BMS1 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	BMS1
Entrez Gene ID	9790
Full Name	BMS1, ribosome biogenesis factor
Synonyms	ACC,BMS1L
General protein information	Preferred Names BMS1, ribosome biogenesis factor Names ribosome biogenesis protein BMS1 homolog BMS1 homolog, ribosome assembly protein BMS1-like, ribosome assembly protein ribosome assembly protein BMS1 homolog
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 10 Map Location: 10q11.21
Summary	This gene likely encodes a ribosome assembly protein. A similar protein in yeast functions in 35S-rRNA processing, which includes a series of cleavage steps critical for formation of 40S ribosomes. Related pseudogenes exist on chromosomes 2, 9, 10, 15, 16, and 22.[provided by RefSeq, Mar 2009].
Disorder MIM:	611448
Disorder Html:	?Aplasia cutis congenita, nonsyndromic, 107600 (3)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005271848.3	XP_005271905.1	ribosome biogenesis protein BMS1 homolog isoform X2
NM_014753.4	NP_055568.3	ribosome biogenesis protein BMS1 homolog
XM_005271849.3	XP_005271906.1	ribosome biogenesis protein BMS1 homolog isoform X3
XM_005271846.3	XP_005271903.1	ribosome biogenesis protein BMS1 homolog isoform X1
XM_011540403.2	XP_011538705.1	ribosome biogenesis protein BMS1 homolog isoform X3
XM_011540402.2	XP_011538704.1	ribosome biogenesis protein BMS1 homolog isoform X1
NM_014753.3	NP_055568.3	ribosome biogenesis protein BMS1 homolog

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	BMS1	XP_001155329.1
Gallus gallus (chicken)	BMS1	NP_001186449.1
Saccharomyces cerevisiae (baker's yeast)	BMS1	NP_015107.1
Kluyveromyces lactis	KLLA0B02068g	XP_451623.1
Schizosaccharomyces pombe (fission yeast)	bms1	NP_595102.2
Oryza sativa (rice)	Os03g0333100	NP_001050021.1
Homo sapiens (human)	BMS1	NP_055568.3
Bos taurus (cattle)	BMS1	NP_001193076.1
Eremothecium gossypii	AGOS_AFL113C	NP_985437.2
Magnaporthe oryzae (rice blast fungus)	MGG_06202	XP_003712089.1
Rattus norvegicus (Norway rat)	Bms1	NP_001094221.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP005871	XP_315898.4
Caenorhabditis elegans (roundworm)	CELE_Y61A9LA.10	NP_504245.3
	BMS1	XP_001097761.2
Mus musculus (house mouse)	Bms1	NP_919320.1
Danio rerio (zebrafish)	bms1l	NP_001104620.2
Drosophila melanogaster (fruit fly)	CG7728	NP_648945.1
Neurospora crassa	NCU04348	XP_956329.1
Arabidopsis thaliana (thale cress)	AT1G06720	NP_172157.1
Canis lupus familiaris (dog)	BMS1	XP_534956.2
Xenopus tropicalis (tropical clawed frog)	bms1	NP_001184133.1

Gene Ontology
Bibliography

Related articles in PubMed

BMS1 is mutated in aplasia cutis congenita.
Marneros AG
PLoS genetics9(6)e1003573(2013 Jun)

Insights into RNA biology from an atlas of mammalian mRNA-binding proteins.
Castello A, Fischer B, Eichelbaum K, Horos R, Beckmann BM, Strein C, Davey NE, Humphreys DT, Preiss T, Steinmetz LM, Krijgsveld J, Hentze MW
Cell149(6)1393-406(2012 Jun)

The mRNA-bound proteome and its global occupancy profile on protein-coding transcripts.
Baltz AG, Munschauer M, Schwanh?usser B, Vasile A, Murakawa Y, Schueler M, Youngs N, Penfold-Brown D, Drew K, Milek M, Wyler E, Bonneau R, Selbach M, Dieterich C, Landthaler M
Molecular cell46(5)674-90(2012 Jun)

Identification of common variants influencing risk of the tauopathy progressive supranuclear palsy.
H?glinger GU, Melhem NM, Dickson DW, Sleiman PM, Wang LS, Klei L, Rademakers R, de Silva R, Litvan I, Riley DE, van Swieten JC, Heutink P, Wszolek ZK, Uitti RJ, Vandrovcova J, Hurtig HI, Gross RG, Maetzler W, Goldwurm S, Tolosa E, Borroni B, Pastor P, , Cantwell LB, Han MR, Dillman A, van der Brug MP, Gibbs JR, Cookson MR, Hernandez DG, Singleton AB, Farrer MJ, Yu CE, Golbe LI, Revesz T, Hardy J, Lees AJ, Devlin B, Hakonarson H, M?ller U, Schellenberg GD
Nature genetics43(7)699-705(2011 Jun)

Transcriptomic and genetic studies identify IL-33 as a candidate gene for Alzheimer's disease.
Chapuis J, Hot D, Hansmannel F, Kerdraon O, Ferreira S, Hubans C, Maurage CA, Huot L, Bensemain F, Laumet G, Ayral AM, Fievet N, Hauw JJ, DeKosky ST, Lemoine Y, Iwatsubo T, Wavrant-Devri?ze F, Dartigues JF, Tzourio C, Bu?e L, Pasquier F, Berr C, Mann D, Lendon C, Alp?rovitch A, Kamboh MI, Amouyel P, Lambert JC
Molecular psychiatry14(11)1004-16(2009 Nov)

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

The data provide a novel link between BMS1, the cell cycle, and skin morphogenesis.
Title: BMS1 is mutated in aplasia cutis congenita.

Observational study of gene-disease association. (HuGE Navigator)
Title: Transcriptomic and genetic studies identify IL-33 as a candidate gene for Alzheimer's disease.

Analysis of KIAA0187 paralogs show that exons 14-23 were formed through satellite-associated pericentromeric-directed duplication, whereas paralogs of exons 1-9 evolved via chromosome-specific satellite-independent duplications.
Title: Human paralogs of KIAA0187 were created through independent pericentromeric-directed and chromosome-specific duplication mechanisms.

Describes the distinct functions of yeast Bms1p and Tsr1p in ribosome biogenesis.
Title: Bms1p, a novel GTP-binding protein, and the related Tsr1p are required for distinct steps of 40S ribosome biogenesis in yeast.

The following BMS1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BMS1 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)
OHu10851	NM_014753.4 Latest version!	Homo sapiens BMS1 ribosome biogenesis factor (BMS1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$459.50-$643.30 $919.00
OHu44706	XM_005271849.3 Latest version!	Homo sapiens BMS1, ribosome biogenesis factor (BMS1), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu63303	XM_011540403.2 Latest version!	Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu10851	XM_011540402.2 Latest version!	Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu10851	XM_005271846.3 Latest version!	Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu44704	XM_005271848.3 Latest version!	Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
View Old Accession Versions >>
OHu10851	NM_014753.3	Homo sapiens BMS1, ribosome biogenesis factor (BMS1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$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)

BMS1 ( NM_014753.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_055568.3 Homo sapiens BMS1 ribosome biogenesis factor (BMS1), mRNA.

Price & Availability↑

CloneID	OHu10851
Clone ID Related Accession (Same CDS sequence)	NM_014753.4 , XM_005271846.3 , XM_011540402.2 , NM_014753.3
Accession Version	NM_014753.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3849bp) 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	2019-12-30
Organism	Homo sapiens(human)
Product	ribosome biogenesis protein BMS1 homolog
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB064246.1, BC043345.1, AK308420.1, BC150252.1, AI184520.1, AL022344.3 and AI718109.1. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_014753.3. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.240369.1, SRR1803611.73866.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000374518.6/ ENSP00000363642.4 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
CTGAATCGCG CAGAATTTGA AGATCAAGAT GATGAAGCCA GAGTTCAGTA TGAGGGTTTT 
CGACCTGGGA TGTACGTCCG CATTGAGATT GAAAATGTTC CCTGTGAATT TGTGCAGAAC 
TTTGACCCCC ATTACCCCAT TATCCTGGGT GGCTTGGGCA ACAGTGAGGG AAATGTTGGC 
TACGTGCAGA TGCGTCTGAA GAAACATCGC TGGTATAAGA AAATCCTCAA GTCCCGAGAT 
CCAATCATAT TTTCTGTAGG GTGGAGGAGG TTTCAGACCA TCCCACTGTA TTATATCGAA 
GACCACAATG GAAGACAAAG GCTTCTAAAG TATACCCCAC AGCACATGCA TTGCGGAGCA 
GCCTTTTGGG GCCCTATCAC TCCACAGGGA ACTGGTTTCT TGGCAATACA GTCTGTCAGT 
GGCATAATGC CTGATTTTCG GATAGCTGCT ACAGGAGTTG TCCTTGATCT GGATAAATCC 
ATAAAAATTG TGAAGAAATT AAAGCTAACT GGTTTTCCAT ATAAAATTTT CAAGAACACT 
TCATTTATTA AGGGAATGTT TAATTCTGCC TTGGAAGTGG CCAAATTTGA AGGTGCTGTG 
ATTCGAACAG TCAGTGGGAT AAGGGGGCAG ATCAAGAAAG CACTCCGAGC TCCAGAAGGA 
GCTTTCAGGG CCAGCTTTGA GGATAAGCTG CTGATGAGCG ATATTGTCTT CATGCGAACT 
TGGTATCCTG TTTCCATCCC AGCGTTCTAT AACCCAGTAA CATCTTTGTT GAAACCAGTG 
GGTGAGAAAG ACACCTGGTC AGGAATGCGG ACCACGGGCC AACTCAGGCT CGCCCATGGC 
GTCAGACTAA AGGCGAACAA GGACTCTCTG TATAAGCCAA TCCTGAGGCA AAAGAAACAT 
TTTAATTCAC TGCACATTCC AAAAGCCTTG CAGAAGGCCC TGCCATTTAA GAACAAGCCC 
AAGACCCAAG CAAAGGCAGG CAAGGTGCCA AAGGACAGGC GGAGACCGGC CGTCATACGC 
GAGCCTCATG AAAGAAAGAT CCTTGCACTG CTGGATGCTC TGAGTACGGT GCATAGTCAG 
AAGATGAAGA AGGCCAAGGA GCAGCGGCAC CTGCACAATA AAGAGCACTT CAGAGCCAAG 
CAGAAGGAGG AGGAGGAGAA GCTGAAGCGG CAGAAGGACC TCAGGAAGAA GCTCTTCAGA 
ATTCAGGGGC AGAAGGAAAG AAGAAACCAG AAGTCCAGTT TGAAGGGGGC TGAGGGCCAA 
TTGCAGTGA

