Bmp1 cDNA ORF clone,

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gRNAs

The following Bmp1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Bmp1 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
OWh44131	XM_028877661.1 Latest version!	Peromyscus leucopus bone morphogenetic protein 1 (Bmp1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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)

Bmp1 ( XM_028877661.1 ) cDNA ORF clone, -> XP_028733494.1 Peromyscus leucopus bone morphogenetic protein 1 (Bmp1), mRNA.

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CloneID	OWh44131
Clone ID Related Accession (Same CDS sequence)	XM_028877661.1
Accession Version	XM_028877661.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3588bp) 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	2019-04-21
Organism	Peromyscus leucopus(white-footed mouse)
Product	bone morphogenetic protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_021630274.1) 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 :: Peromyscus leucopus Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 5% of CDS bases ##RefSeq-Attributes-END##

ATGGAAGGCT CACACACAGC CCACCTTGGA ATCAAGCGGG TGGCTCCTTG GGTCAGCGGA 
AACCGCATCG GGACAGGAAA GACCTGCAGC AAAGGGTCTT TTGCAGACAA GCAGGAAGCT 
GCTTCTGTTC ATGCCCGACA GGACCGAGTA GAAGCCAGTA GAGGAGAGCG GGAGCGGTGC 
CTCCGGGCAT CCCGGGCCCG CGCCCCCTCC CCGGCCCCGG CCCCAGGCAG CCGATCCCCC 
TCCGGGGCGG GCGGCGCTAC TCTCGCCCTC CCCGCCCGGC TGGCGCGCTT CCCGGCCCGG 
CCGAGCACGG TCCCGGCCCC GAGGGGGGCC GAGCTGGGCG AAAACCCGCC CTCCAGCGAG 
CTCATTTCCC TAAAAGGGGG GGGGGAGTGG GAGGGCGGCG GAAAAAAAGA AAGGGAGCGA 
CCGAGCCGAG GGCGAGGGGA CGCCGGAGCC CAGGGCCGGA GCGAGCCGGG CCGAGCGGGG 
GGCGGGAGAC AGGAAACGGG ACGGGAAGAG GTGGCCGCGG GGGGAGAGCG CCTCCCCTTC 
GCTTCCAGCG CTCCCTTCCC CGTCGCCCCG CTCCCGCGTC CGGGCGCGAC CGCCACCGCT 
GCCCGCCAGC ATGCCCGCGT GGCCCGCCCG CCGCTGCCGC TGCTGTCGCT GCCGCTGCTG 
CTGCTGCTGC TGCTGCTGCT CCCGCGCGCC GGGCGGCCGC TGGACTTGGC CGACTACACC 
TACGACCTGG GCGAGGAGGA CGCCCCGGAG GTCCTCAACT ACAAAGACCC CTGCAAGGCG 
GCTGCCTTTC TCGGGGACAT TGCCCTGGAT GAAGAGGACT TGAGGGCCTT CCGGGTGCAG 
CAGGCTACAG CTCTCAGACA GCAGACAGCC CGAAGGTCAT CCGTCAGAGC TTCAGGAAAC 
TCTTCTGCCC CGGGTGGTCA GAGCACTAGT GGGCAGCCAC AGAGGGAAAC CAGGGGCCGA 
TGGAGAGGCA GGTCTCGGAG CAGGCGGGCA GCAACGTCCA GACCCGAGCG CGTGTGGCCC 
GATGGGGTCA TCCCCTTTGT GATTGGAGGG AATTTCACGG GCAGCCAGAG GGCCGTCTTC 
CGGCAGGCCA TGAGACACTG GGAGAAGCAT ACCTGTGTCA CCTTCTTGGA GCGCACGGAT 
GAGGACAGCT ATATTGTATT CACCTATCGA CCCTGCGGGT GCTGCTCCTA CGTGGGTCGC 
CGAGGTGGGG GCCCCCAGGC CATCTCCATC GGCAAGAACT GTGACAAGTT TGGCATCGTG 
