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
OEm54483	XM_026122337.1 Latest version!	Dromaius novaehollandiae bone morphogenetic protein 1 (BMP1), 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)

BMP1 ( XM_026122337.1 ) cDNA ORF clone, -> XP_025978122.1 Dromaius novaehollandiae bone morphogenetic protein 1 (BMP1), mRNA.

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CloneID	OEm54483
Clone ID Related Accession (Same CDS sequence)	XM_026122337.1
Accession Version	XM_026122337.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3012bp) 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	2018-08-08
Organism	Dromaius novaehollandiae(emu)
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_020454004.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Dromaius novaehollandiae 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## ##RefSeq-Attributes-START## ab initio :: 7% of CDS bases ##RefSeq-Attributes-END##

ATGCGCTCGG CTGCTATGGA GCACCGCCAC CGCCAGCCCC GACGCTCGCG GGAGATGAGC 
AAGTCCCGGC AGCACGGGAG CAGCTACCGC CAGTATCCTC AGGGAAATTC GCAGTGTCTC 
GGGAATTTTG GCAAGCGGAT TCCCACCCTC CGCCCCGCTT CACCTCCTAT CACCGGAGCA 
GCCGGAGCCG TCACCGTCGT GCTCGCGCAC GTGGAGCCCG GTGCCCCGCG GTCCCCAGCT 
GCCTTCCTGG GAGACATCGC CCTGGACGAG GAGGACCTGC GGCTCTTCCA GGTGGACCGC 
GTCGTGGACC TGTCGCACCA CACCGTCCGG CGGCTGCCCG CCAACTCCTC AGGCAGTGCC 
ACCCCGCAGA GCGGCCGCGG CACACGGGGC CGGCGGGCAC GGAGCCGCCG CGCCGCCACG 
TCCCGCCCCG AGCGCGTGTG GCCCGACGGC GTCATCCCCT ACGTGATCAG CGGCAACTTC 
AGCGGCAGCC AGCGGGCCAT CTTCCGGCAG GCCATGCGGC ACTGGGAGAA GCACACCTGC 
GTCACCTTCC TGGAGCGCAA CGACGAGGAC AGCTACATCG TCTTCACCTA CCGGCCCTGC 
GGGTGCTGCT CCTACGTGGG CCGCAGAGGA GGGGGGCCCC AGGCCATCTC CATCGGCAAA 
AACTGCGACA AATTCGGCAT CGTGGTGCAC GAGCTGGGCC ACGTCATCGG CTTCTGGCAC 
GAGCACACGC GCCCCGACCG GGACGACCAC GTCTCCATCA TCCGGGAGAA CATCCAGCCA 
GGGCAGGAGT ACAACTTCTT GAAGATGGAG CCGGAGGAGG TGGAGTCGCT GGGCGAGACG 
TACGATTTCG ACAGCATCAT GCACTACGCC AGGAACACCT TCTCCAGGGG CATTTTCCTC 
GACACCATCC TGCCCAAGTA TGACGTGAAC GGGGTCCGGC CGGCCATCGG CCAGCGCACG 
CGTCTCAGCA AAGGGGACAT CGCCCAGGCC CGCAAGCTCT ACCGCTGCCC GGCCTGCGGC 
GAGACGCTCC AGGACAGCCA GGGCAACTTC TCCTCGCCCG AGTTCCCCAA CGGATACTCT 
GCCCACATGC ACTGCGTCTG GAGGATCTCC GTCACCCCCG GAGAAAAGAT CATCCTGAAC 
TTCACCACCC TGGACCTCTA CCGAAGCCGG CTGTGCTGGT ACGATTACGT GGAGGTGAGA 
GACGGGTTCT GGAGAAAGGC CACGCTGCGA GGCAGGTTCT GCGGGAGCAA GCTGCCGGAG 
CCCATCGTCT CCACCGACAG CCGCCTCTGG GTCGAGTTTC GCAGCAGCAG CAACTGGGTG 
GGCAAAGGGT TCTTCGCCGT CTATGAAGCC ATCTGCGGCG GGGAAGTGAA GAAGGACAAC 
GGCCACATCC AGTCTCCCAA CTACCCCGAC GACTACCGGC CCAGCAAGGT GTGCGTCTGG 
AAGATCACCG TCTCCGAGGG CTTCCACGTG GGCCTGACCT TCCAGTCCTT CGAGATCGAG 
CGCCACGACA GCTGCGCCTA CGACTACCTG GAGATCCGGG ACGGCAGCAG CGAGTCGAGC 
AGCCTCATCG GGCGCTACTG CGGCTACGAC AAGCCCGACG ACATCAAGAG CACCTCCAAC 
AAGCTCTGGA TGAAGTTCGT CTCCGACGGC TCCATCAACA AAGCCGGCTT CGCCGTCAAC 
TTCTTTAAAG AGGTGGACGA GTGCTCGCGG CCCAACAACG GCGGCTGCGA GCAGCGCTGC 
GTGAACACCT TGGGCAGCTA CAAGTGCGCC TGCGACCCGG GCTACGAGCT GGCCTCCGAC 
AAGCGCCGCT GCGAGGCCGC CTGCGGAGGT TTCCTCACCA AGCTCAACGG CTCCATCACC 
AGCCCCGGGT GGCCCAAGGA GTACCCCCCC AACAAGAACT GCATCTGGCA GCTGGTGGCC 
CCCACGCAGT ACCGCATCTC CCTGCAGTTC GACTTCTTCG AGACCGAGGG CAACGACGTT 
TGCAAGTACG ACTTCGTGGA GGTGCGCAGC GGGCTGACCG CCGACTCCAA GCTGCACGGC 
AAGTTCTGCG GCGCCGAGAA GCCCGACGTC ATCACCTCCC AGTACAACAA CATGCGGATC 
GAGTTCAAGT CCGACAACAC CGTCTCCAAG AAGGGCTTCA AAGCCCATTT CTTCTCAGAC 
AAGGACGAGT GCTCCAAGAA CAACGGCGGC TGCCAGCACG AGTGCCTCAA CTCCTTCGGC 
AGCTACGAGT GCCAGTGCCG CAGCGGCTTC GTGCTGCACG ACAACAAGCA CGACTGCAAG 
GAAGCCGGCT GCGACCACAA GGTGACATCC ATCTCGGGCA CCATCACCAG CCCCAACTGG 
CCCGACAAGT ACCCCAGCAA GAAGGAGTGC ACCTGGGCCA TCGCCACCAC CGCGGGGCAC 
CGCGTCAAGC TGACCTTCGC CGAGCTGGAC ATCGAGGCGC AGCAGGAGTG CACCTACGAC 
CACCTGGAGG TCTACGACGG GCGGGACGCC AAAGCCCCCG CGCTGGGCAG GTTCTGCGGC 
GCCAAGGAGC CCGAGCCCCT CGTCTCCTCC GGCAACGCGA TGTTCCTGCG GTTCGTCTCG 
GACAACTCGG TGCAGAAGAA GGGCTTCGAG GCCGCGCACA CCACAGTGTG CGGGGGCCAG 
ATGCGCGCCG AGGTGAAGAC CAAGGACTTG TATTCGCACG CGCAGTTCGG GGACAACAAC 
TACCCGGGCG GCTCGGACTG CGAGTGGGTG ATCATGGCCG AGGAGGGCTA CGGCGTGGAG 
CTCATCTTCC AGACCTTCGA GATCGAGGAG GAGGCCGACT GCGGCTACGA CTACATGGAG 
CTCTTCGAYG GCTACGACGG CACGGCCCCC CGCCTCGGCC GATACTGCGG GTCCGGGCCG 
CCGGAGGAAG TCTACTCGGC CGGCGATTCG GTGATGATCC GCTTCCACTC GGACGACACC 
ATCAACAAGA AGGGTTTCCA CCTTCGCTAC ACCAGCACCA AGTTCCAGGA CACGCTGCAC 
ACGAGGAAAT GA

