Bub1b cDNA ORF clone, Mus pahari(shrew mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Bub1b
Entrez Gene ID	110318363
Full Name	BUB1 mitotic checkpoint serine/threonine kinase B
Gene Type	protein-coding
Organism	Mus pahari(shrew mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021193355.1	XP_021049014.1	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
OMv64877	XM_021193355.1 Latest version!	Mus pahari BUB1 mitotic checkpoint serine/threonine kinase B (Bub1b), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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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_021193355.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021049014.1 Mus pahari BUB1 mitotic checkpoint serine/threonine kinase B (Bub1b), mRNA.

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CloneID	OMv64877
Clone ID Related Accession (Same CDS sequence)	XM_021193355.1
Accession Version	XM_021193355.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3150bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-17
Organism	Mus pahari(shrew mouse)
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_034592.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari 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##

ATGGCGGAGG CGAGTGAAGC CATGTGCCTG GAGGGAGATG AGTGGGAGCT GAGTAAAGAA 
AACGTTCAGC CCTTACGGCA CGGGCGGGTC ATGTCCACAC TTCAGGGAGC TTTGGCAAAG 
CAGGAATCGG CCGGCCACAC TGCTCTGCAG CAGCAGAAAT GGGCATTTGA ATCTGAAATC 
CGCTTTTACT CTGGAGATGA CCCTCTGGAT GTTTGGGACA GATATATTAA TTGGACAGAG 
CAGAACTACC CTCAAGGCGG GAAAGAGAGT AACATGTCAA CGTTACTAGA GAGAGCTATA 
GAAGCACTCC AAGGAGAGAA GCGCTATTAT AGTGACCCCC GGTTTCTCAG TCTCTGGATC 
AAATTGGGCC ATCTGTGCAG TGAGCCTTTG GATATGTACA GCTATTTACA AAGCCGAGGG 
ATTGGCGTTT CCCTTGCCCA GCTCTATATT TCATGGGCTG AAGAGTACGA AGCTAGAGAA 
AATTTCAAGA AAGCGGACCT AGTATTCCAG GAAGGGATTG AACGCAAGGC TGAGCCCCTG 
GACAGACTGC AGTCCCAGCA CAGACAGTTT CAGGCTCGAG TGTCACGACA AACTCTCTTG 
GCCCTTGGGA ATGAAGAGGA AGAGGCCTTG GGGCCTTCTG AGCCACAGAG AAGCTCGCTA 
GCTGAGCTGA AGAGCAGAGG GAAGAAGACG GCCAGAGCGC CCATCAGCCG TGTCGGAGGT 
GCTCTGAAGG CTCCAGGTCA GAGCAGAGGA TTCCTAAATA CAGTTCCTCA GCCAGTGCAC 
AGTAATCGCA GGATCACTGT TTTTGATGAA AATGCTGATA TCGCATCTAG ACCGGAGTTA 
CCTAAACCTG TAGCCCAGCC ATGGATGGCA CCCCCTGTGC CCAGGGCCAA AGAGAACGAG 
CTTCAGCCAG GCCCATGGAA CACAGACAGG CCTGTGGAAC ATAGGCCTCG TGGCAATCTA 
GCCTCTGTGA TGTCTGTACC CAGTGTGCTT CCCAACTTTA CTCCGTATGT GGAAGAGAGC 
