ZBTB38 cDNA ORF clone, Protobothrops mucrosquamatus

Gene
Clones
gRNAs

Summary

Gene Symbol	ZBTB38
Entrez Gene ID	107287769
Full Name	zinc finger and BTB domain containing 38
Gene Type	protein-coding
Organism	Protobothrops mucrosquamatus

mRNA and Protein(s)

mRNA	Protein	Name
XM_015816309.1	XP_015671795.1	zinc finger and BTB domain-containing protein 38

Pathways from BioSystems
Gene Ontology

The following ZBTB38 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ZBTB38 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OPr30512	XM_015816309.1 Latest version!	Protobothrops mucrosquamatus zinc finger and BTB domain containing 38 (ZBTB38), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

ZBTB38 ( XM_015816309.1 ) cDNA ORF clone, Protobothrops mucrosquamatus -> XP_015671795.1 Protobothrops mucrosquamatus zinc finger and BTB domain containing 38 (ZBTB38), mRNA.

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CloneID	OPr30512
Clone ID Related Accession (Same CDS sequence)	XM_015816309.1
Accession Version	XM_015816309.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3594bp) 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	2019-05-22
Organism	Protobothrops mucrosquamatus
Product	zinc finger and BTB domain-containing protein 38
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015386749.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Protobothrops mucrosquamatus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATCATCA TGTCCCACTT AAAGGATCTC AAAGATGACT TTCACAGTGA CACAGTCCTT 
TCCATATTAA ATGAACAACG CATTCGGGGC ATTTTATGTG ATGTCACCAT AATTGTAGAA 
GACACCAAAT TCAAAGCCCA TAGTAACGTC CTGGCTGCTT CAAGCCTTTA TTTCAAAAAT 
ATATTTTGGA GTCATACAAT CTGCGTTTCT GGACATGTGT TGGAACTAGA TGGTCTGAAG 
GCTGAAGTGT TCACAGAGAT ACTTAATTAC ATCTATAGTT CTACAGTAAT TGTTAAAAAA 
CAAGAGTCTC TTGTGGATCT TGCCGCTGCT GGCAAAAAAT TGGGAATATC TTTTTTAGAA 
GATCTTACAG AAAAGAGCCT TTCCAGTTCC CCTTGTCTGT ACTCATTTTG CAATACTGAA 
AAAAATGATG TAAAAGAAGA AAAAAGACAG GAAGACTCAG CCATTACAAA TGGACCAAGA 
ATCACGAATG CATACTCAAT TTTTGAAACT GAAAGTAGTA ATAATTTGTT TTCTCCTCTT 
GACCTGAGGG CAAATTTTAA AAAAATGCCT GAAACAAATA AAGCATCCAA TAGTGATCTG 
GACAGGACTG ATGCATGCAA AGAGGTTGAA AGAGCCAGCA CATTAGCTGA ACATTCCTAT 
GCTGTTACAA CAGGTTGCAA TGCTTTACAA CAAAATTCCT TTTATTATGA AAACACCCCA 
CTTTATAAAA CAGGCGAAGA TTGTTCTGAA GCTGCCGAGT TAGTGCCTCC AGTTAAATCA 
GTAACACGCT CATATAATGC ACCAAAGGCT ATATTTAACT CCCAGATTAC AGATGCTCCT 
ACTGTAAAGA TATCAGCCCA CAAGGGAAGT GGTTCAGAGG CTCCCGATAA AGTCATAAAT 
GACCACAGCC ATTCTTTTAA AAAATGCCAG GCAAACAAAG CCAATATTCT CTCTTCTAAG 
GAAAATGAAA ATAAATCAGA TAACCTTTCT GGATCAATAG CTATGGACAT TCCACATCCT 
TACAACTGCA ATTGTTGTAC TAAATCATTT AATGATAAAA CTCAGTTAAG CACTCATCTT 
AAACTTCATT CACAATCTCA AGAGACTTTA GTTTGCAAAT ATTGTAGCAA ACAGTTTGAA 