GTCCATGAGC TGGGCCATGT CATTGGCTTC TGGCACGAGC ACACGCGGCC CGACCGGGAC 
CGCCATGTCT CTATTGTACG CGAGAACATA CAGCCAGGGC AGGAGTATAA CTTCCTGAAG 
ATGGAGGTTC AGGAAGTGGA ATCCCTGGGA GAGACCTATG ACTTTGACAG TATCATGCAC 
TATGCCCGGA ACACATTCTC CAGGGGCATC TTCCTGGACA CCATTGTTCC CAAGTATGAG 
GTGAACGGGG TGAAGCCCTC CATCGGCCAA AGGACCAGAC TCAGCAAAGG GGACATCGCT 
CAGGCCCGGA AGCTCTACAA ATGCCCAGCC TGTGGCGAGA CCCTCCAAGA CAGCACCGGC 
AACTTCTCCT CCCCCGAGTA CCCCAACGGC TACTCTGCCC ACATGCACTG TGTATGGCGC 
ATCTCAGTCA CGCCCGGGGA GAAGATCATT CTGAACTTCA CGTCCATGGA CCTGTACCGT 
AGCCGTCTAT GCTGGTATGA CTACGTGGAG GTGCGGGATG GCTTCTGGCG GAAGGCGCCC 
CTCCGAGGCC GGTTCTGTGG GGGCAAACTC CCCGAGCCCA TTGTGTCCAC CGACAGCCGC 
CTCTGGGTAG AATTCCGAAG CAGCAGCAAC TGGGTTGGAA AGGGCTTCTT TGCCGTCTAC 
GAAGCCATCT GCGGTGGCGA TGTGAAAAAG GATAACGGCC ATATCCAGTC GCCTAATTAC 
CCCGACGATT ACCGGCCCAG CAAAGTCTGC ATCTGGCGGA TCCAGGTGTC TGAAGGTTTC 
CACGTGGGCC TCACGTTCCA GTCCTTTGAG ATTGAGCGCC ACGACAGTTG TGCCTACGAC 
TACCTGGAAG TACGTGACGG GCACAGCGAG AGCAGCAACC TCATTGGGCG CTACTGTGGC 
TACGAGAAGC CCGATGACAT CAAAAGCACG TCCAGCCGGC TCTGGCTCAA GTTCGTCTCC 
GACGGGTCCA TTAACAAAGC TGGCTTCGCT GTCAACTTTT TCAAAGAGGT GGATGAGTGC 
TCCAGGCCCA ACCGTGGGGG CTGTGAGCAG CGGTGCCTGA ACACGCTGGG CAGCTACAAG 
TGCAGCTGTG ACCCCGGCTA TGAGCTGGCC CCAGACAAGC GTCGATGTGA GGCTGCCTGC 
GGTGGATTCC TCACCAAGCT CAATGGCTCC ATCACCAGCC CCGGCTGGCC CAAAGAGTAC 
CCTCCCAACA AGAACTGCAT CTGGCAGTTG GTGGCTCCCA CCCAGTACCG TATCTCCCTA 
CAGTTTGACT TCTTCGAGAC TGAGGGCAAT GACGTGTGCA AGTATGACTT CGTGGAGGTG 
CGCAGCGGAC TCACAGCGGA CTCCAAGCTG CACGGCAAGT TCTGTGGCTC CGAGAAGCCA 
GAGGTCATCA CTTCCCAGTA CAACAATATG CGCGTGGAGT TCAAGTCTGA CAATACCGTG 
TCCAAAAAGG GCTTCAAGGC CCACTTCTTC TCAGACAAGG ATGAGTGTTC CAAGGACAAT 
GGCGGCTGCC AGCAGGACTG CGTGAACACC TTTGGCAGCT ACGAGTGTCA GTGTCGAAGT 
GGCTTCATCC TTCACGACAA CAAACATGAC TGCAAGGAAG CTGGCTGTGA ACACAAGCTG 
ACATCCACCA GTGGCACCAT CACCAGCCCC AACTGGCCTG ACAAGTACCC CAGCAAGAAG 
GAGTGTACGT GGGCTATCTC CAGCACCCCT GGGCATCGGG TAAAGCTGAC CTTCGTGGAG 
ATGGATATTG AGTCTCAGCC TGAGTGTGCT TATGACCACC TGGAGGTATT CGATGGGCGT 
GATGCCAAGG CGCCGCTCCT TGGCCGATTC TGTGGCACCA AGAAGCCTGA GCCGGTTCTG 
GCTACGGGCA GCCGCATGTT CTTACGCTTT TACTCAGACA ACTCGGTCCA GAGGAAAGGC 
TTCCAGGCAT CCCACTCCAC AGAGTGTGGT GGCCAAGTGC GGGCAGATGT GAAGACCAAA 
GACCTTTATT CCCACGCCCA GTTTGGTGAT AACAACTACC CTGGAGGGGT GGACTGTGAG 
TGGGTCATTG TGGCCGAGGA GGGCTATGGT GTGGAGTTGG TGTTCCAGAC CTTCGAGGTG 
GAGGAGGAGA CGGACTGTGG TTATGACTAC ATGGAACTCT TCGATGGCTA CGACAACACA 
GCTCCCAGGC TGGGGCGCTA CTGTGGCTCT GGGCCTCCTG AGGAAGTGTA CTCGGCCGGA 
GATTCCGTCC TGGTCAAGTT CCACTCTGAC GACACCATCT CCAAGAAAGG CTTCCACCTG 
CGGTATACAA GCACCAAGTT CCAGGACACA CTCCACAGCA GGAAGTGA