GCCCAGCAGA CAGTAATGAC ACCATGTAAG ATTGAACCTA GTATCAACCA TGTTCTCAGC 
ACCAGGAGGC CAGGGAGAGA GGAAGGAGAC CCTTTGCAGA GAGTTCAGAG TCACCAACAA 
GGGTGTGAGG AGAAGGGGAA GGTGATGTAT TGTAAGGAGA AGATCTATGC CGGAGTTGGA 
GAATTCTCCT TTGAGGAGAT CCGAGCTGAA GTGTTCCGGA AGAAGCTGAA AGAGCAAAGG 
GAAGCCGAGC TGTTGACCAG CGCAAAGAAG AGGGAGGAAA TGCAGAAGCA GATCGAAGAG 
ATGGAGAGGA AGCTGAAAGC AATCCAGACT GTTCAGCAAG AAAGAGCTGG TGACCAGCAA 
GAAGAAAAGA TGCTTACAGA GGACCCAGCC AGATGGCAGA TTGCTTCAGA GTCTCAGGAA 
ATGTCGGGAG TTCCTCTGTC CTGTTCCATC TGTTCACTAA GCTCGAATCC TAGGGAAATT 
TCATCTGCTG AGAACATTTT GCAAGAACAG CCTGACTCTA AAGGTTCCAG TATGCCTTTC 
TTCACTTTTG ATAAGTCTCT TTCAGACAAA AAGGACAAAA GTCTTGCTAC AGATGGTCCA 
TGGGTTCTCA ATGCCCAGAG AAGACCCCTT TCAGTTCTCA AAACTACAGA AGTCGTCACT 
ACAAATGAGG ATATGTCTCC TGATGTTTGT GATGAACTTA CGGAAACGGA GCCTCTGAGT 
GAAGATGCCA TCATCACTGG CTTCAGAAAT GTGACTCTGT GTCCCAACCC TGAGGACACT 
TGTGACTTTG CTAGAGCAGC TCATTTGGCG TCTACGCCTT TCCATGAGAT ACTGTCCTCG 
AAGGCCATCG CTTCTGATCC TGAGGGGCTG TTGCAGGAAG AGGATCTGGA TGGGAAGGCC 
ACTGAGGGTC ATTGCACTGT TCATCACCAG ACCCTCAGCA TAAAGAAGCT GAGCCCAATT 
ATTGAAGACA GCCGTGAGGC CATCCACTCA TCCGGCTTCT CCAGGTCTTC TTCCTCGGCT 
ACCAGTACAT CCTCCATCAA AGGCTTTCAG ATTCTGGAGA AGCTGGAGCT GACTAATGAC 
GCAGCAGAAA ATGCTATTCA GTCACCCTGG TGTTCACAGT ATCGCCTACA ACTGTTAAAA 
TCCCTACCAG AGTTAAGTGG TTTTGCAGAG TTTTCTGTGG AAGACCGACC GATGCCTGTG 
CTGGAAATAG GGAAGGAGAT TGAGTTAGGT CACGAGGATT ACGTCATCAA ACAAGAGCAC 
CTAACATGTG AAGATTACAG GTTACTGTGG GTGGCACCAA GAAACTCTGC AGAGCTAACC 
ATGATAAAGG CATCTTCTCA GCTTATCCCA TGGGATTTTT ATATCAACCT CAAGTTAAAG 
GAGCGTCTGA GTGAGGACTG GGACCAGCTT TGCAGCTGCT GTCAGTACCA AGATGGCCAT 
GTTGTTTGGT ACCAGTATAT AAACTGCTCT ACCCTTCAGA ATCTTCTCCA ACACAGCGAA 
TTTGTTACTC ATGAAATAAT AGTGTTGATT ATTTATAACC TCTTGACAAT CGTGGAGAAG 
CTACACAAAG CTGAAATAGT GCACGGAGAC TTGAGTCCAA GGAGTCTGAT CCTAAGAAAC 
AGATTACACG ACCCCTATGA CTGTGTACAC AAGGACGACC ACGCCGTGAG GATCCTGGAC 
TTCTCCTACA GTGTTGACCT GAGGGTGCAG CTGGATGCGT TTGCCAGTAG TGGCTTTCGG 
ACTGCACAGA TCCTGGAAGG ACAAAAGATC CTAGCTAACT GCTCTTCTCC CTACCAGGTC 
GATCTGTTGG GTATAGCAGA CCTAGCACAC TTACTGTTGT TCAAGGAACA CCTGCATGTC 
TTCTGGGATG GGCTCCTCTG GAAACTTAGC CAGAACACCG CTGAGCTAAA AGACAGTGAA 
TTGTGGAATA AATTCTTTGT TCGGATTCTG AATGCCAGTG ACAGGTCCAC GGTGTCTGTT 
CTGGGGGAGC TGGCAGCAGA AATGGGTGGG GCTTTTGATG CCACGTTCCA CGGCCACCTG 
AGAAAAGCCT TGTGGAAGCT GGGGAAGATA ATCAACCCGG AAGCTTTGCT CAGTCAGCAA 
GGCAAGCAGT CAAGCCATGC TGGGTCATGA