AATATTGCTG GACTAGAGAC TCATGAACAA GAATGTAGGG GTCTGAATAA TTTGTGTGTT 
GAAAATGAAA ATGAGCAGAA TAGTCTGGAT AATTTTGCTC CTTCAAATGA AAAAACTGGC 
ACCTCGTATG TAAGCCCAGA GCCCACAGAA ACTGAAAACG AAATTACTGA TTATCCTGCT 
ACAAACGGTA CAATGCCAGA AACAGACCAT TTTGTTAAAG TTGTTGGTGG ACAGATACTT 
TATACTTGCA GTGTTTGTAA ACGTACCTAT GTTACCTTGT CTAGCCTCCG AAGACATTCA 
AATGTTCATT CTTGGAGAAG AACCTATCCA TGCCATTATT GCAACAAAGT CTTTGCGTTA 
GCAGAGTACC GTACCAGACA CGAAATCTGG CACACGGGTG AAAGGCGATA CCAATGTATC 
TTTTGTCTTG AGACTTTTAT GACATACTAT ATACTCAAAA ACCATCAGAA ATCTTTTCAT 
GCAATTGATC ACCGACTTGG TGTAAACAAG AAAACAGCTA ATGGTGGCTT AAAACCAAAT 
GTATATCCTT ACAAGCTTTA CAGGCTTTTG CCTATGAAAT GTAAAAGGGC ACCATATAAA 
AGTTACGGAA ACTCATCATA TGAAAGTGTA CAAGTTAATG AAGTTCCATC TAGCACCTGT 
ATTATTCAGA ATACTGTCAC TTCTGAACTG TCATCCTTGA ATTTTGAACA CAATATGTTG 
CCAGCTTCCA GTATTTCTTT GGATAGTTCT TCATGTGGTG ATGCTACAGC AACATCTGAA 
AATCCTCCAA ATGTTTCTTC CTGGAAAATT TCATCAAGGA CAGATCTTAA CAATAATGCT 
CCCACTAACA GAAGGACATT ATCTTCTGTT GAGAATTCTG GTCCTCAGGA ATATGATTCC 
TCTTGTCAAG CAATTAGTAA TAGCAATTCC CATGAGAATT CAACCTCTGT TATTAGCTAT 
AACAATCCAG CATCTTCTGT TATAGTGCAT AGTGGAAGAG TTTCCTCAGT GATAATGCAC 
AGTAATGCTG TCAATGCAGT AGGAAGAAGT GATAAGGGAA CTTCAGATAT TACAATCAAT 
CAAGTAGCGA GCAATGATCT TATACATGAG TCAGACAATG GCAATAGTAG AACAAGAAGC 
AATAAAGAAA AGAAAAAGGT GCCCCTATAT GACAGAGAAG CAACTTCAAA GGAAGTAAAA 
TATACAACAA ATACAGGGAT ACCTTCTAAC ACATCTACAC ACATCTTTGA AACTTCAAGT 
AAGACTGAAA CTTATATCGC AAAACCTGCA CTGCCAGGAA CATCTGCTGA CAGCAATGTT 
GCTCCTCTTT GCCAAATAAC AGTTAAAATT GGAAATGAAG CTATTGTGAA AAGACATATT 
TTGGGGTCCA AACTGTTTTA CAAAAAAGGT AGAAAATCTA AATATGAATC CAAAGGTGAT 
CAGACAGTTC AGGTTGCAGA ACGGGAAAAG AGAGAGAGAA TCATGTCTCG AGTTTGTCAG 
GCAGACATTG AAAGTGAAAT GGGCGATGAT ATCAGTGACC ATGACTCTAA TGATAAACCT 
TGGCGGCCAT ATTACAATTA CAAACCAAAA AAGAAATCTA AACAACTAAG AAAAATGAGA 
AAAGCAAAAT GGAGAGAGAA ATACAGGAGC AGAAATTCCT GTCAGGAAAG TGAGAAGGCC 
TATGTCACCA CTTATGCTCT TAGGAATATT CCTGAAGAGA AGGTCTGTAA TCAAGAAGGA 
GAAGAGAAAA TGCCAGATCT TTATTGTAAG CTCTGTGAAA GGGAGAATAC TTCTACAGAA 
GTATCCCATG ACCACTCACA CTGGGAGACC ACAGAGTCTG AGTCTTTCAC TTGTGATTTA 
TGCCAAAAGC ATTTCCAGAG CAATTCTACC CTAAGGATGC ATAAACGGTG CCATATGGGG 
GAGAAACCCT ACCTTTGCAA AACCTGCGGG AAACGTTTTT CAATCTCTAG CAATTTACAG 
AAGCATGAAC GCACCCATTC TGCCGTCAAG GATTTCATCT GTCAACACTG TAACAAAGCA 
TTCACTCTCA ACGAAACACT CAAAATACAC GAAAGAATCC ATACAGGAGA AAAGCGCTAC 
CACTGTCAGT TTTGTTTTCA GGGCTTCTTA TATCTTTCCA CCAAAAGGAA TCATGAGCAA 
AGGCATAAGC GTGAGCACAC TGGAAAGGGC TACGCATGTT TTCAGTGCCC CAAGGTTTGT 
AAAACAGCAG CTGCTCTTGG GATGCACCAG AAGAAGCATT TGTTTAAACC ACCCAAGCAA 
GAGGACAGAA AAGACTGTTT GTTTAATGAA AGCTCTAAAT CATATAAAAG TCAACATTTC 
TTTGATTCAG AGCAACAGGA AACAGCTAAA CCTCTGCTAA CTAAATGCCT AACTGATGCA 
GAAAGTTTCA AAGCCAGTAA TATTCAGAAT ACTGCATTGG ATGCTGGACT CTGA