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

RefSeq	NP_055568.3
CDS	70..3918
Translation	MEAKDQKKHRKKNSGPKAAKKKKRLLQDLQLGDEEDARKRNPKAFAVQSAVRMARSFHRTQDLKTKKHHIPVVDRTPLEPPPIVVVVMGPPKVGKSTLIQCLIRNFTRQKLTEIRGPVTIVSGKKRRLTIIECGCDINMMIDLAKVADLVLMLIDASFGFEMETFEFLNICQVHGFPKIMGVLTHLDSFKHNKQLKKTKKRLKHRFWTEVYPGAKLFYLSGMVHGEYQNQEIHNLGRFITVMKFRPLTWQTSHPYILADRMEDLTNPEDIRTNIKCDRKVSLYGYLRGAHLKNKSQIHMPGVGDFAVSDISFLPDPCALPEQQKKRCLNEKEKLVYAPLSGVGGVLYDKDAVYVDLGGSHVFQDEVGPTHELVQSLISTHSTIDAKMASSRVTLFSDSKPLGSEDIDNQGLMMPKEEKQMDLNTGRMRRKAIFGDEDESGDSDDEEDDEMSEDDGLENGSSDEEAEEEENAEMTDQYMAVKGIKRRKLELEEDSEMDLPAFADSDDDLERSSAEEGEAEEADESSEEEDCTAGEKGISGSKAAGEGSKAGLSPANCQSDRVNLEKSLLMKKAALPTFDSGHCTAEEVFASEDESEESSSLSAEEEDSENEEAIRKKLSKPSQVSSGQKLGPQNFIDETSDIENLLKEEEDYKEENNDSKETSGALKWKEDLSRKAAEAFLRQQQAAPNLRKLIYGTVTEDNEEEDDDTLEELGGLFRVNQPDRECKHKADSLDCSRFLVEAPHDWDLEEVMNSIRDCFVTGKWEDDKDAAKVLAEDEELYGDFEDLETGDVHKGKSGPNTQNEDIEKEVKEEIDPDEEESAKKKHLDKKRKLKEMFDAEYDEGESTYFDDLKGEMQKQAQLNRAEFEDQDDEARVQYEGFRPGMYVRIEIENVPCEFVQNFDPHYPIILGGLGNSEGNVGYVQMRLKKHRWYKKILKSRDPIIFSVGWRRFQTIPLYYIEDHNGRQRLLKYTPQHMHCGAAFWGPITPQGTGFLAIQSVSGIMPDFRIAATGVVLDLDKSIKIVKKLKLTGFPYKIFKNTSFIKGMFNSALEVAKFEGAVIRTVSGIRGQIKKALRAPEGAFRASFEDKLLMSDIVFMRTWYPVSIPAFYNPVTSLLKPVGEKDTWSGMRTTGQLRLAHGVRLKANKDSLYKPILRQKKHFNSLHIPKALQKALPFKNKPKTQAKAGKVPKDRRRPAVIREPHERKILALLDALSTVHSQKMKKAKEQRHLHNKEHFRAKQKEEEEKLKRQKDLRKKLFRIQGQKERRNQKSSLKGAEGQLQ

Target ORF information:

RefSeq Version	NM_014753.4
Organism	Homo sapiens(human)
Definition	Homo sapiens BMS1 ribosome biogenesis factor (BMS1), mRNA.

Target ORF information:

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

NM_014753.4

ORF Insert Sequence:

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
CTGAATCGCG CAGAATTTGA AGATCAAGAT GATGAAGCCA GAGTTCAGTA TGAGGGTTTT 
CGACCTGGGA TGTACGTCCG CATTGAGATT GAAAATGTTC CCTGTGAATT TGTGCAGAAC 
TTTGACCCCC ATTACCCCAT TATCCTGGGT GGCTTGGGCA ACAGTGAGGG AAATGTTGGC 
TACGTGCAGA TGCGTCTGAA GAAACATCGC TGGTATAAGA AAATCCTCAA GTCCCGAGAT 
CCAATCATAT TTTCTGTAGG GTGGAGGAGG TTTCAGACCA TCCCACTGTA TTATATCGAA 
GACCACAATG GAAGACAAAG GCTTCTAAAG TATACCCCAC AGCACATGCA TTGCGGAGCA 
GCCTTTTGGG GCCCTATCAC TCCACAGGGA ACTGGTTTCT TGGCAATACA GTCTGTCAGT 
GGCATAATGC CTGATTTTCG GATAGCTGCT ACAGGAGTTG TCCTTGATCT GGATAAATCC 
ATAAAAATTG TGAAGAAATT AAAGCTAACT GGTTTTCCAT ATAAAATTTT CAAGAACACT 
TCATTTATTA AGGGAATGTT TAATTCTGCC TTGGAAGTGG CCAAATTTGA AGGTGCTGTG 
ATTCGAACAG TCAGTGGGAT AAGGGGGCAG ATCAAGAAAG CACTCCGAGC TCCAGAAGGA 
GCTTTCAGGG CCAGCTTTGA GGATAAGCTG CTGATGAGCG ATATTGTCTT CATGCGAACT 
TGGTATCCTG TTTCCATCCC AGCGTTCTAT AACCCAGTAA CATCTTTGTT GAAACCAGTG 
GGTGAGAAAG ACACCTGGTC AGGAATGCGG ACCACGGGCC AACTCAGGCT CGCCCATGGC 
GTCAGACTAA AGGCGAACAA GGACTCTCTG TATAAGCCAA TCCTGAGGCA AAAGAAACAT 
TTTAATTCAC TGCACATTCC AAAAGCCTTG CAGAAGGCCC TGCCATTTAA GAACAAGCCC 
AAGACCCAAG CAAAGGCAGG CAAGGTGCCA AAGGACAGGC GGAGACCGGC CGTCATACGC 
GAGCCTCATG AAAGAAAGAT CCTTGCACTG CTGGATGCTC TGAGTACGGT GCATAGTCAG 
AAGATGAAGA AGGCCAAGGA GCAGCGGCAC CTGCACAATA AAGAGCACTT CAGAGCCAAG 
CAGAAGGAGG AGGAGGAGAA GCTGAAGCGG CAGAAGGACC TCAGGAAGAA GCTCTTCAGA 
ATTCAGGGGC AGAAGGAAAG AAGAAACCAG AAGTCCAGTT TGAAGGGGGC TGAGGGCCAA 
TTGCAGTGA

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

BMS1 ( XM_005271849.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005271906.1 Homo sapiens BMS1, ribosome biogenesis factor (BMS1), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OHu44706
Clone ID Related Accession (Same CDS sequence)	XM_005271849.3
Accession Version	XM_005271849.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2640bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	ribosome biogenesis protein BMS1 homolog isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) 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_005271849.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
ATAACAGCAT ACAGGTTTTT TTATTCCCCA TCATGTACAG CTGAATCGCG CAGAATTTGA

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

RefSeq	XP_005271906.1
CDS	90..2729
Translation	MEAKDQKKHRKKNSGPKAAKKKKRLLQDLQLGDEEDARKRNPKAFAVQSAVRMARSFHRTQDLKTKKHHIPVVDRTPLEPPPIVVVVMGPPKVGKSTLIQCLIRNFTRQKLTEIRGPVTIVSGKKRRLTIIECGCDINMMIDLAKVADLVLMLIDASFGFEMETFEFLNICQVHGFPKIMGVLTHLDSFKHNKQLKKTKKRLKHRFWTEVYPGAKLFYLSGMVHGEYQNQEIHNLGRFITVMKFRPLTWQTSHPYILADRMEDLTNPEDIRTNIKCDRKVSLYGYLRGAHLKNKSQIHMPGVGDFAVSDISFLPDPCALPEQQKKRCLNEKEKLVYAPLSGVGGVLYDKDAVYVDLGGSHVFQDEVGPTHELVQSLISTHSTIDAKMASSRVTLFSDSKPLGSEDIDNQGLMMPKEEKQMDLNTGRMRRKAIFGDEDESGDSDDEEDDEMSEDDGLENGSSDEEAEEEENAEMTDQYMAVKGIKRRKLELEEDSEMDLPAFADSDDDLERSSAEEGEAEEADESSEEEDCTAGEKGISGSKAAGEGSKAGLSPANCQSDRVNLEKSLLMKKAALPTFDSGHCTAEEVFASEDESEESSSLSAEEEDSENEEAIRKKLSKPSQVSSGQKLGPQNFIDETSDIENLLKEEEDYKEENNDSKETSGALKWKEDLSRKAAEAFLRQQQAAPNLRKLIYGTVTEDNEEEDDDTLEELGGLFRVNQPDRECKHKADSLDCSRFLVEAPHDWDLEEVMNSIRDCFVTGKWEDDKDAAKVLAEDEELYGDFEDLETGDVHKGKSGPNTQNEDIEKEVKEEIDPDEEESAKKKHLDKKRKLKEMFDAEYDEGESTYFDDLKGEMQKQAQITAYRFFYSPSCTAESRRI

Target ORF information:

RefSeq Version	XM_005271849.3
Organism	Homo sapiens(human)
Definition	Homo sapiens BMS1, ribosome biogenesis factor (BMS1), transcript variant X6, mRNA.

Target ORF information:

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

XM_005271849.3

ORF Insert Sequence:

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
ATAACAGCAT ACAGGTTTTT TTATTCCCCA TCATGTACAG CTGAATCGCG CAGAATTTGA

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

BMS1 ( XM_011540403.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538705.1 Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X8, mRNA.

