Bmp2k cDNA ORF clone,

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gRNAs

The following Bmp2k gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Bmp2k 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
OYe71679	XM_027939775.1 Latest version!	Marmota flaviventris BMP2 inducible kinase (Bmp2k), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

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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)

Bmp2k ( XM_027939775.1 ) cDNA ORF clone, -> XP_027795576.1 Marmota flaviventris BMP2 inducible kinase (Bmp2k), mRNA.

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CloneID	OYe71679
Clone ID Related Accession (Same CDS sequence)	XM_027939775.1
Accession Version	XM_027939775.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3393bp) 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	2019-01-26
Organism	Marmota flaviventris(yellow-bellied marmot)
Product	BMP-2-inducible protein kinase
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_020963144.1) 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 :: Marmota flaviventris Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGAAGT TCTCTCGGAT GCCCAAGTCG GAGGGAAGCG GCGGCGGCGG AGCAGCGGGT 
GGCGTGGCGG CCGGGGCCGG CTGCGGCTCT GGCGGCTCGT CCGTGGGTGT CCGGGTGTTC 
TCAGTCGGCC GCTACCAGGT CACCCTGGAG GAGTCGCTGG CCGAAGGTGG ATTCTCCACA 
GTTTTTCTGG TGCGTACTAA TGGTGGAGTT CGATGTGCAT TGAAGAGAAT GTATGTCAAT 
AACATGCCAG ACCTCAACAT TTGTAAAAGG GAAATTACAA TTATGAAAGA GCTCTCTGGT 
CATAAAAATA TTGTGGGCTA TTTGGACTGT GCTGTTAATT CAATTAGCGA TAATGTATGG 
GAAGTACTTA TTCTGATGGA ATATTGTCGA GCCGGGCAGG TAGTGAATCA GATGAATAAG 
AAACTGCAGA CAGGTTTTAC AGAACCAGAA GTGTTACAGA TATTCTGTGA TACCTGTGAA 
GCTGTTGCAA GGTTGCATCA GTGTAAGACT CCTATAATTC ACCGGGATCT GAAGGTAGAA 
AATATTTTGT TAAATGATGG TGGAAATTAC GTACTTTGTG ACTTTGGCAG TGCCACTAAT 
AAATTTCTTA ATCCTCAAAA GGATGGAGTT AATGTAGTAG AAGAAGAAAT TAAAAAGTAT 
ACGACTCTGT CATACAGAGC CCCTGAAATG ATCAACCTTT ATGGAGGGAA ACCCATTACT 
ACCAAGGCTG ATATCTGGGC CCTGGGATGT TTACTATATA AACTTTGTTT CTTCACTCTT 
CCTTTTGGTG ATAGTCAGGT TGCTATCTGT GATGGCAGCT TTACCATCCC AGATAATTCT 
CGCTACTCCC ACAACATACA TTGCTTAATA AGGTTCATGC TTGAACCAGA TCCAGAGCAT 
AGACCTGATA TATTTCAAGT GTCCTATTTT GCATTTAAAT TTGCCAAAAA GGATTGTCCG 
ATCTCCAATA TCAATAACTC TTCTGTTCCT TCAGCTCTTC CTGAACCATT GACCGCTAGT 
GAAGCAGCTG CTAGAAAAAG CCAAACAAAA GCCAGAATAA CAGATATCAT TGGACCAACA 
GAAACCTCAA TTGCACCAAG ACAAAGACCA AAGGCCAACT CTACTACTGC CACTCCCAGT 
GTACTGACCA TTCAAAGTTC AGCAACCCCT GTTAAAGTCC CTGCTCCTGG TGAATTTGGT 
