BUB1B cDNA ORF clone, Parus major(Great Tit)

Gene
Clones
gRNAs

Summary

Gene Symbol	BUB1B
Entrez Gene ID	107205325
Full Name	BUB1 mitotic checkpoint serine/threonine kinase B
Gene Type	protein-coding
Organism	Parus major(Great Tit)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015629641.2	XP_015485127.1	mitotic checkpoint serine/threonine-protein kinase BUB1 beta

Pathways from BioSystems
Gene Ontology

The following BUB1B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BUB1B 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
OPa178451	XM_015629641.2 Latest version!	Parus major BUB1 mitotic checkpoint serine/threonine kinase B (BUB1B), 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)

BUB1B ( XM_015629641.2 ) cDNA ORF clone, Parus major(Great Tit) -> XP_015485127.1 Parus major BUB1 mitotic checkpoint serine/threonine kinase B (BUB1B), mRNA.

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CloneID	OPa178451
Clone ID Related Accession (Same CDS sequence)	XM_015629641.2
Accession Version	XM_015629641.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3732bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-11-13
Organism	Parus major(Great Tit)
Product	mitotic checkpoint serine/threonine-protein kinase BUB1 beta
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_031774.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2016 this sequence version replaced XM_015629641.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Parus major Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGATTTCAG AGGGAAAGGA AAACGGAAGC ACCAAAGCCC TTGCTGTAGC AGCTGGAATA 
ACTGTTTCTT GCAGGGATGT GTGGGGTTGT TCAGCAGGTC GTAGCCGGAA AAGTGCCCGT 
CACCCTCTCG CTGTTCTTAA GCCGGTGGAT TCTCTGAGTG CCAAGGAAAG TGCAGCAGCA 
GCAGCAGCCT GTAATGAGCT GAATGGAATT GAACGTTTGG CTGAGGATGC AATTGTGACA 
GGCTCCTACA AGAACAAGAC CCTTTGTGCC AACCCAGAGG ACACGTGTGA CTTTAACAGG 
GCTGCCCACC TGGCCTCAAC GCCCTTCCAC GGGGTGGTGG CTCAGAGAGT CCCAGCTCCT 
GCTTTCTCTC AGAGTGAACT GAAGGAGGAA GATAGTCCAG AATCCAGGAG TGCACCTCAG 
ACTCAGGAGA CACCAGTGTG TGAAGGAGCA TACACTGAAG CTCTCGGTGT GAAAAAACTG 
AGCGGAAACT ACATTTCCCG TGATGCCTCG AGGCGACGCA GGACGGCGCC AATCAGGATT 
GAAGGAGAGG TGGTCATGTC CCAGGAGGAC AGCCATGAGT GGGAGCTGAG CAAGGAGAAT 
GTGCAGCCCC TCAGGCAGGG GCGGGTGATG TCCAGCTTGC AGGAGGCACT GGCTCAACAG 
GACTCTTCCA GCCACACTGC TGTGCAGCTT AAAAAACAGG AGTTTGAAGC AGAAATACGA 
TTTTACTCTG GGGATGATCC TCTGGATGTG TGGGAGCGGT ACATCAAGTG GACAGAGCAG 
GCCTTCCCTG GGGGTGGCAA GGATGGCAAC CTTGCAGCAG TTCTGGAAAG GGCAGTGAGA 
GCCCTCCATG GGCAGCAGCA ATACTACAAA GATCCTCGCT ATCTTAATCT CTGGCTCAAG 
TTTGGCGATT GCTGCAATGA GCCCTTGGAT CTGTACAGTT ACCTGCACAG CCAGGAGATC 
GGCACCACAC TGGCCCCGCT CTACATCACC TGGGCAGAGG CACTCGAGGC CAGGGGCAGC 
TTCAGGAAAG CAGATCTCAT ATTCCAGGAA GGGCTCCAGC GCAAGGCTGA GCCTTTGGAC 
AAACTCCAGG CTCATCACAA GCAGTTTCAG GCCCGTGTTT CTCGGCAGAC ACTACTGGCA 
CTTGAGGAAA GTCCTGATGG GGACAATATG GGATTGCTGG AAATTGCAGA GCCTCAGAGA 