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

RefSeq	XP_028733494.1
CDS	1..3588
Translation	MEGSHTAHLGIKRVAPWVSGNRIGTGKTCSKGSFADKQEAASVHARQDRVEASRGERERCLRASRARAPSPAPAPGSRSPSGAGGATLALPARLARFPARPSTVPAPRGAELGENPPSSELISLKGGGEWEGGGKKERERPSRGRGDAGAQGRSEPGRAGGGRQETGREEVAAGGERLPFASSAPFPVAPLPRPGATATAARQHARVARPPLPLLSLPLLLLLLLLLPRAGRPLDLADYTYDLGEEDAPEVLNYKDPCKAAAFLGDIALDEEDLRAFRVQQATALRQQTARRSSVRASGNSSAPGGQSTSGQPQRETRGRWRGRSRSRRAATSRPERVWPDGVIPFVIGGNFTGSQRAVFRQAMRHWEKHTCVTFLERTDEDSYIVFTYRPCGCCSYVGRRGGGPQAISIGKNCDKFGIVVHELGHVIGFWHEHTRPDRDRHVSIVRENIQPGQEYNFLKMEVQEVESLGETYDFDSIMHYARNTFSRGIFLDTIVPKYEVNGVKPSIGQRTRLSKGDIAQARKLYKCPACGETLQDSTGNFSSPEYPNGYSAHMHCVWRISVTPGEKIILNFTSMDLYRSRLCWYDYVEVRDGFWRKAPLRGRFCGGKLPEPIVSTDSRLWVEFRSSSNWVGKGFFAVYEAICGGDVKKDNGHIQSPNYPDDYRPSKVCIWRIQVSEGFHVGLTFQSFEIERHDSCAYDYLEVRDGHSESSNLIGRYCGYEKPDDIKSTSSRLWLKFVSDGSINKAGFAVNFFKEVDECSRPNRGGCEQRCLNTLGSYKCSCDPGYELAPDKRRCEAACGGFLTKLNGSITSPGWPKEYPPNKNCIWQLVAPTQYRISLQFDFFETEGNDVCKYDFVEVRSGLTADSKLHGKFCGSEKPEVITSQYNNMRVEFKSDNTVSKKGFKAHFFSDKDECSKDNGGCQQDCVNTFGSYECQCRSGFILHDNKHDCKEAGCEHKLTSTSGTITSPNWPDKYPSKKECTWAISSTPGHRVKLTFVEMDIESQPECAYDHLEVFDGRDAKAPLLGRFCGTKKPEPVLATGSRMFLRFYSDNSVQRKGFQASHSTECGGQVRADVKTKDLYSHAQFGDNNYPGGVDCEWVIVAEEGYGVELVFQTFEVEEETDCGYDYMELFDGYDNTAPRLGRYCGSGPPEEVYSAGDSVLVKFHSDDTISKKGFHLRYTSTKFQDTLHSRK

Target ORF information:

RefSeq Version	XM_028877661.1
Organism	Peromyscus leucopus(white-footed mouse)
Definition	Peromyscus leucopus bone morphogenetic protein 1 (Bmp1), mRNA.