AACCACAGAC CAAAAGGATC ACTGAGACCT GGAAATGACC CTGAAATCTT ATTGGGTCAG 
GGGCCCCCAC AGCATCCTCC ACAGCAGCAT AGAGTACTTC AACAACTACA ACAGGGAGAT 
TGGAGATTAC AGCAATTTCA TTTACAGCAT CATCACCCTC ACCAGCAGCA GCAGCAACAT 
CAGCTACTTC AGGATGCTTA TATGCAGCAG TATCAGCATG CAATGCATCA ACAACATTTA 
CTCCAGCAAC AATTTTTAAT GCATTCAGTG TATCAACCGC AACCTCCTGC ATCACAGTAT 
CCTCCAATGA TGCAGCAGTA TCAGCAGACT TTCTTGCAGC AGCAGATGCT AGCTCAACAT 
CAGCAATCCC AACAGCAGGC ATCACCTGAA TATCTTACTT CCCCTCAAGA GTTTTCACCA 
GCCTTAGTTT CCTACACTTC ATCACTTCCA GCTCAGGTTG GAACCATAAT GGACTCCTCT 
TATAGTGCTA GGCCAGTTGC TGAGAAAGAG GCAGTTGCAA ATTTTACAAA TCAGAAGAAC 
ATCAGTAACC CACCTGATAT GTCAGGGTGG AATCCTTTTG GAGAGGATAA TTTCTCCAAG 
TTAACAGAAG AGGAACTGTT GGACAGAGAA TTTGACCTTC TAAGATCAAA TAGGCTCGAG 
GAGAGAGCAT CCTCAGATAA GAATATAGAA CCACTTTCTG CTCCACATAA TCATCCTCCA 
GAAGATCCTT TTGGTTCTGT TCCTTTCATT TCTCACTCAG GTTCTCCTGA AAAGAAAGGT 
GAATATCCAT CCATGAATCA AGAAAATAGC ACCAGAAACC CTATCAAGAA TGGAAAAGCA 
AGTCCAGTAT CTAAAGATCA GCGGGTTGGA AAGAAAACCT CAGAGAATTT ATCAGTACGG 
GGTCATGTAC AAAAGGGGAA TGATGACTCT GAAAGTGATT TTGAGTCAGA TCCCCCTTCT 
CCTAAGAGCA GTGAAGAGGA AGAGCAAGAC GATGAAGAAG TTCCTGGAGA ACAAGGAGAT 
TTTAATGATG ATGATACTGA ACCAGAAAAT CTGGGTCATA GGCCTCTCCT CATGGACTCT 
GAAGATGAGG AAGAAGAAGA GAAACACAGC TCTGATTCTG AGTATGAGCA GGCCAAAGCA 
AAGTACAGCA GCGTGAGCCC TGTCTACAGA GACAAATCTG GCAGTGGAAC AACCCAAGAT 
CCTAATGCAG CACTCCTTGC CCTAACACAT GTATCCTCTG ATGTTGGGAG GGAGACTCCC 
AAACAGGAAT TTGACGTATT TGGTGCTGTT CCCTTCTTCG CAGTGCGTGC TCAACAGCCC 
CAGCAAGGAG AGAATGAAAA GAACCTTTCT CAACAGATGT TTCCTACTGT AGGACTAGAG 
CAAGAGGAAT TTGATGTCTT CACTAAAGCA CCCTTCAGCA AGAAGGTGAA TGTCCAGGAC 
TGCCCTGTAG TGGGGTCTGA GGCACATGCT CTTCCTGGTT GTCCCAAAAG TGTAGATATA 
TTTGGCTCCA CTCCTTTTCA GCCTTTTCCC ACATCAACAA GTAAAAGCGA AAGTAAGGAG 
GACCTTTTTG GGCTTGTGCC CTTTGAGGAG ATAACCGGAA GTCAGCAGCA AAAAGTCAAA 
CAGCGCAGCT TACAGAAACT GTCCTCTCGC CAGAGGCGCA CAAAGCAGGA TATGTCCAAA 
AGTAACGGGA AACGGCATCA CGGCACACCA ACTAGCGTGA AGAAGACATT GAAGCCTATC 
TACCGCACTC CAGAGAGGGC TCGCAGGCAC AAGAAAGTGG GCCGCAGAGA CTCTCAAAGC 
AGCAATGAAT TTTTAACCAT CTCAGACTCC AAGGAGAACA TCAGTGTTGC ACTGACTGAT 
GGGAAAGACA GAGGGAGTGT CCTACAACCA GAGGAGAATC TGTTGGATCC CTTTGGTGCC 
AAGCCCTTCC ATCCTCCAGA CCTATCATGG CACCAGCCAC ATCAGGGCCT GAGTGACATC 
CGTGCTGATC ACAATACTGT CCTGCCTGGG CGGCCAAGAC AGAATTCACT ACATGGGTCA 
TTCCATAGTG CAGATGCGTT GAAAATGGAT GACTTTGGTG CAGTGCCCTT TACAGAACTT 
GTGGTGCAAA GCATCCCGCC ACATCAGTCC CAACAGTCCC AACCAGTTGA ATTAGACCCA 
TTTGGTGCTG CTCCATTTCC TTCTAAACAG TAG