Price & Availability↑

CloneID	OHu63303
Clone ID Related Accession (Same CDS sequence)	XM_011540403.2
Accession Version	XM_011540403.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2616bp) 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	ribosome biogenesis protein BMS1 homolog isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540403.1. ##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##

ATGATGCCAA AGGAGGAAAA ACAAATGGAC TTGAACACTG GTCGAATGCG TCGGAAAGCC 
ATTTTCGGAG ATGAAGATGA ATCTGGAGAT AGTGATGATG AAGAAGATGA TGAAATGTCT 
GAAGATGACG GGTTGGAAAA CGGCTCTAGT GATGAGGAAG CAGAAGAGGA GGAAAATGCT 
GAGATGACTG ATCAGTATAT GGCTGTTAAG GGCATCAAAC GACGGAAACT TGAGTTGGAA 
GAAGACAGTG AAATGGATTT GCCAGCATTT GCTGACAGTG ACGATGACCT TGAGAGGAGC 
TCAGCGGAAG AAGGGGAAGC GGAGGAAGCT GATGAAAGCA GTGAAGAAGA GGACTGCACT 
GCAGGAGAGA AGGGCATTTC AGGATCAAAG GCTGCTGGAG AAGGTAGTAA AGCAGGGCTG 
TCACCAGCTA ATTGCCAGAG TGACCGTGTG AATCTGGAGA AGTCTTTGCT GATGAAGAAA 
GCAGCTCTCC CCACTTTCGA TTCTGGGCAT TGCACAGCTG AAGAGGTGTT TGCATCTGAA 
GATGAATCTG AAGAAAGCTC CTCACTCAGT GCAGAGGAAG AAGACTCAGA AAATGAAGAG 
GCTATTAGAA AAAAGCTTTC AAAGCCTTCT CAAGTGAGCA GTGGTCAGAA ACTGGGGCCA 
CAGAACTTCA TTGATGAGAC CAGTGATATA GAAAATTTAC TCAAAGAGGA AGAAGATTAC 
AAGGAAGAAA ATAATGATTC CAAAGAAACG TCAGGTGCCC TCAAGTGGAA GGAAGACCTT 
TCCAGAAAGG CAGCTGAGGC CTTTCTGAGG CAGCAGCAAG CAGCTCCAAA CCTCCGAAAG 
CTTATTTATG GGACAGTGAC AGAAGATAAT GAAGAAGAAG ATGATGATAC TCTAGAAGAG 
CTTGGAGGGT TGTTTCGTGT CAACCAGCCT GACAGAGAGT GTAAGCACAA GGCTGACTCT 
TTGGACTGCT CCAGATTTCT TGTGGAGGCC CCCCATGACT GGGATTTAGA GGAGGTTATG 
AACAGTATCA GAGATTGCTT CGTGACTGGA AAGTGGGAAG ATGATAAAGA TGCAGCCAAG 
GTCTTAGCAG AAGATGAGGA GCTCTACGGT GACTTTGAAG ACTTGGAAAC AGGGGACGTG 
CACAAGGGAA AATCAGGCCC CAATACTCAG AATGAAGATA TAGAGAAAGA AGTTAAGGAA 
GAAATTGACC CCGACGAAGA AGAAAGTGCC AAGAAAAAGC ATTTGGATAA GAAGAGAAAA 
TTGAAGGAGA TGTTTGATGC AGAATATGAT GAAGGAGAAA GCACATATTT TGATGATCTT 
AAAGGAGAAA TGCAGAAACA AGCACAGCTG AATCGCGCAG AATTTGAAGA TCAAGATGAT 
GAAGCCAGAG TTCAGTATGA GGGTTTTCGA CCTGGGATGT ACGTCCGCAT TGAGATTGAA 
AATGTTCCCT GTGAATTTGT GCAGAACTTT GACCCCCATT ACCCCATTAT CCTGGGTGGC 
TTGGGCAACA GTGAGGGAAA TGTTGGCTAC GTGCAGATGC GTCTGAAGAA ACATCGCTGG 
TATAAGAAAA TCCTCAAGTC CCGAGATCCA ATCATATTTT CTGTAGGGTG GAGGAGGTTT 
CAGACCATCC CACTGTATTA TATCGAAGAC CACAATGGAA GACAAAGGCT TCTAAAGTAT 
ACCCCACAGC ACATGCATTG CGGAGCAGCC TTTTGGGGCC CTATCACTCC ACAGGGAACT 
GGTTTCTTGG CAATACAGTC TGTCAGTGGC ATAATGCCTG ATTTTCGGAT AGCTGCTACA 
GGAGTTGTCC TTGATCTGGA TAAATCCATA AAAATTGTGA AGAAATTAAA GCTAACTGGT 
TTTCCATATA AAATTTTCAA GAACACTTCA TTTATTAAGG GAATGTTTAA TTCTGCCTTG 
GAAGTGGCCA AATTTGAAGG TGCTGTGATT CGAACAGTCA GTGGGATAAG GGGGCAGATC 
AAGAAAGCAC TCCGAGCTCC AGAAGGAGCT TTCAGGGCCA GCTTTGAGGA TAAGCTGCTG 
ATGAGCGATA TTGTCTTCAT GCGAACTTGG TATCCTGTTT CCATCCCAGC GTTCTATAAC 
CCAGTAACAT CTTTGTTGAA ACCAGTGGGT GAGAAAGACA CCTGGTCAGG AATGCGGACC 
ACGGGCCAAC TCAGGCTCGC CCATGGCGTC AGACTAAAGG CGAACAAGGA CTCTCTGTAT 
AAGCCAATCC TGAGGCAAAA GAAACATTTT AATTCACTGC ACATTCCAAA AGCCTTGCAG 
AAGGCCCTGC CATTTAAGAA CAAGCCCAAG ACCCAAGCAA AGGCAGGCAA GGTGCCAAAG 
GACAGGCGGA GACCGGCCGT CATACGCGAG CCTCATGAAA GAAAGATCCT TGCACTGCTG 
GATGCTCTGA GTACGGTGCA TAGTCAGAAG ATGAAGAAGG CCAAGGAGCA GCGGCACCTG 
CACAATAAAG AGCACTTCAG AGCCAAGCAG AAGGAGGAGG AGGAGAAGCT GAAGCGGCAG 
AAGGACCTCA GGAAGAAGCT CTTCAGAATT CAGGGGCAGA AGGAAAGAAG AAACCAGAAG 
TCCAGTTTGA AGGGGGCTGA GGGCCAATTG CAGTGA

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

RefSeq	XP_011538705.1
CDS	126..2741
Translation	MMPKEEKQMDLNTGRMRRKAIFGDEDESGDSDDEEDDEMSEDDGLENGSSDEEAEEEENAEMTDQYMAVKGIKRRKLELEEDSEMDLPAFADSDDDLERSSAEEGEAEEADESSEEEDCTAGEKGISGSKAAGEGSKAGLSPANCQSDRVNLEKSLLMKKAALPTFDSGHCTAEEVFASEDESEESSSLSAEEEDSENEEAIRKKLSKPSQVSSGQKLGPQNFIDETSDIENLLKEEEDYKEENNDSKETSGALKWKEDLSRKAAEAFLRQQQAAPNLRKLIYGTVTEDNEEEDDDTLEELGGLFRVNQPDRECKHKADSLDCSRFLVEAPHDWDLEEVMNSIRDCFVTGKWEDDKDAAKVLAEDEELYGDFEDLETGDVHKGKSGPNTQNEDIEKEVKEEIDPDEEESAKKKHLDKKRKLKEMFDAEYDEGESTYFDDLKGEMQKQAQLNRAEFEDQDDEARVQYEGFRPGMYVRIEIENVPCEFVQNFDPHYPIILGGLGNSEGNVGYVQMRLKKHRWYKKILKSRDPIIFSVGWRRFQTIPLYYIEDHNGRQRLLKYTPQHMHCGAAFWGPITPQGTGFLAIQSVSGIMPDFRIAATGVVLDLDKSIKIVKKLKLTGFPYKIFKNTSFIKGMFNSALEVAKFEGAVIRTVSGIRGQIKKALRAPEGAFRASFEDKLLMSDIVFMRTWYPVSIPAFYNPVTSLLKPVGEKDTWSGMRTTGQLRLAHGVRLKANKDSLYKPILRQKKHFNSLHIPKALQKALPFKNKPKTQAKAGKVPKDRRRPAVIREPHERKILALLDALSTVHSQKMKKAKEQRHLHNKEHFRAKQKEEEEKLKRQKDLRKKLFRIQGQKERRNQKSSLKGAEGQLQ

Target ORF information:

RefSeq Version	XM_011540403.2
Organism	Homo sapiens(human)
Definition	Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X8, mRNA.

Target ORF information:

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

XM_011540403.2

ORF Insert Sequence:

ATGATGCCAA AGGAGGAAAA ACAAATGGAC TTGAACACTG GTCGAATGCG TCGGAAAGCC 
ATTTTCGGAG ATGAAGATGA ATCTGGAGAT AGTGATGATG AAGAAGATGA TGAAATGTCT 
GAAGATGACG GGTTGGAAAA CGGCTCTAGT GATGAGGAAG CAGAAGAGGA GGAAAATGCT 
GAGATGACTG ATCAGTATAT GGCTGTTAAG GGCATCAAAC GACGGAAACT TGAGTTGGAA 
GAAGACAGTG AAATGGATTT GCCAGCATTT GCTGACAGTG ACGATGACCT TGAGAGGAGC 
TCAGCGGAAG AAGGGGAAGC GGAGGAAGCT GATGAAAGCA GTGAAGAAGA GGACTGCACT 
GCAGGAGAGA AGGGCATTTC AGGATCAAAG GCTGCTGGAG AAGGTAGTAA AGCAGGGCTG 
TCACCAGCTA ATTGCCAGAG TGACCGTGTG AATCTGGAGA AGTCTTTGCT GATGAAGAAA 
GCAGCTCTCC CCACTTTCGA TTCTGGGCAT TGCACAGCTG AAGAGGTGTT TGCATCTGAA 
GATGAATCTG AAGAAAGCTC CTCACTCAGT GCAGAGGAAG AAGACTCAGA AAATGAAGAG 
GCTATTAGAA AAAAGCTTTC AAAGCCTTCT CAAGTGAGCA GTGGTCAGAA ACTGGGGCCA 
CAGAACTTCA TTGATGAGAC CAGTGATATA GAAAATTTAC TCAAAGAGGA AGAAGATTAC 
AAGGAAGAAA ATAATGATTC CAAAGAAACG TCAGGTGCCC TCAAGTGGAA GGAAGACCTT 
TCCAGAAAGG CAGCTGAGGC CTTTCTGAGG CAGCAGCAAG CAGCTCCAAA CCTCCGAAAG 
CTTATTTATG GGACAGTGAC AGAAGATAAT GAAGAAGAAG ATGATGATAC TCTAGAAGAG 
CTTGGAGGGT TGTTTCGTGT CAACCAGCCT GACAGAGAGT GTAAGCACAA GGCTGACTCT 
TTGGACTGCT CCAGATTTCT TGTGGAGGCC CCCCATGACT GGGATTTAGA GGAGGTTATG 
AACAGTATCA GAGATTGCTT CGTGACTGGA AAGTGGGAAG ATGATAAAGA TGCAGCCAAG 
GTCTTAGCAG AAGATGAGGA GCTCTACGGT GACTTTGAAG ACTTGGAAAC AGGGGACGTG 
CACAAGGGAA AATCAGGCCC CAATACTCAG AATGAAGATA TAGAGAAAGA AGTTAAGGAA 
GAAATTGACC CCGACGAAGA AGAAAGTGCC AAGAAAAAGC ATTTGGATAA GAAGAGAAAA 
TTGAAGGAGA TGTTTGATGC AGAATATGAT GAAGGAGAAA GCACATATTT TGATGATCTT 
AAAGGAGAAA TGCAGAAACA AGCACAGCTG AATCGCGCAG AATTTGAAGA TCAAGATGAT 
GAAGCCAGAG TTCAGTATGA GGGTTTTCGA CCTGGGATGT ACGTCCGCAT TGAGATTGAA 
AATGTTCCCT GTGAATTTGT GCAGAACTTT GACCCCCATT ACCCCATTAT CCTGGGTGGC 
TTGGGCAACA GTGAGGGAAA TGTTGGCTAC GTGCAGATGC GTCTGAAGAA ACATCGCTGG 
TATAAGAAAA TCCTCAAGTC CCGAGATCCA ATCATATTTT CTGTAGGGTG GAGGAGGTTT 
CAGACCATCC CACTGTATTA TATCGAAGAC CACAATGGAA GACAAAGGCT TCTAAAGTAT 
ACCCCACAGC ACATGCATTG CGGAGCAGCC TTTTGGGGCC CTATCACTCC ACAGGGAACT 
GGTTTCTTGG CAATACAGTC TGTCAGTGGC ATAATGCCTG ATTTTCGGAT AGCTGCTACA 
GGAGTTGTCC TTGATCTGGA TAAATCCATA AAAATTGTGA AGAAATTAAA GCTAACTGGT 
TTTCCATATA AAATTTTCAA GAACACTTCA TTTATTAAGG GAATGTTTAA TTCTGCCTTG 
GAAGTGGCCA AATTTGAAGG TGCTGTGATT CGAACAGTCA GTGGGATAAG GGGGCAGATC 
AAGAAAGCAC TCCGAGCTCC AGAAGGAGCT TTCAGGGCCA GCTTTGAGGA TAAGCTGCTG 
ATGAGCGATA TTGTCTTCAT GCGAACTTGG TATCCTGTTT CCATCCCAGC GTTCTATAAC 
CCAGTAACAT CTTTGTTGAA ACCAGTGGGT GAGAAAGACA CCTGGTCAGG AATGCGGACC 
ACGGGCCAAC TCAGGCTCGC CCATGGCGTC AGACTAAAGG CGAACAAGGA CTCTCTGTAT 
AAGCCAATCC TGAGGCAAAA GAAACATTTT AATTCACTGC ACATTCCAAA AGCCTTGCAG 
AAGGCCCTGC CATTTAAGAA CAAGCCCAAG ACCCAAGCAA AGGCAGGCAA GGTGCCAAAG 
GACAGGCGGA GACCGGCCGT CATACGCGAG CCTCATGAAA GAAAGATCCT TGCACTGCTG 
GATGCTCTGA GTACGGTGCA TAGTCAGAAG ATGAAGAAGG CCAAGGAGCA GCGGCACCTG 
CACAATAAAG AGCACTTCAG AGCCAAGCAG AAGGAGGAGG AGGAGAAGCT GAAGCGGCAG 
AAGGACCTCA GGAAGAAGCT CTTCAGAATT CAGGGGCAGA AGGAAAGAAG AAACCAGAAG 
TCCAGTTTGA AGGGGGCTGA GGGCCAATTG CAGTGA

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

BMS1 ( NM_014753.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_055568.3 Homo sapiens BMS1, ribosome biogenesis factor (BMS1), mRNA.

Price & Availability↑

CloneID	OHu10851
Clone ID Related Accession (Same CDS sequence)	NM_014753.4 , XM_005271846.3 , XM_011540402.2 , NM_014753.3
Accession Version	NM_014753.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3849bp) 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	ribosome biogenesis protein BMS1 homolog
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BX485446.1, DB064246.1, BC043345.1, AK308420.1, BC150252.1, AI184520.1, AL022344.3 and AI718109.1. This sequence is a reference standard in the RefSeqGene project. On Mar 6, 2009 this sequence version replaced NM_014753.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.240369.1, SRR1803611.73866.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
CTGAATCGCG CAGAATTTGA AGATCAAGAT GATGAAGCCA GAGTTCAGTA TGAGGGTTTT 
CGACCTGGGA TGTACGTCCG CATTGAGATT GAAAATGTTC CCTGTGAATT TGTGCAGAAC 
TTTGACCCCC ATTACCCCAT TATCCTGGGT GGCTTGGGCA ACAGTGAGGG AAATGTTGGC 
TACGTGCAGA TGCGTCTGAA GAAACATCGC TGGTATAAGA AAATCCTCAA GTCCCGAGAT 
CCAATCATAT TTTCTGTAGG GTGGAGGAGG TTTCAGACCA TCCCACTGTA TTATATCGAA 
GACCACAATG GAAGACAAAG GCTTCTAAAG TATACCCCAC AGCACATGCA TTGCGGAGCA 
GCCTTTTGGG GCCCTATCAC TCCACAGGGA ACTGGTTTCT TGGCAATACA GTCTGTCAGT 
GGCATAATGC CTGATTTTCG GATAGCTGCT ACAGGAGTTG TCCTTGATCT GGATAAATCC 
ATAAAAATTG TGAAGAAATT AAAGCTAACT GGTTTTCCAT ATAAAATTTT CAAGAACACT 
TCATTTATTA AGGGAATGTT TAATTCTGCC TTGGAAGTGG CCAAATTTGA AGGTGCTGTG 
ATTCGAACAG TCAGTGGGAT AAGGGGGCAG ATCAAGAAAG CACTCCGAGC TCCAGAAGGA 
GCTTTCAGGG CCAGCTTTGA GGATAAGCTG CTGATGAGCG ATATTGTCTT CATGCGAACT 
TGGTATCCTG TTTCCATCCC AGCGTTCTAT AACCCAGTAA CATCTTTGTT GAAACCAGTG 
GGTGAGAAAG ACACCTGGTC AGGAATGCGG ACCACGGGCC AACTCAGGCT CGCCCATGGC 
GTCAGACTAA AGGCGAACAA GGACTCTCTG TATAAGCCAA TCCTGAGGCA AAAGAAACAT 
TTTAATTCAC TGCACATTCC AAAAGCCTTG CAGAAGGCCC TGCCATTTAA GAACAAGCCC 
AAGACCCAAG CAAAGGCAGG CAAGGTGCCA AAGGACAGGC GGAGACCGGC CGTCATACGC 
GAGCCTCATG AAAGAAAGAT CCTTGCACTG CTGGATGCTC TGAGTACGGT GCATAGTCAG 
AAGATGAAGA AGGCCAAGGA GCAGCGGCAC CTGCACAATA AAGAGCACTT CAGAGCCAAG 
CAGAAGGAGG AGGAGGAGAA GCTGAAGCGG CAGAAGGACC TCAGGAAGAA GCTCTTCAGA 
ATTCAGGGGC AGAAGGAAAG AAGAAACCAG AAGTCCAGTT TGAAGGGGGC TGAGGGCCAA 
TTGCAGTGA

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

RefSeq	NP_055568.3
CDS	359..4207
Translation	MEAKDQKKHRKKNSGPKAAKKKKRLLQDLQLGDEEDARKRNPKAFAVQSAVRMARSFHRTQDLKTKKHHIPVVDRTPLEPPPIVVVVMGPPKVGKSTLIQCLIRNFTRQKLTEIRGPVTIVSGKKRRLTIIECGCDINMMIDLAKVADLVLMLIDASFGFEMETFEFLNICQVHGFPKIMGVLTHLDSFKHNKQLKKTKKRLKHRFWTEVYPGAKLFYLSGMVHGEYQNQEIHNLGRFITVMKFRPLTWQTSHPYILADRMEDLTNPEDIRTNIKCDRKVSLYGYLRGAHLKNKSQIHMPGVGDFAVSDISFLPDPCALPEQQKKRCLNEKEKLVYAPLSGVGGVLYDKDAVYVDLGGSHVFQDEVGPTHELVQSLISTHSTIDAKMASSRVTLFSDSKPLGSEDIDNQGLMMPKEEKQMDLNTGRMRRKAIFGDEDESGDSDDEEDDEMSEDDGLENGSSDEEAEEEENAEMTDQYMAVKGIKRRKLELEEDSEMDLPAFADSDDDLERSSAEEGEAEEADESSEEEDCTAGEKGISGSKAAGEGSKAGLSPANCQSDRVNLEKSLLMKKAALPTFDSGHCTAEEVFASEDESEESSSLSAEEEDSENEEAIRKKLSKPSQVSSGQKLGPQNFIDETSDIENLLKEEEDYKEENNDSKETSGALKWKEDLSRKAAEAFLRQQQAAPNLRKLIYGTVTEDNEEEDDDTLEELGGLFRVNQPDRECKHKADSLDCSRFLVEAPHDWDLEEVMNSIRDCFVTGKWEDDKDAAKVLAEDEELYGDFEDLETGDVHKGKSGPNTQNEDIEKEVKEEIDPDEEESAKKKHLDKKRKLKEMFDAEYDEGESTYFDDLKGEMQKQAQLNRAEFEDQDDEARVQYEGFRPGMYVRIEIENVPCEFVQNFDPHYPIILGGLGNSEGNVGYVQMRLKKHRWYKKILKSRDPIIFSVGWRRFQTIPLYYIEDHNGRQRLLKYTPQHMHCGAAFWGPITPQGTGFLAIQSVSGIMPDFRIAATGVVLDLDKSIKIVKKLKLTGFPYKIFKNTSFIKGMFNSALEVAKFEGAVIRTVSGIRGQIKKALRAPEGAFRASFEDKLLMSDIVFMRTWYPVSIPAFYNPVTSLLKPVGEKDTWSGMRTTGQLRLAHGVRLKANKDSLYKPILRQKKHFNSLHIPKALQKALPFKNKPKTQAKAGKVPKDRRRPAVIREPHERKILALLDALSTVHSQKMKKAKEQRHLHNKEHFRAKQKEEEEKLKRQKDLRKKLFRIQGQKERRNQKSSLKGAEGQLQ

Target ORF information:

RefSeq Version	NM_014753.3
Organism	Homo sapiens(human)
Definition	Homo sapiens BMS1, ribosome biogenesis factor (BMS1), mRNA.