Target ORF information:

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

XM_028877661.1

ORF Insert Sequence:

ATGGAAGGCT CACACACAGC CCACCTTGGA ATCAAGCGGG TGGCTCCTTG GGTCAGCGGA 
AACCGCATCG GGACAGGAAA GACCTGCAGC AAAGGGTCTT TTGCAGACAA GCAGGAAGCT 
GCTTCTGTTC ATGCCCGACA GGACCGAGTA GAAGCCAGTA GAGGAGAGCG GGAGCGGTGC 
CTCCGGGCAT CCCGGGCCCG CGCCCCCTCC CCGGCCCCGG CCCCAGGCAG CCGATCCCCC 
TCCGGGGCGG GCGGCGCTAC TCTCGCCCTC CCCGCCCGGC TGGCGCGCTT CCCGGCCCGG 
CCGAGCACGG TCCCGGCCCC GAGGGGGGCC GAGCTGGGCG AAAACCCGCC CTCCAGCGAG 
CTCATTTCCC TAAAAGGGGG GGGGGAGTGG GAGGGCGGCG GAAAAAAAGA AAGGGAGCGA 
CCGAGCCGAG GGCGAGGGGA CGCCGGAGCC CAGGGCCGGA GCGAGCCGGG CCGAGCGGGG 
GGCGGGAGAC AGGAAACGGG ACGGGAAGAG GTGGCCGCGG GGGGAGAGCG CCTCCCCTTC 
GCTTCCAGCG CTCCCTTCCC CGTCGCCCCG CTCCCGCGTC CGGGCGCGAC CGCCACCGCT 
GCCCGCCAGC ATGCCCGCGT GGCCCGCCCG CCGCTGCCGC TGCTGTCGCT GCCGCTGCTG 
CTGCTGCTGC TGCTGCTGCT CCCGCGCGCC GGGCGGCCGC TGGACTTGGC CGACTACACC 
TACGACCTGG GCGAGGAGGA CGCCCCGGAG GTCCTCAACT ACAAAGACCC CTGCAAGGCG 
GCTGCCTTTC TCGGGGACAT TGCCCTGGAT GAAGAGGACT TGAGGGCCTT CCGGGTGCAG 
CAGGCTACAG CTCTCAGACA GCAGACAGCC CGAAGGTCAT CCGTCAGAGC TTCAGGAAAC 
TCTTCTGCCC CGGGTGGTCA GAGCACTAGT GGGCAGCCAC AGAGGGAAAC CAGGGGCCGA 
TGGAGAGGCA GGTCTCGGAG CAGGCGGGCA GCAACGTCCA GACCCGAGCG CGTGTGGCCC 
GATGGGGTCA TCCCCTTTGT GATTGGAGGG AATTTCACGG GCAGCCAGAG GGCCGTCTTC 
CGGCAGGCCA TGAGACACTG GGAGAAGCAT ACCTGTGTCA CCTTCTTGGA GCGCACGGAT 
GAGGACAGCT ATATTGTATT CACCTATCGA CCCTGCGGGT GCTGCTCCTA CGTGGGTCGC 
CGAGGTGGGG GCCCCCAGGC CATCTCCATC GGCAAGAACT GTGACAAGTT TGGCATCGTG 
GTCCATGAGC TGGGCCATGT CATTGGCTTC TGGCACGAGC ACACGCGGCC CGACCGGGAC 
CGCCATGTCT CTATTGTACG CGAGAACATA CAGCCAGGGC AGGAGTATAA CTTCCTGAAG 
ATGGAGGTTC AGGAAGTGGA ATCCCTGGGA GAGACCTATG ACTTTGACAG TATCATGCAC 
TATGCCCGGA ACACATTCTC CAGGGGCATC TTCCTGGACA CCATTGTTCC CAAGTATGAG 
GTGAACGGGG TGAAGCCCTC CATCGGCCAA AGGACCAGAC TCAGCAAAGG GGACATCGCT 
CAGGCCCGGA AGCTCTACAA ATGCCCAGCC TGTGGCGAGA CCCTCCAAGA CAGCACCGGC 
AACTTCTCCT CCCCCGAGTA CCCCAACGGC TACTCTGCCC ACATGCACTG TGTATGGCGC 
ATCTCAGTCA CGCCCGGGGA GAAGATCATT CTGAACTTCA CGTCCATGGA CCTGTACCGT 