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

RefSeq	XP_027795576.1
CDS	1..3393
Translation	MKKFSRMPKSEGSGGGGAAGGVAAGAGCGSGGSSVGVRVFSVGRYQVTLEESLAEGGFSTVFLVRTNGGVRCALKRMYVNNMPDLNICKREITIMKELSGHKNIVGYLDCAVNSISDNVWEVLILMEYCRAGQVVNQMNKKLQTGFTEPEVLQIFCDTCEAVARLHQCKTPIIHRDLKVENILLNDGGNYVLCDFGSATNKFLNPQKDGVNVVEEEIKKYTTLSYRAPEMINLYGGKPITTKADIWALGCLLYKLCFFTLPFGDSQVAICDGSFTIPDNSRYSHNIHCLIRFMLEPDPEHRPDIFQVSYFAFKFAKKDCPISNINNSSVPSALPEPLTASEAAARKSQTKARITDIIGPTETSIAPRQRPKANSTTATPSVLTIQSSATPVKVPAPGEFGNHRPKGSLRPGNDPEILLGQGPPQHPPQQHRVLQQLQQGDWRLQQFHLQHHHPHQQQQQHQLLQDAYMQQYQHAMHQQHLLQQQFLMHSVYQPQPPASQYPPMMQQYQQTFLQQQMLAQHQQSQQQASPEYLTSPQEFSPALVSYTSSLPAQVGTIMDSSYSARPVAEKEAVANFTNQKNISNPPDMSGWNPFGEDNFSKLTEEELLDREFDLLRSNRLEERASSDKNIEPLSAPHNHPPEDPFGSVPFISHSGSPEKKGEYPSMNQENSTRNPIKNGKASPVSKDQRVGKKTSENLSVRGHVQKGNDDSESDFESDPPSPKSSEEEEQDDEEVPGEQGDFNDDDTEPENLGHRPLLMDSEDEEEEEKHSSDSEYEQAKAKYSSVSPVYRDKSGSGTTQDPNAALLALTHVSSDVGRETPKQEFDVFGAVPFFAVRAQQPQQGENEKNLSQQMFPTVGLEQEEFDVFTKAPFSKKVNVQDCPVVGSEAHALPGCPKSVDIFGSTPFQPFPTSTSKSESKEDLFGLVPFEEITGSQQQKVKQRSLQKLSSRQRRTKQDMSKSNGKRHHGTPTSVKKTLKPIYRTPERARRHKKVGRRDSQSSNEFLTISDSKENISVALTDGKDRGSVLQPEENLLDPFGAKPFHPPDLSWHQPHQGLSDIRADHNTVLPGRPRQNSLHGSFHSADALKMDDFGAVPFTELVVQSIPPHQSQQSQPVELDPFGAAPFPSKQ

Target ORF information:

RefSeq Version	XM_027939775.1
Organism	Marmota flaviventris(yellow-bellied marmot)
Definition	Marmota flaviventris BMP2 inducible kinase (Bmp2k), mRNA.