Target ORF information:

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

NM_014753.3

ORF Insert Sequence:

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
CTGAATCGCG CAGAATTTGA AGATCAAGAT GATGAAGCCA GAGTTCAGTA TGAGGGTTTT 
CGACCTGGGA TGTACGTCCG CATTGAGATT GAAAATGTTC CCTGTGAATT TGTGCAGAAC 
TTTGACCCCC ATTACCCCAT TATCCTGGGT GGCTTGGGCA ACAGTGAGGG AAATGTTGGC 
TACGTGCAGA TGCGTCTGAA GAAACATCGC TGGTATAAGA AAATCCTCAA GTCCCGAGAT 
CCAATCATAT TTTCTGTAGG GTGGAGGAGG TTTCAGACCA TCCCACTGTA TTATATCGAA 
GACCACAATG GAAGACAAAG GCTTCTAAAG TATACCCCAC AGCACATGCA TTGCGGAGCA 
GCCTTTTGGG GCCCTATCAC TCCACAGGGA ACTGGTTTCT TGGCAATACA GTCTGTCAGT 
GGCATAATGC CTGATTTTCG GATAGCTGCT ACAGGAGTTG TCCTTGATCT GGATAAATCC 
ATAAAAATTG TGAAGAAATT AAAGCTAACT GGTTTTCCAT ATAAAATTTT CAAGAACACT 
TCATTTATTA AGGGAATGTT TAATTCTGCC TTGGAAGTGG CCAAATTTGA AGGTGCTGTG 
ATTCGAACAG TCAGTGGGAT AAGGGGGCAG ATCAAGAAAG CACTCCGAGC TCCAGAAGGA 
GCTTTCAGGG CCAGCTTTGA GGATAAGCTG CTGATGAGCG ATATTGTCTT CATGCGAACT 
TGGTATCCTG TTTCCATCCC AGCGTTCTAT AACCCAGTAA CATCTTTGTT GAAACCAGTG 
GGTGAGAAAG ACACCTGGTC AGGAATGCGG ACCACGGGCC AACTCAGGCT CGCCCATGGC 
GTCAGACTAA AGGCGAACAA GGACTCTCTG TATAAGCCAA TCCTGAGGCA AAAGAAACAT 
TTTAATTCAC TGCACATTCC AAAAGCCTTG CAGAAGGCCC TGCCATTTAA GAACAAGCCC 
AAGACCCAAG CAAAGGCAGG CAAGGTGCCA AAGGACAGGC GGAGACCGGC CGTCATACGC 
GAGCCTCATG AAAGAAAGAT CCTTGCACTG CTGGATGCTC TGAGTACGGT GCATAGTCAG 
AAGATGAAGA AGGCCAAGGA GCAGCGGCAC CTGCACAATA AAGAGCACTT CAGAGCCAAG 
CAGAAGGAGG AGGAGGAGAA GCTGAAGCGG CAGAAGGACC TCAGGAAGAA GCTCTTCAGA 
ATTCAGGGGC AGAAGGAAAG AAGAAACCAG AAGTCCAGTT TGAAGGGGGC TGAGGGCCAA 
TTGCAGTGA

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

BMS1 ( XM_005271846.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005271903.1 Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X1, mRNA.

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CloneID	OHu10851
Clone ID Related Accession (Same CDS sequence)	NM_014753.4 , XM_005271846.3 , XM_011540402.2 , NM_014753.3
Accession Version	XM_005271846.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3849bp) 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	ribosome biogenesis protein BMS1 homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) 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_005271846.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
CTGAATCGCG CAGAATTTGA AGATCAAGAT GATGAAGCCA GAGTTCAGTA TGAGGGTTTT 
CGACCTGGGA TGTACGTCCG CATTGAGATT GAAAATGTTC CCTGTGAATT TGTGCAGAAC 
TTTGACCCCC ATTACCCCAT TATCCTGGGT GGCTTGGGCA ACAGTGAGGG AAATGTTGGC 
TACGTGCAGA TGCGTCTGAA GAAACATCGC TGGTATAAGA AAATCCTCAA GTCCCGAGAT 
CCAATCATAT TTTCTGTAGG GTGGAGGAGG TTTCAGACCA TCCCACTGTA TTATATCGAA 
GACCACAATG GAAGACAAAG GCTTCTAAAG TATACCCCAC AGCACATGCA TTGCGGAGCA 
GCCTTTTGGG GCCCTATCAC TCCACAGGGA ACTGGTTTCT TGGCAATACA GTCTGTCAGT 
GGCATAATGC CTGATTTTCG GATAGCTGCT ACAGGAGTTG TCCTTGATCT GGATAAATCC 
ATAAAAATTG TGAAGAAATT AAAGCTAACT GGTTTTCCAT ATAAAATTTT CAAGAACACT 
TCATTTATTA AGGGAATGTT TAATTCTGCC TTGGAAGTGG CCAAATTTGA AGGTGCTGTG 
ATTCGAACAG TCAGTGGGAT AAGGGGGCAG ATCAAGAAAG CACTCCGAGC TCCAGAAGGA 
GCTTTCAGGG CCAGCTTTGA GGATAAGCTG CTGATGAGCG ATATTGTCTT CATGCGAACT 
TGGTATCCTG TTTCCATCCC AGCGTTCTAT AACCCAGTAA CATCTTTGTT GAAACCAGTG 
GGTGAGAAAG ACACCTGGTC AGGAATGCGG ACCACGGGCC AACTCAGGCT CGCCCATGGC 
GTCAGACTAA AGGCGAACAA GGACTCTCTG TATAAGCCAA TCCTGAGGCA AAAGAAACAT 
TTTAATTCAC TGCACATTCC AAAAGCCTTG CAGAAGGCCC TGCCATTTAA GAACAAGCCC 
AAGACCCAAG CAAAGGCAGG CAAGGTGCCA AAGGACAGGC GGAGACCGGC CGTCATACGC 
GAGCCTCATG AAAGAAAGAT CCTTGCACTG CTGGATGCTC TGAGTACGGT GCATAGTCAG 
AAGATGAAGA AGGCCAAGGA GCAGCGGCAC CTGCACAATA AAGAGCACTT CAGAGCCAAG 
CAGAAGGAGG AGGAGGAGAA GCTGAAGCGG CAGAAGGACC TCAGGAAGAA GCTCTTCAGA 
ATTCAGGGGC AGAAGGAAAG AAGAAACCAG AAGTCCAGTT TGAAGGGGGC TGAGGGCCAA 
TTGCAGTGA

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

RefSeq	XP_005271903.1
CDS	234..4082
Translation	MEAKDQKKHRKKNSGPKAAKKKKRLLQDLQLGDEEDARKRNPKAFAVQSAVRMARSFHRTQDLKTKKHHIPVVDRTPLEPPPIVVVVMGPPKVGKSTLIQCLIRNFTRQKLTEIRGPVTIVSGKKRRLTIIECGCDINMMIDLAKVADLVLMLIDASFGFEMETFEFLNICQVHGFPKIMGVLTHLDSFKHNKQLKKTKKRLKHRFWTEVYPGAKLFYLSGMVHGEYQNQEIHNLGRFITVMKFRPLTWQTSHPYILADRMEDLTNPEDIRTNIKCDRKVSLYGYLRGAHLKNKSQIHMPGVGDFAVSDISFLPDPCALPEQQKKRCLNEKEKLVYAPLSGVGGVLYDKDAVYVDLGGSHVFQDEVGPTHELVQSLISTHSTIDAKMASSRVTLFSDSKPLGSEDIDNQGLMMPKEEKQMDLNTGRMRRKAIFGDEDESGDSDDEEDDEMSEDDGLENGSSDEEAEEEENAEMTDQYMAVKGIKRRKLELEEDSEMDLPAFADSDDDLERSSAEEGEAEEADESSEEEDCTAGEKGISGSKAAGEGSKAGLSPANCQSDRVNLEKSLLMKKAALPTFDSGHCTAEEVFASEDESEESSSLSAEEEDSENEEAIRKKLSKPSQVSSGQKLGPQNFIDETSDIENLLKEEEDYKEENNDSKETSGALKWKEDLSRKAAEAFLRQQQAAPNLRKLIYGTVTEDNEEEDDDTLEELGGLFRVNQPDRECKHKADSLDCSRFLVEAPHDWDLEEVMNSIRDCFVTGKWEDDKDAAKVLAEDEELYGDFEDLETGDVHKGKSGPNTQNEDIEKEVKEEIDPDEEESAKKKHLDKKRKLKEMFDAEYDEGESTYFDDLKGEMQKQAQLNRAEFEDQDDEARVQYEGFRPGMYVRIEIENVPCEFVQNFDPHYPIILGGLGNSEGNVGYVQMRLKKHRWYKKILKSRDPIIFSVGWRRFQTIPLYYIEDHNGRQRLLKYTPQHMHCGAAFWGPITPQGTGFLAIQSVSGIMPDFRIAATGVVLDLDKSIKIVKKLKLTGFPYKIFKNTSFIKGMFNSALEVAKFEGAVIRTVSGIRGQIKKALRAPEGAFRASFEDKLLMSDIVFMRTWYPVSIPAFYNPVTSLLKPVGEKDTWSGMRTTGQLRLAHGVRLKANKDSLYKPILRQKKHFNSLHIPKALQKALPFKNKPKTQAKAGKVPKDRRRPAVIREPHERKILALLDALSTVHSQKMKKAKEQRHLHNKEHFRAKQKEEEEKLKRQKDLRKKLFRIQGQKERRNQKSSLKGAEGQLQ

Target ORF information:

RefSeq Version	XM_005271846.3
Organism	Homo sapiens(human)
Definition	Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X1, mRNA.