AGCCGTCTAT GCTGGTATGA CTACGTGGAG GTGCGGGATG GCTTCTGGCG GAAGGCGCCC 
CTCCGAGGCC GGTTCTGTGG GGGCAAACTC CCCGAGCCCA TTGTGTCCAC CGACAGCCGC 
CTCTGGGTAG AATTCCGAAG CAGCAGCAAC TGGGTTGGAA AGGGCTTCTT TGCCGTCTAC 
GAAGCCATCT GCGGTGGCGA TGTGAAAAAG GATAACGGCC ATATCCAGTC GCCTAATTAC 
CCCGACGATT ACCGGCCCAG CAAAGTCTGC ATCTGGCGGA TCCAGGTGTC TGAAGGTTTC 
CACGTGGGCC TCACGTTCCA GTCCTTTGAG ATTGAGCGCC ACGACAGTTG TGCCTACGAC 
TACCTGGAAG TACGTGACGG GCACAGCGAG AGCAGCAACC TCATTGGGCG CTACTGTGGC 
TACGAGAAGC CCGATGACAT CAAAAGCACG TCCAGCCGGC TCTGGCTCAA GTTCGTCTCC 
GACGGGTCCA TTAACAAAGC TGGCTTCGCT GTCAACTTTT TCAAAGAGGT GGATGAGTGC 
TCCAGGCCCA ACCGTGGGGG CTGTGAGCAG CGGTGCCTGA ACACGCTGGG CAGCTACAAG 
TGCAGCTGTG ACCCCGGCTA TGAGCTGGCC CCAGACAAGC GTCGATGTGA GGCTGCCTGC 
GGTGGATTCC TCACCAAGCT CAATGGCTCC ATCACCAGCC CCGGCTGGCC CAAAGAGTAC 
CCTCCCAACA AGAACTGCAT CTGGCAGTTG GTGGCTCCCA CCCAGTACCG TATCTCCCTA 
CAGTTTGACT TCTTCGAGAC TGAGGGCAAT GACGTGTGCA AGTATGACTT CGTGGAGGTG 
CGCAGCGGAC TCACAGCGGA CTCCAAGCTG CACGGCAAGT TCTGTGGCTC CGAGAAGCCA 
GAGGTCATCA CTTCCCAGTA CAACAATATG CGCGTGGAGT TCAAGTCTGA CAATACCGTG 
TCCAAAAAGG GCTTCAAGGC CCACTTCTTC TCAGACAAGG ATGAGTGTTC CAAGGACAAT 
GGCGGCTGCC AGCAGGACTG CGTGAACACC TTTGGCAGCT ACGAGTGTCA GTGTCGAAGT 
GGCTTCATCC TTCACGACAA CAAACATGAC TGCAAGGAAG CTGGCTGTGA ACACAAGCTG 
ACATCCACCA GTGGCACCAT CACCAGCCCC AACTGGCCTG ACAAGTACCC CAGCAAGAAG 
GAGTGTACGT GGGCTATCTC CAGCACCCCT GGGCATCGGG TAAAGCTGAC CTTCGTGGAG 
ATGGATATTG AGTCTCAGCC TGAGTGTGCT TATGACCACC TGGAGGTATT CGATGGGCGT 
GATGCCAAGG CGCCGCTCCT TGGCCGATTC TGTGGCACCA AGAAGCCTGA GCCGGTTCTG 
GCTACGGGCA GCCGCATGTT CTTACGCTTT TACTCAGACA ACTCGGTCCA GAGGAAAGGC 
TTCCAGGCAT CCCACTCCAC AGAGTGTGGT GGCCAAGTGC GGGCAGATGT GAAGACCAAA 
GACCTTTATT CCCACGCCCA GTTTGGTGAT AACAACTACC CTGGAGGGGT GGACTGTGAG 
TGGGTCATTG TGGCCGAGGA GGGCTATGGT GTGGAGTTGG TGTTCCAGAC CTTCGAGGTG 
GAGGAGGAGA CGGACTGTGG TTATGACTAC ATGGAACTCT TCGATGGCTA CGACAACACA 
GCTCCCAGGC TGGGGCGCTA CTGTGGCTCT GGGCCTCCTG AGGAAGTGTA CTCGGCCGGA 
GATTCCGTCC TGGTCAAGTT CCACTCTGAC GACACCATCT CCAAGAAAGG CTTCCACCTG 
CGGTATACAA GCACCAAGTT CCAGGACACA CTCCACAGCA GGAAGTGA