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

RefSeq	XP_025978122.1
CDS	1..3012
Translation	MRSAAMEHRHRQPRRSREMSKSRQHGSSYRQYPQGNSQCLGNFGKRIPTLRPASPPITGAAGAVTVVLAHVEPGAPRSPAAFLGDIALDEEDLRLFQVDRVVDLSHHTVRRLPANSSGSATPQSGRGTRGRRARSRRAATSRPERVWPDGVIPYVISGNFSGSQRAIFRQAMRHWEKHTCVTFLERNDEDSYIVFTYRPCGCCSYVGRRGGGPQAISIGKNCDKFGIVVHELGHVIGFWHEHTRPDRDDHVSIIRENIQPGQEYNFLKMEPEEVESLGETYDFDSIMHYARNTFSRGIFLDTILPKYDVNGVRPAIGQRTRLSKGDIAQARKLYRCPACGETLQDSQGNFSSPEFPNGYSAHMHCVWRISVTPGEKIILNFTTLDLYRSRLCWYDYVEVRDGFWRKATLRGRFCGSKLPEPIVSTDSRLWVEFRSSSNWVGKGFFAVYEAICGGEVKKDNGHIQSPNYPDDYRPSKVCVWKITVSEGFHVGLTFQSFEIERHDSCAYDYLEIRDGSSESSSLIGRYCGYDKPDDIKSTSNKLWMKFVSDGSINKAGFAVNFFKEVDECSRPNNGGCEQRCVNTLGSYKCACDPGYELASDKRRCEAACGGFLTKLNGSITSPGWPKEYPPNKNCIWQLVAPTQYRISLQFDFFETEGNDVCKYDFVEVRSGLTADSKLHGKFCGAEKPDVITSQYNNMRIEFKSDNTVSKKGFKAHFFSDKDECSKNNGGCQHECLNSFGSYECQCRSGFVLHDNKHDCKEAGCDHKVTSISGTITSPNWPDKYPSKKECTWAIATTAGHRVKLTFAELDIEAQQECTYDHLEVYDGRDAKAPALGRFCGAKEPEPLVSSGNAMFLRFVSDNSVQKKGFEAAHTTVCGGQMRAEVKTKDLYSHAQFGDNNYPGGSDCEWVIMAEEGYGVELIFQTFEIEEEADCGYDYMELFnullGYDGTAPRLGRYCGSGPPEEVYSAGDSVMIRFHSDDTINKKGFHLRYTSTKFQDTLHTRK