Target ORF information:

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

XM_005271846.3

ORF Insert Sequence:

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
CTGAATCGCG CAGAATTTGA AGATCAAGAT GATGAAGCCA GAGTTCAGTA TGAGGGTTTT 
CGACCTGGGA TGTACGTCCG CATTGAGATT GAAAATGTTC CCTGTGAATT TGTGCAGAAC 
TTTGACCCCC ATTACCCCAT TATCCTGGGT GGCTTGGGCA ACAGTGAGGG AAATGTTGGC 
TACGTGCAGA TGCGTCTGAA GAAACATCGC TGGTATAAGA AAATCCTCAA GTCCCGAGAT 
CCAATCATAT TTTCTGTAGG GTGGAGGAGG TTTCAGACCA TCCCACTGTA TTATATCGAA 
GACCACAATG GAAGACAAAG GCTTCTAAAG TATACCCCAC AGCACATGCA TTGCGGAGCA 
GCCTTTTGGG GCCCTATCAC TCCACAGGGA ACTGGTTTCT TGGCAATACA GTCTGTCAGT 
GGCATAATGC CTGATTTTCG GATAGCTGCT ACAGGAGTTG TCCTTGATCT GGATAAATCC 
ATAAAAATTG TGAAGAAATT AAAGCTAACT GGTTTTCCAT ATAAAATTTT CAAGAACACT 
TCATTTATTA AGGGAATGTT TAATTCTGCC TTGGAAGTGG CCAAATTTGA AGGTGCTGTG 
ATTCGAACAG TCAGTGGGAT AAGGGGGCAG ATCAAGAAAG CACTCCGAGC TCCAGAAGGA 
GCTTTCAGGG CCAGCTTTGA GGATAAGCTG CTGATGAGCG ATATTGTCTT CATGCGAACT 
TGGTATCCTG TTTCCATCCC AGCGTTCTAT AACCCAGTAA CATCTTTGTT GAAACCAGTG 
GGTGAGAAAG ACACCTGGTC AGGAATGCGG ACCACGGGCC AACTCAGGCT CGCCCATGGC 
GTCAGACTAA AGGCGAACAA GGACTCTCTG TATAAGCCAA TCCTGAGGCA AAAGAAACAT 
TTTAATTCAC TGCACATTCC AAAAGCCTTG CAGAAGGCCC TGCCATTTAA GAACAAGCCC 
AAGACCCAAG CAAAGGCAGG CAAGGTGCCA AAGGACAGGC GGAGACCGGC CGTCATACGC 
GAGCCTCATG AAAGAAAGAT CCTTGCACTG CTGGATGCTC TGAGTACGGT GCATAGTCAG 
AAGATGAAGA AGGCCAAGGA GCAGCGGCAC CTGCACAATA AAGAGCACTT CAGAGCCAAG 
CAGAAGGAGG AGGAGGAGAA GCTGAAGCGG CAGAAGGACC TCAGGAAGAA GCTCTTCAGA 
ATTCAGGGGC AGAAGGAAAG AAGAAACCAG AAGTCCAGTT TGAAGGGGGC TGAGGGCCAA 
TTGCAGTGA

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

BMS1 ( XM_011540402.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538704.1 Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X2, mRNA.

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CloneID	OHu10851
Clone ID Related Accession (Same CDS sequence)	NM_014753.4 , XM_005271846.3 , XM_011540402.2 , NM_014753.3
Accession Version	XM_011540402.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3849bp) 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	ribosome biogenesis protein BMS1 homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) 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_011540402.1. ##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##

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
CTGAATCGCG CAGAATTTGA AGATCAAGAT GATGAAGCCA GAGTTCAGTA TGAGGGTTTT 
CGACCTGGGA TGTACGTCCG CATTGAGATT GAAAATGTTC CCTGTGAATT TGTGCAGAAC 
TTTGACCCCC ATTACCCCAT TATCCTGGGT GGCTTGGGCA ACAGTGAGGG AAATGTTGGC 
TACGTGCAGA TGCGTCTGAA GAAACATCGC TGGTATAAGA AAATCCTCAA GTCCCGAGAT 
CCAATCATAT TTTCTGTAGG GTGGAGGAGG TTTCAGACCA TCCCACTGTA TTATATCGAA 
GACCACAATG GAAGACAAAG GCTTCTAAAG TATACCCCAC AGCACATGCA TTGCGGAGCA 
GCCTTTTGGG GCCCTATCAC TCCACAGGGA ACTGGTTTCT TGGCAATACA GTCTGTCAGT 
GGCATAATGC CTGATTTTCG GATAGCTGCT ACAGGAGTTG TCCTTGATCT GGATAAATCC 
ATAAAAATTG TGAAGAAATT AAAGCTAACT GGTTTTCCAT ATAAAATTTT CAAGAACACT 
TCATTTATTA AGGGAATGTT TAATTCTGCC TTGGAAGTGG CCAAATTTGA AGGTGCTGTG 
ATTCGAACAG TCAGTGGGAT AAGGGGGCAG ATCAAGAAAG CACTCCGAGC TCCAGAAGGA 
GCTTTCAGGG CCAGCTTTGA GGATAAGCTG CTGATGAGCG ATATTGTCTT CATGCGAACT 
TGGTATCCTG TTTCCATCCC AGCGTTCTAT AACCCAGTAA CATCTTTGTT GAAACCAGTG 
GGTGAGAAAG ACACCTGGTC AGGAATGCGG ACCACGGGCC AACTCAGGCT CGCCCATGGC 
GTCAGACTAA AGGCGAACAA GGACTCTCTG TATAAGCCAA TCCTGAGGCA AAAGAAACAT 
TTTAATTCAC TGCACATTCC AAAAGCCTTG CAGAAGGCCC TGCCATTTAA GAACAAGCCC 
AAGACCCAAG CAAAGGCAGG CAAGGTGCCA AAGGACAGGC GGAGACCGGC CGTCATACGC 
GAGCCTCATG AAAGAAAGAT CCTTGCACTG CTGGATGCTC TGAGTACGGT GCATAGTCAG 
AAGATGAAGA AGGCCAAGGA GCAGCGGCAC CTGCACAATA AAGAGCACTT CAGAGCCAAG 
CAGAAGGAGG AGGAGGAGAA GCTGAAGCGG CAGAAGGACC TCAGGAAGAA GCTCTTCAGA 
ATTCAGGGGC AGAAGGAAAG AAGAAACCAG AAGTCCAGTT TGAAGGGGGC TGAGGGCCAA 
TTGCAGTGA

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

RefSeq	XP_011538704.1
CDS	90..3938
Translation	MEAKDQKKHRKKNSGPKAAKKKKRLLQDLQLGDEEDARKRNPKAFAVQSAVRMARSFHRTQDLKTKKHHIPVVDRTPLEPPPIVVVVMGPPKVGKSTLIQCLIRNFTRQKLTEIRGPVTIVSGKKRRLTIIECGCDINMMIDLAKVADLVLMLIDASFGFEMETFEFLNICQVHGFPKIMGVLTHLDSFKHNKQLKKTKKRLKHRFWTEVYPGAKLFYLSGMVHGEYQNQEIHNLGRFITVMKFRPLTWQTSHPYILADRMEDLTNPEDIRTNIKCDRKVSLYGYLRGAHLKNKSQIHMPGVGDFAVSDISFLPDPCALPEQQKKRCLNEKEKLVYAPLSGVGGVLYDKDAVYVDLGGSHVFQDEVGPTHELVQSLISTHSTIDAKMASSRVTLFSDSKPLGSEDIDNQGLMMPKEEKQMDLNTGRMRRKAIFGDEDESGDSDDEEDDEMSEDDGLENGSSDEEAEEEENAEMTDQYMAVKGIKRRKLELEEDSEMDLPAFADSDDDLERSSAEEGEAEEADESSEEEDCTAGEKGISGSKAAGEGSKAGLSPANCQSDRVNLEKSLLMKKAALPTFDSGHCTAEEVFASEDESEESSSLSAEEEDSENEEAIRKKLSKPSQVSSGQKLGPQNFIDETSDIENLLKEEEDYKEENNDSKETSGALKWKEDLSRKAAEAFLRQQQAAPNLRKLIYGTVTEDNEEEDDDTLEELGGLFRVNQPDRECKHKADSLDCSRFLVEAPHDWDLEEVMNSIRDCFVTGKWEDDKDAAKVLAEDEELYGDFEDLETGDVHKGKSGPNTQNEDIEKEVKEEIDPDEEESAKKKHLDKKRKLKEMFDAEYDEGESTYFDDLKGEMQKQAQLNRAEFEDQDDEARVQYEGFRPGMYVRIEIENVPCEFVQNFDPHYPIILGGLGNSEGNVGYVQMRLKKHRWYKKILKSRDPIIFSVGWRRFQTIPLYYIEDHNGRQRLLKYTPQHMHCGAAFWGPITPQGTGFLAIQSVSGIMPDFRIAATGVVLDLDKSIKIVKKLKLTGFPYKIFKNTSFIKGMFNSALEVAKFEGAVIRTVSGIRGQIKKALRAPEGAFRASFEDKLLMSDIVFMRTWYPVSIPAFYNPVTSLLKPVGEKDTWSGMRTTGQLRLAHGVRLKANKDSLYKPILRQKKHFNSLHIPKALQKALPFKNKPKTQAKAGKVPKDRRRPAVIREPHERKILALLDALSTVHSQKMKKAKEQRHLHNKEHFRAKQKEEEEKLKRQKDLRKKLFRIQGQKERRNQKSSLKGAEGQLQ

Target ORF information:

RefSeq Version	XM_011540402.2
Organism	Homo sapiens(human)
Definition	Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X2, mRNA.