AGCTCACTGG CAGATCTCAA AGGCAGAGGG AAGAAGAAAG TGAGAGCCCC CATTAGTCGT 
GTGGGAGATG CAGTTAAAGC CATGAACCCA AACAGAAGCT GCCAGCCTCG GGCTCCTCTG 
CAAGTTCCAA ATGCTCCAAG TTTTGCTGTG TTTGATGAAA ATTCTGTGTC TGGACCTGAG 
ATTCCCACAC TTACAGCACA GTCATGGCCA GCACCTCCAG TTCCCAGGGC CAAGGAGAAT 
GAGCTCAGCG CAGGACCGTG GAACTCAGGC AGGAACAGAA TGTCTTTACT CCAAAACCAG 
GTTCTGAAAT TATCCCTGTT GTCTCCTGTG CCTGCTTTCC CGACCCCCTG CAAAATTGAG 
CCCAGCATAA ACTGCGTGTT AAGTACTCGC AAACCTGAGG AGCGGGAGGA CCCACTGCAG 
CGAGTGCAGC ATCAGCAGCA GGACGCTCAG GCAAAGAAAG AGATGGTGAT GTACTGCAAA 
GAGAAGGTTT ATGCAGGAGT TGATGAATTC TCTTTTGAAG AGATCCGAGC TGAAATCTAC 
AGGAAGAAAG CGAGAAAGAA AGACGAAGAT GAAATACAAG CCATAGAACG AAAGAAGGAA 
GAAATACAAA GGAAAATTGA GGAGCTGGAA CAGAAATTAA AGAAGAAAGA AGAGGACAAG 
CAGCAACAAC CACATGAACA GGCAGCAGAG GTAATGGGAG CTTCCATACC TTTGGGAATG 
CAAGGATTTA CTTTTTCCAG TGCAACTGAA CATGGGGAGA AACAGCCTCA GTCACAAAGT 
GAATTCCAGG TCCATGAAGA TACTCAACTA CATAAATCAT CTTATTCTGA GGATGTAGGT 
CTGCTTCCCC CACCAGCTGC TGCTCCATTT TTCTCTATAT TTGATGAATC CTCTACTTTG 
ACAAATCAGA ACATAAGTTG TTCAGCAGGT CGTAGCCGGA AAAGTGCCCG TCACCCTCTC 
GCTGTTCTTA AGCCGGTGGA TTCTCTGAGT GCCAAGGAAA GTGCAGCAGC AGCAGCAGCC 
TGTAATGAGC TGAATGGAAT TGAACGTTTG GCTGAGGATG CAATTGTGAC AGGCTCCTAC 
AAGAACAAGA CCCTTTGTGC CAACCCAGAG GACACGTGTG ACTTTAACAG GGCTGCCCAC 
CTGGCCTCAA CGCCCTTCCA CGGGGTGGTG GCTCAGAGAG TCCCAGCTCC TGCTTTCTCT 
CAGAGTGAAC TGAAGGAGGA AGATAGTCCA GAATCCAGGA GTGCACCTCA GACTCAGGAG 
ACACCAGTGT GTGAAGGAGC ATACACTGAA GCTCTCAGTG TGAAAAAACT GAGCCCGATC 
ATGGAAGCAA GCCTGGAAGA TACTCGCTCA TCAGGTTCTT CAGTCTCAGG AGGTTCTCTG 
TCCTCTGTTA CACAAATGTC TGCTATTAAA TACCTGCAGA TCAGTGAGAA ACTGGAGCTG 
GCTCAGACCT TGCCTGTTGA AGTGGTTACT GATTCTGGAG GTGGAAACAT TACTGGGGAT 
GATGTGGCTC AGTTCCTGTG GAGCCCTGAA CAGCGTAAAA AGCTTTTAGG TTCTGTGCTA 
TCATCACTGG TTGCTTCTCC AGATTTTCAC TTGGAGACTG GAGCTGTGCC TCATATGGAG 
GTTGAGAAAG ATGTTGAGCT GGGAAATGAG ACTTACTGCA TCAAAATGGA ATACTGGAAC 
AATGAAGAAT ACAAGATGTT TTTTGCCATT CCAACTGGAG GCATTTTCCA GTGGGATGCA 
AAGGGATTTG CGATAAAGGT GTATTCTCAG CCTGTGCCTT GGGATTTTTA TATCACCCTT 
GAGTTACAGA AGCGTTTGAA TTCTGACTTT GACCAGAGCT TCAGTGAGAA TTGCAGCTGT 
TACCTGTACC AGGATGGCTG TGCCCTTGTA CACAAGGATA CAAATTGCTT CACACTCACG 
GATATTCTCC GTGACCGCAA GTTCATCACA AAGGAAATAA TCTTCTTGGT TGTTCATGAT 
CTTCTGCATG TGGTGGAGAA GCTGCACAAA GCAGAGATTG TCCATGGAGA TCTGAGGCCA 
GAGGTGTTGT TTCTGGGAGA CAGGATCTGC GATGCGTTTT CTAATGAGGA GGTGCCAAAT 
GCTCTGAAAG TGGTGGATTT CTCTCACAGT CTGGATTTGA GGGTAATGCC TCGAGTCAGC 
TTGCCCTACA ACTTTCCCAC AGCTCAGACC CCTCATGGAC AACAGCTTCT GGCAGAAAGT 
TCTCATCCTT ATCAGGTAGA CTTGGTTGGC ATTGCAGATA TAGTCCATTT GATGTTGTTT 
GGAGATCATA TCCAGGTCTA TCAGGAGAAT TCCATCTGGA AAATCAGCCA AAACTTAACA 
AAGACCCCTG ACAGTGATTT CTGGAGTAAA CTTTTTGAGA GAATTCTGAA TGCAGATGGC 
AAGTCCACAG TACCTCTGCT GAGTGAGTTG AGAGGGGAAA TCAGTGAAAT GTTTGACAGC 
TCTTTCAAAG AACGACTTTT GTTGACCTTA GCTGCTGTGG GAGAAACTTT CCTCCTGGTG 
AACTTCCAGT GA