Target ORF information:

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

XM_027939775.1

ORF Insert Sequence:

ATGAAGAAGT TCTCTCGGAT GCCCAAGTCG GAGGGAAGCG GCGGCGGCGG AGCAGCGGGT 
GGCGTGGCGG CCGGGGCCGG CTGCGGCTCT GGCGGCTCGT CCGTGGGTGT CCGGGTGTTC 
TCAGTCGGCC GCTACCAGGT CACCCTGGAG GAGTCGCTGG CCGAAGGTGG ATTCTCCACA 
GTTTTTCTGG TGCGTACTAA TGGTGGAGTT CGATGTGCAT TGAAGAGAAT GTATGTCAAT 
AACATGCCAG ACCTCAACAT TTGTAAAAGG GAAATTACAA TTATGAAAGA GCTCTCTGGT 
CATAAAAATA TTGTGGGCTA TTTGGACTGT GCTGTTAATT CAATTAGCGA TAATGTATGG 
GAAGTACTTA TTCTGATGGA ATATTGTCGA GCCGGGCAGG TAGTGAATCA GATGAATAAG 
AAACTGCAGA CAGGTTTTAC AGAACCAGAA GTGTTACAGA TATTCTGTGA TACCTGTGAA 
GCTGTTGCAA GGTTGCATCA GTGTAAGACT CCTATAATTC ACCGGGATCT GAAGGTAGAA 
AATATTTTGT TAAATGATGG TGGAAATTAC GTACTTTGTG ACTTTGGCAG TGCCACTAAT 
AAATTTCTTA ATCCTCAAAA GGATGGAGTT AATGTAGTAG AAGAAGAAAT TAAAAAGTAT 
ACGACTCTGT CATACAGAGC CCCTGAAATG ATCAACCTTT ATGGAGGGAA ACCCATTACT 
ACCAAGGCTG ATATCTGGGC CCTGGGATGT TTACTATATA AACTTTGTTT CTTCACTCTT 
CCTTTTGGTG ATAGTCAGGT TGCTATCTGT GATGGCAGCT TTACCATCCC AGATAATTCT 
CGCTACTCCC ACAACATACA TTGCTTAATA AGGTTCATGC TTGAACCAGA TCCAGAGCAT 
AGACCTGATA TATTTCAAGT GTCCTATTTT GCATTTAAAT TTGCCAAAAA GGATTGTCCG 
ATCTCCAATA TCAATAACTC TTCTGTTCCT TCAGCTCTTC CTGAACCATT GACCGCTAGT 
GAAGCAGCTG CTAGAAAAAG CCAAACAAAA GCCAGAATAA CAGATATCAT TGGACCAACA 
GAAACCTCAA TTGCACCAAG ACAAAGACCA AAGGCCAACT CTACTACTGC CACTCCCAGT 
GTACTGACCA TTCAAAGTTC AGCAACCCCT GTTAAAGTCC CTGCTCCTGG TGAATTTGGT 
AACCACAGAC CAAAAGGATC ACTGAGACCT GGAAATGACC CTGAAATCTT ATTGGGTCAG 
GGGCCCCCAC AGCATCCTCC ACAGCAGCAT AGAGTACTTC AACAACTACA ACAGGGAGAT 
TGGAGATTAC AGCAATTTCA TTTACAGCAT CATCACCCTC ACCAGCAGCA GCAGCAACAT 
CAGCTACTTC AGGATGCTTA TATGCAGCAG TATCAGCATG CAATGCATCA ACAACATTTA 
CTCCAGCAAC AATTTTTAAT GCATTCAGTG TATCAACCGC AACCTCCTGC ATCACAGTAT 
CCTCCAATGA TGCAGCAGTA TCAGCAGACT TTCTTGCAGC AGCAGATGCT AGCTCAACAT 
CAGCAATCCC AACAGCAGGC ATCACCTGAA TATCTTACTT CCCCTCAAGA GTTTTCACCA 