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

RefSeq	XP_015671795.1
CDS	16..3609
Translation	MIIMSHLKDLKDDFHSDTVLSILNEQRIRGILCDVTIIVEDTKFKAHSNVLAASSLYFKNIFWSHTICVSGHVLELDGLKAEVFTEILNYIYSSTVIVKKQESLVDLAAAGKKLGISFLEDLTEKSLSSSPCLYSFCNTEKNDVKEEKRQEDSAITNGPRITNAYSIFETESSNNLFSPLDLRANFKKMPETNKASNSDLDRTDACKEVERASTLAEHSYAVTTGCNALQQNSFYYENTPLYKTGEDCSEAAELVPPVKSVTRSYNAPKAIFNSQITDAPTVKISAHKGSGSEAPDKVINDHSHSFKKCQANKANILSSKENENKSDNLSGSIAMDIPHPYNCNCCTKSFNDKTQLSTHLKLHSQSQETLVCKYCSKQFENIAGLETHEQECRGLNNLCVENENEQNSLDNFAPSNEKTGTSYVSPEPTETENEITDYPATNGTMPETDHFVKVVGGQILYTCSVCKRTYVTLSSLRRHSNVHSWRRTYPCHYCNKVFALAEYRTRHEIWHTGERRYQCIFCLETFMTYYILKNHQKSFHAIDHRLGVNKKTANGGLKPNVYPYKLYRLLPMKCKRAPYKSYGNSSYESVQVNEVPSSTCIIQNTVTSELSSLNFEHNMLPASSISLDSSSCGDATATSENPPNVSSWKISSRTDLNNNAPTNRRTLSSVENSGPQEYDSSCQAISNSNSHENSTSVISYNNPASSVIVHSGRVSSVIMHSNAVNAVGRSDKGTSDITINQVASNDLIHESDNGNSRTRSNKEKKKVPLYDREATSKEVKYTTNTGIPSNTSTHIFETSSKTETYIAKPALPGTSADSNVAPLCQITVKIGNEAIVKRHILGSKLFYKKGRKSKYESKGDQTVQVAEREKRERIMSRVCQADIESEMGDDISDHDSNDKPWRPYYNYKPKKKSKQLRKMRKAKWREKYRSRNSCQESEKAYVTTYALRNIPEEKVCNQEGEEKMPDLYCKLCERENTSTEVSHDHSHWETTESESFTCDLCQKHFQSNSTLRMHKRCHMGEKPYLCKTCGKRFSISSNLQKHERTHSAVKDFICQHCNKAFTLNETLKIHERIHTGEKRYHCQFCFQGFLYLSTKRNHEQRHKREHTGKGYACFQCPKVCKTAAALGMHQKKHLFKPPKQEDRKDCLFNESSKSYKSQHFFDSEQQETAKPLLTKCLTDAESFKASNIQNTALDAGL

Target ORF information:

RefSeq Version	XM_015816309.1
Organism	Protobothrops mucrosquamatus
Definition	Protobothrops mucrosquamatus zinc finger and BTB domain containing 38 (ZBTB38), mRNA.