Target ORF information:

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

XM_011540402.2

ORF Insert Sequence:

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
CTGAATCGCG CAGAATTTGA AGATCAAGAT GATGAAGCCA GAGTTCAGTA TGAGGGTTTT 
CGACCTGGGA TGTACGTCCG CATTGAGATT GAAAATGTTC CCTGTGAATT TGTGCAGAAC 
TTTGACCCCC ATTACCCCAT TATCCTGGGT GGCTTGGGCA ACAGTGAGGG AAATGTTGGC 
TACGTGCAGA TGCGTCTGAA GAAACATCGC TGGTATAAGA AAATCCTCAA GTCCCGAGAT 
CCAATCATAT TTTCTGTAGG GTGGAGGAGG TTTCAGACCA TCCCACTGTA TTATATCGAA 
GACCACAATG GAAGACAAAG GCTTCTAAAG TATACCCCAC AGCACATGCA TTGCGGAGCA 
GCCTTTTGGG GCCCTATCAC TCCACAGGGA ACTGGTTTCT TGGCAATACA GTCTGTCAGT 
GGCATAATGC CTGATTTTCG GATAGCTGCT ACAGGAGTTG TCCTTGATCT GGATAAATCC 
ATAAAAATTG TGAAGAAATT AAAGCTAACT GGTTTTCCAT ATAAAATTTT CAAGAACACT 
TCATTTATTA AGGGAATGTT TAATTCTGCC TTGGAAGTGG CCAAATTTGA AGGTGCTGTG 
ATTCGAACAG TCAGTGGGAT AAGGGGGCAG ATCAAGAAAG CACTCCGAGC TCCAGAAGGA 
GCTTTCAGGG CCAGCTTTGA GGATAAGCTG CTGATGAGCG ATATTGTCTT CATGCGAACT 
TGGTATCCTG TTTCCATCCC AGCGTTCTAT AACCCAGTAA CATCTTTGTT GAAACCAGTG 
GGTGAGAAAG ACACCTGGTC AGGAATGCGG ACCACGGGCC AACTCAGGCT CGCCCATGGC 
GTCAGACTAA AGGCGAACAA GGACTCTCTG TATAAGCCAA TCCTGAGGCA AAAGAAACAT 
TTTAATTCAC TGCACATTCC AAAAGCCTTG CAGAAGGCCC TGCCATTTAA GAACAAGCCC 
AAGACCCAAG CAAAGGCAGG CAAGGTGCCA AAGGACAGGC GGAGACCGGC CGTCATACGC 
GAGCCTCATG AAAGAAAGAT CCTTGCACTG CTGGATGCTC TGAGTACGGT GCATAGTCAG 
AAGATGAAGA AGGCCAAGGA GCAGCGGCAC CTGCACAATA AAGAGCACTT CAGAGCCAAG 
CAGAAGGAGG AGGAGGAGAA GCTGAAGCGG CAGAAGGACC TCAGGAAGAA GCTCTTCAGA 
ATTCAGGGGC AGAAGGAAAG AAGAAACCAG AAGTCCAGTT TGAAGGGGGC TGAGGGCCAA 
TTGCAGTGA

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

BMS1 ( XM_005271848.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005271905.1 Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X3, mRNA.

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CloneID	OHu44704
Clone ID Related Accession (Same CDS sequence)	XM_005271848.3
Accession Version	XM_005271848.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3660bp) 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	ribosome biogenesis protein BMS1 homolog isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) 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_005271848.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
ATGCGTCTGA AGAAACATCG CTGGTATAAG AAAATCCTCA AGTCCCGAGA TCCAATCATA 
TTTTCTGTAG GGTGGAGGAG GTTTCAGACC ATCCCACTGT ATTATATCGA AGACCACAAT 
GGAAGACAAA GGCTTCTAAA GTATACCCCA CAGCACATGC ATTGCGGAGC AGCCTTTTGG 
GGCCCTATCA CTCCACAGGG AACTGGTTTC TTGGCAATAC AGTCTGTCAG TGGCATAATG 
CCTGATTTTC GGATAGCTGC TACAGGAGTT GTCCTTGATC TGGATAAATC CATAAAAATT 
GTGAAGAAAT TAAAGCTAAC TGGTTTTCCA TATAAAATTT TCAAGAACAC TTCATTTATT 
AAGGGAATGT TTAATTCTGC CTTGGAAGTG GCCAAATTTG AAGGTGCTGT GATTCGAACA 
GTCAGTGGGA TAAGGGGGCA GATCAAGAAA GCACTCCGAG CTCCAGAAGG AGCTTTCAGG 
GCCAGCTTTG AGGATAAGCT GCTGATGAGC GATATTGTCT TCATGCGAAC TTGGTATCCT 
GTTTCCATCC CAGCGTTCTA TAACCCAGTA ACATCTTTGT TGAAACCAGT GGGTGAGAAA 
GACACCTGGT CAGGAATGCG GACCACGGGC CAACTCAGGC TCGCCCATGG CGTCAGACTA 
AAGGCGAACA AGGACTCTCT GTATAAGCCA ATCCTGAGGC AAAAGAAACA TTTTAATTCA 
CTGCACATTC CAAAAGCCTT GCAGAAGGCC CTGCCATTTA AGAACAAGCC CAAGACCCAA 
GCAAAGGCAG GCAAGGTGCC AAAGGACAGG CGGAGACCGG CCGTCATACG CGAGCCTCAT 
GAAAGAAAGA TCCTTGCACT GCTGGATGCT CTGAGTACGG TGCATAGTCA GAAGATGAAG 
AAGGCCAAGG AGCAGCGGCA CCTGCACAAT AAAGAGCACT TCAGAGCCAA GCAGAAGGAG 
GAGGAGGAGA AGCTGAAGCG GCAGAAGGAC CTCAGGAAGA AGCTCTTCAG AATTCAGGGG 
CAGAAGGAAA GAAGAAACCA GAAGTCCAGT TTGAAGGGGG CTGAGGGCCA ATTGCAGTGA

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

RefSeq	XP_005271905.1
CDS	90..3749
Translation	MEAKDQKKHRKKNSGPKAAKKKKRLLQDLQLGDEEDARKRNPKAFAVQSAVRMARSFHRTQDLKTKKHHIPVVDRTPLEPPPIVVVVMGPPKVGKSTLIQCLIRNFTRQKLTEIRGPVTIVSGKKRRLTIIECGCDINMMIDLAKVADLVLMLIDASFGFEMETFEFLNICQVHGFPKIMGVLTHLDSFKHNKQLKKTKKRLKHRFWTEVYPGAKLFYLSGMVHGEYQNQEIHNLGRFITVMKFRPLTWQTSHPYILADRMEDLTNPEDIRTNIKCDRKVSLYGYLRGAHLKNKSQIHMPGVGDFAVSDISFLPDPCALPEQQKKRCLNEKEKLVYAPLSGVGGVLYDKDAVYVDLGGSHVFQDEVGPTHELVQSLISTHSTIDAKMASSRVTLFSDSKPLGSEDIDNQGLMMPKEEKQMDLNTGRMRRKAIFGDEDESGDSDDEEDDEMSEDDGLENGSSDEEAEEEENAEMTDQYMAVKGIKRRKLELEEDSEMDLPAFADSDDDLERSSAEEGEAEEADESSEEEDCTAGEKGISGSKAAGEGSKAGLSPANCQSDRVNLEKSLLMKKAALPTFDSGHCTAEEVFASEDESEESSSLSAEEEDSENEEAIRKKLSKPSQVSSGQKLGPQNFIDETSDIENLLKEEEDYKEENNDSKETSGALKWKEDLSRKAAEAFLRQQQAAPNLRKLIYGTVTEDNEEEDDDTLEELGGLFRVNQPDRECKHKADSLDCSRFLVEAPHDWDLEEVMNSIRDCFVTGKWEDDKDAAKVLAEDEELYGDFEDLETGDVHKGKSGPNTQNEDIEKEVKEEIDPDEEESAKKKHLDKKRKLKEMFDAEYDEGESTYFDDLKGEMQKQAQMRLKKHRWYKKILKSRDPIIFSVGWRRFQTIPLYYIEDHNGRQRLLKYTPQHMHCGAAFWGPITPQGTGFLAIQSVSGIMPDFRIAATGVVLDLDKSIKIVKKLKLTGFPYKIFKNTSFIKGMFNSALEVAKFEGAVIRTVSGIRGQIKKALRAPEGAFRASFEDKLLMSDIVFMRTWYPVSIPAFYNPVTSLLKPVGEKDTWSGMRTTGQLRLAHGVRLKANKDSLYKPILRQKKHFNSLHIPKALQKALPFKNKPKTQAKAGKVPKDRRRPAVIREPHERKILALLDALSTVHSQKMKKAKEQRHLHNKEHFRAKQKEEEEKLKRQKDLRKKLFRIQGQKERRNQKSSLKGAEGQLQ

Target ORF information:

RefSeq Version	XM_005271848.3
Organism	Homo sapiens(human)
Definition	Homo sapiens BMS1 ribosome biogenesis factor (BMS1), transcript variant X3, mRNA.