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

RefSeq	XP_015485127.1
CDS	298..4029
Translation	MISEGKENGSTKALAVAAGITVSCRDVWGCSAGRSRKSARHPLAVLKPVDSLSAKESAAAAAACNELNGIERLAEDAIVTGSYKNKTLCANPEDTCDFNRAAHLASTPFHGVVAQRVPAPAFSQSELKEEDSPESRSAPQTQETPVCEGAYTEALGVKKLSGNYISRDASRRRRTAPIRIEGEVVMSQEDSHEWELSKENVQPLRQGRVMSSLQEALAQQDSSSHTAVQLKKQEFEAEIRFYSGDDPLDVWERYIKWTEQAFPGGGKDGNLAAVLERAVRALHGQQQYYKDPRYLNLWLKFGDCCNEPLDLYSYLHSQEIGTTLAPLYITWAEALEARGSFRKADLIFQEGLQRKAEPLDKLQAHHKQFQARVSRQTLLALEESPDGDNMGLLEIAEPQRSSLADLKGRGKKKVRAPISRVGDAVKAMNPNRSCQPRAPLQVPNAPSFAVFDENSVSGPEIPTLTAQSWPAPPVPRAKENELSAGPWNSGRNRMSLLQNQVLKLSLLSPVPAFPTPCKIEPSINCVLSTRKPEEREDPLQRVQHQQQDAQAKKEMVMYCKEKVYAGVDEFSFEEIRAEIYRKKARKKDEDEIQAIERKKEEIQRKIEELEQKLKKKEEDKQQQPHEQAAEVMGASIPLGMQGFTFSSATEHGEKQPQSQSEFQVHEDTQLHKSSYSEDVGLLPPPAAAPFFSIFDESSTLTNQNISCSAGRSRKSARHPLAVLKPVDSLSAKESAAAAAACNELNGIERLAEDAIVTGSYKNKTLCANPEDTCDFNRAAHLASTPFHGVVAQRVPAPAFSQSELKEEDSPESRSAPQTQETPVCEGAYTEALSVKKLSPIMEASLEDTRSSGSSVSGGSLSSVTQMSAIKYLQISEKLELAQTLPVEVVTDSGGGNITGDDVAQFLWSPEQRKKLLGSVLSSLVASPDFHLETGAVPHMEVEKDVELGNETYCIKMEYWNNEEYKMFFAIPTGGIFQWDAKGFAIKVYSQPVPWDFYITLELQKRLNSDFDQSFSENCSCYLYQDGCALVHKDTNCFTLTDILRDRKFITKEIIFLVVHDLLHVVEKLHKAEIVHGDLRPEVLFLGDRICDAFSNEEVPNALKVVDFSHSLDLRVMPRVSLPYNFPTAQTPHGQQLLAESSHPYQVDLVGIADIVHLMLFGDHIQVYQENSIWKISQNLTKTPDSDFWSKLFERILNADGKSTVPLLSELRGEISEMFDSSFKERLLLTLAAVGETFLLVNFQ

Target ORF information:

RefSeq Version	XM_015629641.2
Organism	Parus major(Great Tit)
Definition	Parus major BUB1 mitotic checkpoint serine/threonine kinase B (BUB1B), mRNA.