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

RefSeq	XP_021049014.1
CDS	234..3383
Translation	MAEASEAMCLEGDEWELSKENVQPLRHGRVMSTLQGALAKQESAGHTALQQQKWAFESEIRFYSGDDPLDVWDRYINWTEQNYPQGGKESNMSTLLERAIEALQGEKRYYSDPRFLSLWIKLGHLCSEPLDMYSYLQSRGIGVSLAQLYISWAEEYEARENFKKADLVFQEGIERKAEPLDRLQSQHRQFQARVSRQTLLALGNEEEEALGPSEPQRSSLAELKSRGKKTARAPISRVGGALKAPGQSRGFLNTVPQPVHSNRRITVFDENADIASRPELPKPVAQPWMAPPVPRAKENELQPGPWNTDRPVEHRPRGNLASVMSVPSVLPNFTPYVEESAQQTVMTPCKIEPSINHVLSTRRPGREEGDPLQRVQSHQQGCEEKGKVMYCKEKIYAGVGEFSFEEIRAEVFRKKLKEQREAELLTSAKKREEMQKQIEEMERKLKAIQTVQQERAGDQQEEKMLTEDPARWQIASESQEMSGVPLSCSICSLSSNPREISSAENILQEQPDSKGSSMPFFTFDKSLSDKKDKSLATDGPWVLNAQRRPLSVLKTTEVVTTNEDMSPDVCDELTETEPLSEDAIITGFRNVTLCPNPEDTCDFARAAHLASTPFHEILSSKAIASDPEGLLQEEDLDGKATEGHCTVHHQTLSIKKLSPIIEDSREAIHSSGFSRSSSSATSTSSIKGFQILEKLELTNDAAENAIQSPWCSQYRLQLLKSLPELSGFAEFSVEDRPMPVLEIGKEIELGHEDYVIKQEHLTCEDYRLLWVAPRNSAELTMIKASSQLIPWDFYINLKLKERLSEDWDQLCSCCQYQDGHVVWYQYINCSTLQNLLQHSEFVTHEIIVLIIYNLLTIVEKLHKAEIVHGDLSPRSLILRNRLHDPYDCVHKDDHAVRILDFSYSVDLRVQLDAFASSGFRTAQILEGQKILANCSSPYQVDLLGIADLAHLLLFKEHLHVFWDGLLWKLSQNTAELKDSELWNKFFVRILNASDRSTVSVLGELAAEMGGAFDATFHGHLRKALWKLGKIINPEALLSQQGKQSSHAGS

Target ORF information:

RefSeq Version	XM_021193355.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari 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_021193355.1

ORF Insert Sequence:

ATGGCGGAGG CGAGTGAAGC CATGTGCCTG GAGGGAGATG AGTGGGAGCT GAGTAAAGAA 
AACGTTCAGC CCTTACGGCA CGGGCGGGTC ATGTCCACAC TTCAGGGAGC TTTGGCAAAG 
CAGGAATCGG CCGGCCACAC TGCTCTGCAG CAGCAGAAAT GGGCATTTGA ATCTGAAATC 
CGCTTTTACT CTGGAGATGA CCCTCTGGAT GTTTGGGACA GATATATTAA TTGGACAGAG 
CAGAACTACC CTCAAGGCGG GAAAGAGAGT AACATGTCAA CGTTACTAGA GAGAGCTATA 
GAAGCACTCC AAGGAGAGAA GCGCTATTAT AGTGACCCCC GGTTTCTCAG TCTCTGGATC 
AAATTGGGCC ATCTGTGCAG TGAGCCTTTG GATATGTACA GCTATTTACA AAGCCGAGGG 
ATTGGCGTTT CCCTTGCCCA GCTCTATATT TCATGGGCTG AAGAGTACGA AGCTAGAGAA 
AATTTCAAGA AAGCGGACCT AGTATTCCAG GAAGGGATTG AACGCAAGGC TGAGCCCCTG 
GACAGACTGC AGTCCCAGCA CAGACAGTTT CAGGCTCGAG TGTCACGACA AACTCTCTTG 
GCCCTTGGGA ATGAAGAGGA AGAGGCCTTG GGGCCTTCTG AGCCACAGAG AAGCTCGCTA 
GCTGAGCTGA AGAGCAGAGG GAAGAAGACG GCCAGAGCGC CCATCAGCCG TGTCGGAGGT 
GCTCTGAAGG CTCCAGGTCA GAGCAGAGGA TTCCTAAATA CAGTTCCTCA GCCAGTGCAC 
AGTAATCGCA GGATCACTGT TTTTGATGAA AATGCTGATA TCGCATCTAG ACCGGAGTTA 
CCTAAACCTG TAGCCCAGCC ATGGATGGCA CCCCCTGTGC CCAGGGCCAA AGAGAACGAG 
CTTCAGCCAG GCCCATGGAA CACAGACAGG CCTGTGGAAC ATAGGCCTCG TGGCAATCTA 
GCCTCTGTGA TGTCTGTACC CAGTGTGCTT CCCAACTTTA CTCCGTATGT GGAAGAGAGC 
GCCCAGCAGA CAGTAATGAC ACCATGTAAG ATTGAACCTA GTATCAACCA TGTTCTCAGC 
ACCAGGAGGC CAGGGAGAGA GGAAGGAGAC CCTTTGCAGA GAGTTCAGAG TCACCAACAA 
GGGTGTGAGG AGAAGGGGAA GGTGATGTAT TGTAAGGAGA AGATCTATGC CGGAGTTGGA 
GAATTCTCCT TTGAGGAGAT CCGAGCTGAA GTGTTCCGGA AGAAGCTGAA AGAGCAAAGG 
GAAGCCGAGC TGTTGACCAG CGCAAAGAAG AGGGAGGAAA TGCAGAAGCA GATCGAAGAG 
ATGGAGAGGA AGCTGAAAGC AATCCAGACT GTTCAGCAAG AAAGAGCTGG TGACCAGCAA 
GAAGAAAAGA TGCTTACAGA GGACCCAGCC AGATGGCAGA TTGCTTCAGA GTCTCAGGAA 
ATGTCGGGAG TTCCTCTGTC CTGTTCCATC TGTTCACTAA GCTCGAATCC TAGGGAAATT 
TCATCTGCTG AGAACATTTT GCAAGAACAG CCTGACTCTA AAGGTTCCAG TATGCCTTTC 
TTCACTTTTG ATAAGTCTCT TTCAGACAAA AAGGACAAAA GTCTTGCTAC AGATGGTCCA 
TGGGTTCTCA ATGCCCAGAG AAGACCCCTT TCAGTTCTCA AAACTACAGA AGTCGTCACT 
ACAAATGAGG ATATGTCTCC TGATGTTTGT GATGAACTTA CGGAAACGGA GCCTCTGAGT 
GAAGATGCCA TCATCACTGG CTTCAGAAAT GTGACTCTGT GTCCCAACCC TGAGGACACT 
TGTGACTTTG CTAGAGCAGC TCATTTGGCG TCTACGCCTT TCCATGAGAT ACTGTCCTCG 
AAGGCCATCG CTTCTGATCC TGAGGGGCTG TTGCAGGAAG AGGATCTGGA TGGGAAGGCC 
ACTGAGGGTC ATTGCACTGT TCATCACCAG ACCCTCAGCA TAAAGAAGCT GAGCCCAATT 
ATTGAAGACA GCCGTGAGGC CATCCACTCA TCCGGCTTCT CCAGGTCTTC TTCCTCGGCT 
ACCAGTACAT CCTCCATCAA AGGCTTTCAG ATTCTGGAGA AGCTGGAGCT GACTAATGAC 
GCAGCAGAAA ATGCTATTCA GTCACCCTGG TGTTCACAGT ATCGCCTACA ACTGTTAAAA 
TCCCTACCAG AGTTAAGTGG TTTTGCAGAG TTTTCTGTGG AAGACCGACC GATGCCTGTG 
CTGGAAATAG GGAAGGAGAT TGAGTTAGGT CACGAGGATT ACGTCATCAA ACAAGAGCAC 
CTAACATGTG AAGATTACAG GTTACTGTGG GTGGCACCAA GAAACTCTGC AGAGCTAACC 
ATGATAAAGG CATCTTCTCA GCTTATCCCA TGGGATTTTT ATATCAACCT CAAGTTAAAG 
GAGCGTCTGA GTGAGGACTG GGACCAGCTT TGCAGCTGCT GTCAGTACCA AGATGGCCAT 
GTTGTTTGGT ACCAGTATAT AAACTGCTCT ACCCTTCAGA ATCTTCTCCA ACACAGCGAA 
TTTGTTACTC ATGAAATAAT AGTGTTGATT ATTTATAACC TCTTGACAAT CGTGGAGAAG 
CTACACAAAG CTGAAATAGT GCACGGAGAC TTGAGTCCAA GGAGTCTGAT CCTAAGAAAC 
AGATTACACG ACCCCTATGA CTGTGTACAC AAGGACGACC ACGCCGTGAG GATCCTGGAC 
TTCTCCTACA GTGTTGACCT GAGGGTGCAG CTGGATGCGT TTGCCAGTAG TGGCTTTCGG 
ACTGCACAGA TCCTGGAAGG ACAAAAGATC CTAGCTAACT GCTCTTCTCC CTACCAGGTC 
GATCTGTTGG GTATAGCAGA CCTAGCACAC TTACTGTTGT TCAAGGAACA CCTGCATGTC 
TTCTGGGATG GGCTCCTCTG GAAACTTAGC CAGAACACCG CTGAGCTAAA AGACAGTGAA 
TTGTGGAATA AATTCTTTGT TCGGATTCTG AATGCCAGTG ACAGGTCCAC GGTGTCTGTT 
CTGGGGGAGC TGGCAGCAGA AATGGGTGGG GCTTTTGATG CCACGTTCCA CGGCCACCTG 
AGAAAAGCCT TGTGGAAGCT GGGGAAGATA ATCAACCCGG AAGCTTTGCT CAGTCAGCAA 
GGCAAGCAGT CAAGCCATGC TGGGTCATGA