GCCTTAGTTT CCTACACTTC ATCACTTCCA GCTCAGGTTG GAACCATAAT GGACTCCTCT 
TATAGTGCTA GGCCAGTTGC TGAGAAAGAG GCAGTTGCAA ATTTTACAAA TCAGAAGAAC 
ATCAGTAACC CACCTGATAT GTCAGGGTGG AATCCTTTTG GAGAGGATAA TTTCTCCAAG 
TTAACAGAAG AGGAACTGTT GGACAGAGAA TTTGACCTTC TAAGATCAAA TAGGCTCGAG 
GAGAGAGCAT CCTCAGATAA GAATATAGAA CCACTTTCTG CTCCACATAA TCATCCTCCA 
GAAGATCCTT TTGGTTCTGT TCCTTTCATT TCTCACTCAG GTTCTCCTGA AAAGAAAGGT 
GAATATCCAT CCATGAATCA AGAAAATAGC ACCAGAAACC CTATCAAGAA TGGAAAAGCA 
AGTCCAGTAT CTAAAGATCA GCGGGTTGGA AAGAAAACCT CAGAGAATTT ATCAGTACGG 
GGTCATGTAC AAAAGGGGAA TGATGACTCT GAAAGTGATT TTGAGTCAGA TCCCCCTTCT 
CCTAAGAGCA GTGAAGAGGA AGAGCAAGAC GATGAAGAAG TTCCTGGAGA ACAAGGAGAT 
TTTAATGATG ATGATACTGA ACCAGAAAAT CTGGGTCATA GGCCTCTCCT CATGGACTCT 
GAAGATGAGG AAGAAGAAGA GAAACACAGC TCTGATTCTG AGTATGAGCA GGCCAAAGCA 
AAGTACAGCA GCGTGAGCCC TGTCTACAGA GACAAATCTG GCAGTGGAAC AACCCAAGAT 
CCTAATGCAG CACTCCTTGC CCTAACACAT GTATCCTCTG ATGTTGGGAG GGAGACTCCC 
AAACAGGAAT TTGACGTATT TGGTGCTGTT CCCTTCTTCG CAGTGCGTGC TCAACAGCCC 
CAGCAAGGAG AGAATGAAAA GAACCTTTCT CAACAGATGT TTCCTACTGT AGGACTAGAG 
CAAGAGGAAT TTGATGTCTT CACTAAAGCA CCCTTCAGCA AGAAGGTGAA TGTCCAGGAC 
TGCCCTGTAG TGGGGTCTGA GGCACATGCT CTTCCTGGTT GTCCCAAAAG TGTAGATATA 
TTTGGCTCCA CTCCTTTTCA GCCTTTTCCC ACATCAACAA GTAAAAGCGA AAGTAAGGAG 
GACCTTTTTG GGCTTGTGCC CTTTGAGGAG ATAACCGGAA GTCAGCAGCA AAAAGTCAAA 
CAGCGCAGCT TACAGAAACT GTCCTCTCGC CAGAGGCGCA CAAAGCAGGA TATGTCCAAA 
AGTAACGGGA AACGGCATCA CGGCACACCA ACTAGCGTGA AGAAGACATT GAAGCCTATC 
TACCGCACTC CAGAGAGGGC TCGCAGGCAC AAGAAAGTGG GCCGCAGAGA CTCTCAAAGC 
AGCAATGAAT TTTTAACCAT CTCAGACTCC AAGGAGAACA TCAGTGTTGC ACTGACTGAT 
GGGAAAGACA GAGGGAGTGT CCTACAACCA GAGGAGAATC TGTTGGATCC CTTTGGTGCC 
AAGCCCTTCC ATCCTCCAGA CCTATCATGG CACCAGCCAC ATCAGGGCCT GAGTGACATC 
CGTGCTGATC ACAATACTGT CCTGCCTGGG CGGCCAAGAC AGAATTCACT ACATGGGTCA 
TTCCATAGTG CAGATGCGTT GAAAATGGAT GACTTTGGTG CAGTGCCCTT TACAGAACTT 
GTGGTGCAAA GCATCCCGCC ACATCAGTCC CAACAGTCCC AACCAGTTGA ATTAGACCCA 
TTTGGTGCTG CTCCATTTCC TTCTAAACAG TAG