Target ORF information:

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

XM_015629641.2

ORF Insert Sequence:

ATGATTTCAG AGGGAAAGGA AAACGGAAGC ACCAAAGCCC TTGCTGTAGC AGCTGGAATA 
ACTGTTTCTT GCAGGGATGT GTGGGGTTGT TCAGCAGGTC GTAGCCGGAA AAGTGCCCGT 
CACCCTCTCG CTGTTCTTAA GCCGGTGGAT TCTCTGAGTG CCAAGGAAAG TGCAGCAGCA 
GCAGCAGCCT GTAATGAGCT GAATGGAATT GAACGTTTGG CTGAGGATGC AATTGTGACA 
GGCTCCTACA AGAACAAGAC CCTTTGTGCC AACCCAGAGG ACACGTGTGA CTTTAACAGG 
GCTGCCCACC TGGCCTCAAC GCCCTTCCAC GGGGTGGTGG CTCAGAGAGT CCCAGCTCCT 
GCTTTCTCTC AGAGTGAACT GAAGGAGGAA GATAGTCCAG AATCCAGGAG TGCACCTCAG 
ACTCAGGAGA CACCAGTGTG TGAAGGAGCA TACACTGAAG CTCTCGGTGT GAAAAAACTG 
AGCGGAAACT ACATTTCCCG TGATGCCTCG AGGCGACGCA GGACGGCGCC AATCAGGATT 
GAAGGAGAGG TGGTCATGTC CCAGGAGGAC AGCCATGAGT GGGAGCTGAG CAAGGAGAAT 
GTGCAGCCCC TCAGGCAGGG GCGGGTGATG TCCAGCTTGC AGGAGGCACT GGCTCAACAG 
GACTCTTCCA GCCACACTGC TGTGCAGCTT AAAAAACAGG AGTTTGAAGC AGAAATACGA 
TTTTACTCTG GGGATGATCC TCTGGATGTG TGGGAGCGGT ACATCAAGTG GACAGAGCAG 
GCCTTCCCTG GGGGTGGCAA GGATGGCAAC CTTGCAGCAG TTCTGGAAAG GGCAGTGAGA 
GCCCTCCATG GGCAGCAGCA ATACTACAAA GATCCTCGCT ATCTTAATCT CTGGCTCAAG 
TTTGGCGATT GCTGCAATGA GCCCTTGGAT CTGTACAGTT ACCTGCACAG CCAGGAGATC 
GGCACCACAC TGGCCCCGCT CTACATCACC TGGGCAGAGG CACTCGAGGC CAGGGGCAGC 
TTCAGGAAAG CAGATCTCAT ATTCCAGGAA GGGCTCCAGC GCAAGGCTGA GCCTTTGGAC 
AAACTCCAGG CTCATCACAA GCAGTTTCAG GCCCGTGTTT CTCGGCAGAC ACTACTGGCA 
CTTGAGGAAA GTCCTGATGG GGACAATATG GGATTGCTGG AAATTGCAGA GCCTCAGAGA 
AGCTCACTGG CAGATCTCAA AGGCAGAGGG AAGAAGAAAG TGAGAGCCCC CATTAGTCGT 
GTGGGAGATG CAGTTAAAGC CATGAACCCA AACAGAAGCT GCCAGCCTCG GGCTCCTCTG 
CAAGTTCCAA ATGCTCCAAG TTTTGCTGTG TTTGATGAAA ATTCTGTGTC TGGACCTGAG 
ATTCCCACAC TTACAGCACA GTCATGGCCA GCACCTCCAG TTCCCAGGGC CAAGGAGAAT 
GAGCTCAGCG CAGGACCGTG GAACTCAGGC AGGAACAGAA TGTCTTTACT CCAAAACCAG 
GTTCTGAAAT TATCCCTGTT GTCTCCTGTG CCTGCTTTCC CGACCCCCTG CAAAATTGAG 
CCCAGCATAA ACTGCGTGTT AAGTACTCGC AAACCTGAGG AGCGGGAGGA CCCACTGCAG 
CGAGTGCAGC ATCAGCAGCA GGACGCTCAG GCAAAGAAAG AGATGGTGAT GTACTGCAAA 
GAGAAGGTTT ATGCAGGAGT TGATGAATTC TCTTTTGAAG AGATCCGAGC TGAAATCTAC 
AGGAAGAAAG CGAGAAAGAA AGACGAAGAT GAAATACAAG CCATAGAACG AAAGAAGGAA 