Target ORF information:

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

XM_015816309.1

ORF Insert Sequence:

ATGATCATCA TGTCCCACTT AAAGGATCTC AAAGATGACT TTCACAGTGA CACAGTCCTT 
TCCATATTAA ATGAACAACG CATTCGGGGC ATTTTATGTG ATGTCACCAT AATTGTAGAA 
GACACCAAAT TCAAAGCCCA TAGTAACGTC CTGGCTGCTT CAAGCCTTTA TTTCAAAAAT 
ATATTTTGGA GTCATACAAT CTGCGTTTCT GGACATGTGT TGGAACTAGA TGGTCTGAAG 
GCTGAAGTGT TCACAGAGAT ACTTAATTAC ATCTATAGTT CTACAGTAAT TGTTAAAAAA 
CAAGAGTCTC TTGTGGATCT TGCCGCTGCT GGCAAAAAAT TGGGAATATC TTTTTTAGAA 
GATCTTACAG AAAAGAGCCT TTCCAGTTCC CCTTGTCTGT ACTCATTTTG CAATACTGAA 
AAAAATGATG TAAAAGAAGA AAAAAGACAG GAAGACTCAG CCATTACAAA TGGACCAAGA 
ATCACGAATG CATACTCAAT TTTTGAAACT GAAAGTAGTA ATAATTTGTT TTCTCCTCTT 
GACCTGAGGG CAAATTTTAA AAAAATGCCT GAAACAAATA AAGCATCCAA TAGTGATCTG 
GACAGGACTG ATGCATGCAA AGAGGTTGAA AGAGCCAGCA CATTAGCTGA ACATTCCTAT 
GCTGTTACAA CAGGTTGCAA TGCTTTACAA CAAAATTCCT TTTATTATGA AAACACCCCA 
CTTTATAAAA CAGGCGAAGA TTGTTCTGAA GCTGCCGAGT TAGTGCCTCC AGTTAAATCA 
GTAACACGCT CATATAATGC ACCAAAGGCT ATATTTAACT CCCAGATTAC AGATGCTCCT 
ACTGTAAAGA TATCAGCCCA CAAGGGAAGT GGTTCAGAGG CTCCCGATAA AGTCATAAAT 
GACCACAGCC ATTCTTTTAA AAAATGCCAG GCAAACAAAG CCAATATTCT CTCTTCTAAG 
GAAAATGAAA ATAAATCAGA TAACCTTTCT GGATCAATAG CTATGGACAT TCCACATCCT 
TACAACTGCA ATTGTTGTAC TAAATCATTT AATGATAAAA CTCAGTTAAG CACTCATCTT 
AAACTTCATT CACAATCTCA AGAGACTTTA GTTTGCAAAT ATTGTAGCAA ACAGTTTGAA 
AATATTGCTG GACTAGAGAC TCATGAACAA GAATGTAGGG GTCTGAATAA TTTGTGTGTT 
GAAAATGAAA ATGAGCAGAA TAGTCTGGAT AATTTTGCTC CTTCAAATGA AAAAACTGGC 
ACCTCGTATG TAAGCCCAGA GCCCACAGAA ACTGAAAACG AAATTACTGA TTATCCTGCT 
ACAAACGGTA CAATGCCAGA AACAGACCAT TTTGTTAAAG TTGTTGGTGG ACAGATACTT 
TATACTTGCA GTGTTTGTAA ACGTACCTAT GTTACCTTGT CTAGCCTCCG AAGACATTCA 
AATGTTCATT CTTGGAGAAG AACCTATCCA TGCCATTATT GCAACAAAGT CTTTGCGTTA 
GCAGAGTACC GTACCAGACA CGAAATCTGG CACACGGGTG AAAGGCGATA CCAATGTATC 
TTTTGTCTTG AGACTTTTAT GACATACTAT ATACTCAAAA ACCATCAGAA ATCTTTTCAT 
GCAATTGATC ACCGACTTGG TGTAAACAAG AAAACAGCTA ATGGTGGCTT AAAACCAAAT 
GTATATCCTT ACAAGCTTTA CAGGCTTTTG CCTATGAAAT GTAAAAGGGC ACCATATAAA 
