hocking LJ,Husted LB,Jameson KA,Khusainova R,Kim GS,Kooperberg C,Koromila T,Kruk M,Laaksonen M,Lacroix AZ,Lee SH,Leung PC,Lewis JR,Masi L,Mencej-Bedrac S,Nguyen TV,Nogues X,Patel MS,Prezelj J,Rose LM,Scollen S,Siggeirsdottir K,Smith AV,Svensson O,Trompet S,Trummer O,van Schoor NM,Woo J,Zhu K,Balcells S,Brandi ML,Buckley BM,Cheng S,Christiansen C,Cooper C,Dedoussis G,Ford I,Frost M,Goltzman D,Gonz?lez-Mac?as J,K?h?nen M,Karlsson M,Khusnutdinova E,Koh JM,Kollia P,Langdahl BL,Leslie WD,Lips P,Ljunggren ?,Lorenc RS,Marc J,Mellstr?m D,Obermayer-Pietsch B,Olmos JM,Pettersson-Kymmer U,Reid DM,Riancho JA,Ridker PM,Rousseau F,Slagboom PE,Tang NL,Urreizti R,Van Hul W,Viikari J,Zarrabeitia MT,Aulchenko YS,Castano-Betancourt M,Grundberg E,Herrera L,Ingvarsson T,Johannsdottir H,Kwan T,Li R,Luben R,Medina-G?mez C,Palsson ST,Reppe S,Rotter JI,Sigurdsson G,van Meurs JB,Verlaan D,Williams FM,Wood AR,Zhou Y,Gautvik KM,Pastinen T,Raychaudhuri S,Cauley JA,Chasman DI,Clark GR,Cummings SR,Danoy P,Dennison EM,Eastell R,Eisman JA,Gudnason V,Hofman A,Jackson RD,Jones G,Jukema JW,Khaw KT,Lehtim?ki T,Liu Y,Lorentzon M,McCloskey E,Mitchell BD,Nandakumar K,Nicholson GC,Oostra BA,Peacock M,Pols HA,Prince RL,Raitakari O,Reid IR,Robbins J,Sambrook PN,Sham PC,Shuldiner AR,Tylavsky FA,van Duijn CM,Wareham NJ,Cupples LA,Econs MJ,Evans DM,Harris TB,Kung AW,Psaty BM,Reeve J,Spector TD,Streeten EA,Zillikens MC,Thorsteinsdottir U,Ohlsson C,Karasik D,Richards JB,Brown MA,Stefansson K,Uitterlinden AG,Ralston SH,Ioannidis JP,Kiel DP,Rivadeneira F

Genome-wide association study using extreme truncate selection identifies novel genes affecting bone mineral density and fracture risk.
PLoS genetics7(4)e1001372(2011 Apr)
Duncan EL,Danoy P,Kemp JP,Leo PJ,McCloskey E,Nicholson GC,Eastell R,Prince RL,Eisman JA,Jones G,Sambrook PN,Reid IR,Dennison EM,Wark J,Richards JB,Uitterlinden AG,Spector TD,Esapa C,Cox RD,Brown SD,Thakker RV,Addison KA,Bradbury LA,Center JR,Cooper C,Cremin C,Estrada K,Felsenberg D,Gl?er CC,Hadler J,Henry MJ,Hofman A,Kotowicz MA,Makovey J,Nguyen SC,Nguyen TV,Pasco JA,Pryce K,Reid DM,Rivadeneira F,Roux C,Stefansson K,Styrkarsdottir U,Thorleifsson G,Tichawangana R,Evans DM,Brown MA

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ZBTB40 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:

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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