GAAATACAAA GGAAAATTGA GGAGCTGGAA CAGAAATTAA AGAAGAAAGA AGAGGACAAG 
CAGCAACAAC CACATGAACA GGCAGCAGAG GTAATGGGAG CTTCCATACC TTTGGGAATG 
CAAGGATTTA CTTTTTCCAG TGCAACTGAA CATGGGGAGA AACAGCCTCA GTCACAAAGT 
GAATTCCAGG TCCATGAAGA TACTCAACTA CATAAATCAT CTTATTCTGA GGATGTAGGT 
CTGCTTCCCC CACCAGCTGC TGCTCCATTT TTCTCTATAT TTGATGAATC CTCTACTTTG 
ACAAATCAGA ACATAAGTTG TTCAGCAGGT CGTAGCCGGA AAAGTGCCCG TCACCCTCTC 
GCTGTTCTTA AGCCGGTGGA TTCTCTGAGT GCCAAGGAAA GTGCAGCAGC AGCAGCAGCC 
TGTAATGAGC TGAATGGAAT TGAACGTTTG GCTGAGGATG CAATTGTGAC AGGCTCCTAC 
AAGAACAAGA CCCTTTGTGC CAACCCAGAG GACACGTGTG ACTTTAACAG GGCTGCCCAC 
CTGGCCTCAA CGCCCTTCCA CGGGGTGGTG GCTCAGAGAG TCCCAGCTCC TGCTTTCTCT 
CAGAGTGAAC TGAAGGAGGA AGATAGTCCA GAATCCAGGA GTGCACCTCA GACTCAGGAG 
ACACCAGTGT GTGAAGGAGC ATACACTGAA GCTCTCAGTG TGAAAAAACT GAGCCCGATC 
ATGGAAGCAA GCCTGGAAGA TACTCGCTCA TCAGGTTCTT CAGTCTCAGG AGGTTCTCTG 
TCCTCTGTTA CACAAATGTC TGCTATTAAA TACCTGCAGA TCAGTGAGAA ACTGGAGCTG 
GCTCAGACCT TGCCTGTTGA AGTGGTTACT GATTCTGGAG GTGGAAACAT TACTGGGGAT 
GATGTGGCTC AGTTCCTGTG GAGCCCTGAA CAGCGTAAAA AGCTTTTAGG TTCTGTGCTA 
TCATCACTGG TTGCTTCTCC AGATTTTCAC TTGGAGACTG GAGCTGTGCC TCATATGGAG 
GTTGAGAAAG ATGTTGAGCT GGGAAATGAG ACTTACTGCA TCAAAATGGA ATACTGGAAC 
AATGAAGAAT ACAAGATGTT TTTTGCCATT CCAACTGGAG GCATTTTCCA GTGGGATGCA 
AAGGGATTTG CGATAAAGGT GTATTCTCAG CCTGTGCCTT GGGATTTTTA TATCACCCTT 
GAGTTACAGA AGCGTTTGAA TTCTGACTTT GACCAGAGCT TCAGTGAGAA TTGCAGCTGT 
TACCTGTACC AGGATGGCTG TGCCCTTGTA CACAAGGATA CAAATTGCTT CACACTCACG 
GATATTCTCC GTGACCGCAA GTTCATCACA AAGGAAATAA TCTTCTTGGT TGTTCATGAT 
CTTCTGCATG TGGTGGAGAA GCTGCACAAA GCAGAGATTG TCCATGGAGA TCTGAGGCCA 
GAGGTGTTGT TTCTGGGAGA CAGGATCTGC GATGCGTTTT CTAATGAGGA GGTGCCAAAT 
GCTCTGAAAG TGGTGGATTT CTCTCACAGT CTGGATTTGA GGGTAATGCC TCGAGTCAGC 
TTGCCCTACA ACTTTCCCAC AGCTCAGACC CCTCATGGAC AACAGCTTCT GGCAGAAAGT 
TCTCATCCTT ATCAGGTAGA CTTGGTTGGC ATTGCAGATA TAGTCCATTT GATGTTGTTT 
GGAGATCATA TCCAGGTCTA TCAGGAGAAT TCCATCTGGA AAATCAGCCA AAACTTAACA 
AAGACCCCTG ACAGTGATTT CTGGAGTAAA CTTTTTGAGA GAATTCTGAA TGCAGATGGC 
AAGTCCACAG TACCTCTGCT GAGTGAGTTG AGAGGGGAAA TCAGTGAAAT GTTTGACAGC 
TCTTTCAAAG AACGACTTTT GTTGACCTTA GCTGCTGTGG GAGAAACTTT CCTCCTGGTG 
AACTTCCAGT GA