AGTTACGGAA ACTCATCATA TGAAAGTGTA CAAGTTAATG AAGTTCCATC TAGCACCTGT 
ATTATTCAGA ATACTGTCAC TTCTGAACTG TCATCCTTGA ATTTTGAACA CAATATGTTG 
CCAGCTTCCA GTATTTCTTT GGATAGTTCT TCATGTGGTG ATGCTACAGC AACATCTGAA 
AATCCTCCAA ATGTTTCTTC CTGGAAAATT TCATCAAGGA CAGATCTTAA CAATAATGCT 
CCCACTAACA GAAGGACATT ATCTTCTGTT GAGAATTCTG GTCCTCAGGA ATATGATTCC 
TCTTGTCAAG CAATTAGTAA TAGCAATTCC CATGAGAATT CAACCTCTGT TATTAGCTAT 
AACAATCCAG CATCTTCTGT TATAGTGCAT AGTGGAAGAG TTTCCTCAGT GATAATGCAC 
AGTAATGCTG TCAATGCAGT AGGAAGAAGT GATAAGGGAA CTTCAGATAT TACAATCAAT 
CAAGTAGCGA GCAATGATCT TATACATGAG TCAGACAATG GCAATAGTAG AACAAGAAGC 
AATAAAGAAA AGAAAAAGGT GCCCCTATAT GACAGAGAAG CAACTTCAAA GGAAGTAAAA 
TATACAACAA ATACAGGGAT ACCTTCTAAC ACATCTACAC ACATCTTTGA AACTTCAAGT 
AAGACTGAAA CTTATATCGC AAAACCTGCA CTGCCAGGAA CATCTGCTGA CAGCAATGTT 
GCTCCTCTTT GCCAAATAAC AGTTAAAATT GGAAATGAAG CTATTGTGAA AAGACATATT 
TTGGGGTCCA AACTGTTTTA CAAAAAAGGT AGAAAATCTA AATATGAATC CAAAGGTGAT 
CAGACAGTTC AGGTTGCAGA ACGGGAAAAG AGAGAGAGAA TCATGTCTCG AGTTTGTCAG 
GCAGACATTG AAAGTGAAAT GGGCGATGAT ATCAGTGACC ATGACTCTAA TGATAAACCT 
TGGCGGCCAT ATTACAATTA CAAACCAAAA AAGAAATCTA AACAACTAAG AAAAATGAGA 
AAAGCAAAAT GGAGAGAGAA ATACAGGAGC AGAAATTCCT GTCAGGAAAG TGAGAAGGCC 
TATGTCACCA CTTATGCTCT TAGGAATATT CCTGAAGAGA AGGTCTGTAA TCAAGAAGGA 
GAAGAGAAAA TGCCAGATCT TTATTGTAAG CTCTGTGAAA GGGAGAATAC TTCTACAGAA 
GTATCCCATG ACCACTCACA CTGGGAGACC ACAGAGTCTG AGTCTTTCAC TTGTGATTTA 
TGCCAAAAGC ATTTCCAGAG CAATTCTACC CTAAGGATGC ATAAACGGTG CCATATGGGG 
GAGAAACCCT ACCTTTGCAA AACCTGCGGG AAACGTTTTT CAATCTCTAG CAATTTACAG 
AAGCATGAAC GCACCCATTC TGCCGTCAAG GATTTCATCT GTCAACACTG TAACAAAGCA 
TTCACTCTCA ACGAAACACT CAAAATACAC GAAAGAATCC ATACAGGAGA AAAGCGCTAC 
CACTGTCAGT TTTGTTTTCA GGGCTTCTTA TATCTTTCCA CCAAAAGGAA TCATGAGCAA 
AGGCATAAGC GTGAGCACAC TGGAAAGGGC TACGCATGTT TTCAGTGCCC CAAGGTTTGT 
AAAACAGCAG CTGCTCTTGG GATGCACCAG AAGAAGCATT TGTTTAAACC ACCCAAGCAA 
GAGGACAGAA AAGACTGTTT GTTTAATGAA AGCTCTAAAT CATATAAAAG TCAACATTTC 
TTTGATTCAG AGCAACAGGA AACAGCTAAA CCTCTGCTAA CTAAATGCCT AACTGATGCA 
GAAAGTTTCA AAGCCAGTAA TATTCAGAAT ACTGCATTGG ATGCTGGACT CTGA