Target ORF information:

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

XM_005271848.3

ORF Insert Sequence:

ATGGAGGCTA AGGACCAGAA GAAACACAGA AAGAAAAACA GTGGACCCAA AGCTGCAAAG 
AAAAAGAAGC GGCTTCTGCA GGATCTCCAG CTAGGAGACG AAGAAGATGC CCGGAAGAGA 
AATCCCAAAG CTTTTGCAGT TCAGTCTGCT GTGCGGATGG CTCGATCCTT TCACAGGACT 
CAGGATTTGA AGACAAAAAA GCATCATATT CCAGTGGTTG ATCGAACTCC ACTAGAGCCC 
CCACCAATAG TGGTAGTGGT GATGGGACCT CCAAAAGTTG GAAAGAGCAC TTTGATACAA 
TGCCTCATTC GGAACTTTAC CCGGCAGAAG TTGACTGAGA TCAGAGGCCC TGTGACGATT 
GTGTCAGGTA AAAAGCGCAG ACTCACCATT ATTGAATGTG GGTGTGACAT TAACATGATG 
ATTGATCTGG CTAAAGTAGC AGATCTGGTA CTGATGCTTA TAGATGCCAG CTTTGGGTTT 
GAAATGGAAA CGTTTGAGTT TCTAAACATC TGTCAAGTAC ATGGCTTTCC TAAAATTATG 
GGAGTTCTCA CCCACCTCGA CTCCTTCAAG CATAATAAGC AACTGAAGAA GACAAAGAAG 
CGATTAAAAC ACAGGTTCTG GACGGAAGTT TACCCGGGTG CCAAGCTGTT CTACCTTTCT 
GGAATGGTGC ATGGAGAATA TCAAAACCAA GAAATCCACA ATCTGGGCCG TTTTATTACA 
GTTATGAAGT TTAGGCCTCT CACATGGCAA ACTTCTCACC CTTATATCCT GGCAGACAGG 
ATGGAAGATT TGACAAACCC AGAGGATATC CGAACAAACA TCAAATGTGA CCGGAAGGTG 
TCACTTTATG GTTATTTAAG AGGAGCACAC TTGAAAAATA AAAGCCAAAT TCACATGCCA 
GGGGTAGGAG ATTTTGCCGT GAGTGACATC AGTTTCCTCC CAGACCCTTG CGCTCTTCCT 
GAACAACAAA AGAAGCGCTG TTTAAATGAG AAGGAGAAGC TGGTTTATGC GCCTCTTTCT 
GGAGTTGGGG GTGTGCTGTA TGACAAAGAC GCTGTCTATG TTGACCTTGG TGGCAGCCAC 
GTTTTTCAGG ATGAAGTGGG GCCCACCCAT GAGCTGGTCC AGAGTCTCAT CTCTACCCAC 
TCCACCATTG ATGCCAAGAT GGCTTCAAGT CGAGTGACGC TGTTTTCTGA TTCCAAGCCA 
CTTGGGTCAG AGGATATAGA TAATCAAGGG CTAATGATGC CAAAGGAGGA AAAACAAATG 
GACTTGAACA CTGGTCGAAT GCGTCGGAAA GCCATTTTCG GAGATGAAGA TGAATCTGGA 
GATAGTGATG ATGAAGAAGA TGATGAAATG TCTGAAGATG ACGGGTTGGA AAACGGCTCT 
AGTGATGAGG AAGCAGAAGA GGAGGAAAAT GCTGAGATGA CTGATCAGTA TATGGCTGTT 
AAGGGCATCA AACGACGGAA ACTTGAGTTG GAAGAAGACA GTGAAATGGA TTTGCCAGCA 
TTTGCTGACA GTGACGATGA CCTTGAGAGG AGCTCAGCGG AAGAAGGGGA AGCGGAGGAA 
GCTGATGAAA GCAGTGAAGA AGAGGACTGC ACTGCAGGAG AGAAGGGCAT TTCAGGATCA 
AAGGCTGCTG GAGAAGGTAG TAAAGCAGGG CTGTCACCAG CTAATTGCCA GAGTGACCGT 
GTGAATCTGG AGAAGTCTTT GCTGATGAAG AAAGCAGCTC TCCCCACTTT CGATTCTGGG 
CATTGCACAG CTGAAGAGGT GTTTGCATCT GAAGATGAAT CTGAAGAAAG CTCCTCACTC 
AGTGCAGAGG AAGAAGACTC AGAAAATGAA GAGGCTATTA GAAAAAAGCT TTCAAAGCCT 
TCTCAAGTGA GCAGTGGTCA GAAACTGGGG CCACAGAACT TCATTGATGA GACCAGTGAT 
ATAGAAAATT TACTCAAAGA GGAAGAAGAT TACAAGGAAG AAAATAATGA TTCCAAAGAA 
ACGTCAGGTG CCCTCAAGTG GAAGGAAGAC CTTTCCAGAA AGGCAGCTGA GGCCTTTCTG 
AGGCAGCAGC AAGCAGCTCC AAACCTCCGA AAGCTTATTT ATGGGACAGT GACAGAAGAT 
AATGAAGAAG AAGATGATGA TACTCTAGAA GAGCTTGGAG GGTTGTTTCG TGTCAACCAG 
CCTGACAGAG AGTGTAAGCA CAAGGCTGAC TCTTTGGACT GCTCCAGATT TCTTGTGGAG 
GCCCCCCATG ACTGGGATTT AGAGGAGGTT ATGAACAGTA TCAGAGATTG CTTCGTGACT 
GGAAAGTGGG AAGATGATAA AGATGCAGCC AAGGTCTTAG CAGAAGATGA GGAGCTCTAC 
GGTGACTTTG AAGACTTGGA AACAGGGGAC GTGCACAAGG GAAAATCAGG CCCCAATACT 
CAGAATGAAG ATATAGAGAA AGAAGTTAAG GAAGAAATTG ACCCCGACGA AGAAGAAAGT 
GCCAAGAAAA AGCATTTGGA TAAGAAGAGA AAATTGAAGG AGATGTTTGA TGCAGAATAT 
GATGAAGGAG AAAGCACATA TTTTGATGAT CTTAAAGGAG AAATGCAGAA ACAAGCACAG 
ATGCGTCTGA AGAAACATCG CTGGTATAAG AAAATCCTCA AGTCCCGAGA TCCAATCATA 
TTTTCTGTAG GGTGGAGGAG GTTTCAGACC ATCCCACTGT ATTATATCGA AGACCACAAT 
GGAAGACAAA GGCTTCTAAA GTATACCCCA CAGCACATGC ATTGCGGAGC AGCCTTTTGG 
GGCCCTATCA CTCCACAGGG AACTGGTTTC TTGGCAATAC AGTCTGTCAG TGGCATAATG 
CCTGATTTTC GGATAGCTGC TACAGGAGTT GTCCTTGATC TGGATAAATC CATAAAAATT 
GTGAAGAAAT TAAAGCTAAC TGGTTTTCCA TATAAAATTT TCAAGAACAC TTCATTTATT 
AAGGGAATGT TTAATTCTGC CTTGGAAGTG GCCAAATTTG AAGGTGCTGT GATTCGAACA 
GTCAGTGGGA TAAGGGGGCA GATCAAGAAA GCACTCCGAG CTCCAGAAGG AGCTTTCAGG 
GCCAGCTTTG AGGATAAGCT GCTGATGAGC GATATTGTCT TCATGCGAAC TTGGTATCCT 
GTTTCCATCC CAGCGTTCTA TAACCCAGTA ACATCTTTGT TGAAACCAGT GGGTGAGAAA 
GACACCTGGT CAGGAATGCG GACCACGGGC CAACTCAGGC TCGCCCATGG CGTCAGACTA 
AAGGCGAACA AGGACTCTCT GTATAAGCCA ATCCTGAGGC AAAAGAAACA TTTTAATTCA 
CTGCACATTC CAAAAGCCTT GCAGAAGGCC CTGCCATTTA AGAACAAGCC CAAGACCCAA 
GCAAAGGCAG GCAAGGTGCC AAAGGACAGG CGGAGACCGG CCGTCATACG CGAGCCTCAT 
GAAAGAAAGA TCCTTGCACT GCTGGATGCT CTGAGTACGG TGCATAGTCA GAAGATGAAG 
AAGGCCAAGG AGCAGCGGCA CCTGCACAAT AAAGAGCACT TCAGAGCCAA GCAGAAGGAG 
GAGGAGGAGA AGCTGAAGCG GCAGAAGGAC CTCAGGAAGA AGCTCTTCAG AATTCAGGGG 
CAGAAGGAAA GAAGAAACCA GAAGTCCAGT TTGAAGGGGG CTGAGGGCCA ATTGCAGTGA

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

PubMed

BMS1 is mutated in aplasia cutis congenita.
PLoS genetics9(6)e1003573(2013 Jun)
Marneros AG

Insights into RNA biology from an atlas of mammalian mRNA-binding proteins.
Cell149(6)1393-406(2012 Jun)
Castello A,Fischer B,Eichelbaum K,Horos R,Beckmann BM,Strein C,Davey NE,Humphreys DT,Preiss T,Steinmetz LM,Krijgsveld J,Hentze MW

The mRNA-bound proteome and its global occupancy profile on protein-coding transcripts.
Molecular cell46(5)674-90(2012 Jun)
Baltz AG,Munschauer M,Schwanh?usser B,Vasile A,Murakawa Y,Schueler M,Youngs N,Penfold-Brown D,Drew K,Milek M,Wyler E,Bonneau R,Selbach M,Dieterich C,Landthaler M

Identification of common variants influencing risk of the tauopathy progressive supranuclear palsy.
Nature genetics43(7)699-705(2011 Jun)
H?glinger GU,Melhem NM,Dickson DW,Sleiman PM,Wang LS,Klei L,Rademakers R,de Silva R,Litvan I,Riley DE,van Swieten JC,Heutink P,Wszolek ZK,Uitti RJ,Vandrovcova J,Hurtig HI,Gross RG,Maetzler W,Goldwurm S,Tolosa E,Borroni B,Pastor P,,Cantwell LB,Han MR,Dillman A,van der Brug MP,Gibbs JR,Cookson MR,Hernandez DG,Singleton AB,Farrer MJ,Yu CE,Golbe LI,Revesz T,Hardy J,Lees AJ,Devlin B,Hakonarson H,M?ller U,Schellenberg GD

Transcriptomic and genetic studies identify IL-33 as a candidate gene for Alzheimer's disease.
Molecular psychiatry14(11)1004-16(2009 Nov)
Chapuis J,Hot D,Hansmannel F,Kerdraon O,Ferreira S,Hubans C,Maurage CA,Huot L,Bensemain F,Laumet G,Ayral AM,Fievet N,Hauw JJ,DeKosky ST,Lemoine Y,Iwatsubo T,Wavrant-Devri?ze F,Dartigues JF,Tzourio C,Bu?e L,Pasquier F,Berr C,Mann D,Lendon C,Alp?rovitch A,Kamboh MI,Amouyel P,Lambert JC

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BMS1 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:

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