Target ORF information:

RefSeq Version	XM_026122337.1
Organism	Dromaius novaehollandiae(emu)
Definition	Dromaius novaehollandiae 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_026122337.1

ORF Insert Sequence:

ATGCGCTCGG CTGCTATGGA GCACCGCCAC CGCCAGCCCC GACGCTCGCG GGAGATGAGC 
AAGTCCCGGC AGCACGGGAG CAGCTACCGC CAGTATCCTC AGGGAAATTC GCAGTGTCTC 
GGGAATTTTG GCAAGCGGAT TCCCACCCTC CGCCCCGCTT CACCTCCTAT CACCGGAGCA 
GCCGGAGCCG TCACCGTCGT GCTCGCGCAC GTGGAGCCCG GTGCCCCGCG GTCCCCAGCT 
GCCTTCCTGG GAGACATCGC CCTGGACGAG GAGGACCTGC GGCTCTTCCA GGTGGACCGC 
GTCGTGGACC TGTCGCACCA CACCGTCCGG CGGCTGCCCG CCAACTCCTC AGGCAGTGCC 
ACCCCGCAGA GCGGCCGCGG CACACGGGGC CGGCGGGCAC GGAGCCGCCG CGCCGCCACG 
TCCCGCCCCG AGCGCGTGTG GCCCGACGGC GTCATCCCCT ACGTGATCAG CGGCAACTTC 
AGCGGCAGCC AGCGGGCCAT CTTCCGGCAG GCCATGCGGC ACTGGGAGAA GCACACCTGC 
GTCACCTTCC TGGAGCGCAA CGACGAGGAC AGCTACATCG TCTTCACCTA CCGGCCCTGC 
GGGTGCTGCT CCTACGTGGG CCGCAGAGGA GGGGGGCCCC AGGCCATCTC CATCGGCAAA 
AACTGCGACA AATTCGGCAT CGTGGTGCAC GAGCTGGGCC ACGTCATCGG CTTCTGGCAC 
GAGCACACGC GCCCCGACCG GGACGACCAC GTCTCCATCA TCCGGGAGAA CATCCAGCCA 
GGGCAGGAGT ACAACTTCTT GAAGATGGAG CCGGAGGAGG TGGAGTCGCT GGGCGAGACG 
TACGATTTCG ACAGCATCAT GCACTACGCC AGGAACACCT TCTCCAGGGG CATTTTCCTC 
GACACCATCC TGCCCAAGTA TGACGTGAAC GGGGTCCGGC CGGCCATCGG CCAGCGCACG 
CGTCTCAGCA AAGGGGACAT CGCCCAGGCC CGCAAGCTCT ACCGCTGCCC GGCCTGCGGC 
GAGACGCTCC AGGACAGCCA GGGCAACTTC TCCTCGCCCG AGTTCCCCAA CGGATACTCT 
GCCCACATGC ACTGCGTCTG GAGGATCTCC GTCACCCCCG GAGAAAAGAT CATCCTGAAC 
TTCACCACCC TGGACCTCTA CCGAAGCCGG CTGTGCTGGT ACGATTACGT GGAGGTGAGA 
GACGGGTTCT GGAGAAAGGC CACGCTGCGA GGCAGGTTCT GCGGGAGCAA GCTGCCGGAG 
CCCATCGTCT CCACCGACAG CCGCCTCTGG GTCGAGTTTC GCAGCAGCAG CAACTGGGTG 
GGCAAAGGGT TCTTCGCCGT CTATGAAGCC ATCTGCGGCG GGGAAGTGAA GAAGGACAAC 
GGCCACATCC AGTCTCCCAA CTACCCCGAC GACTACCGGC CCAGCAAGGT GTGCGTCTGG 
AAGATCACCG TCTCCGAGGG CTTCCACGTG GGCCTGACCT TCCAGTCCTT CGAGATCGAG 
CGCCACGACA GCTGCGCCTA CGACTACCTG GAGATCCGGG ACGGCAGCAG CGAGTCGAGC 
AGCCTCATCG GGCGCTACTG CGGCTACGAC AAGCCCGACG ACATCAAGAG CACCTCCAAC 
AAGCTCTGGA TGAAGTTCGT CTCCGACGGC TCCATCAACA AAGCCGGCTT CGCCGTCAAC 
TTCTTTAAAG AGGTGGACGA GTGCTCGCGG CCCAACAACG GCGGCTGCGA GCAGCGCTGC 
GTGAACACCT TGGGCAGCTA CAAGTGCGCC TGCGACCCGG GCTACGAGCT GGCCTCCGAC 
AAGCGCCGCT GCGAGGCCGC CTGCGGAGGT TTCCTCACCA AGCTCAACGG CTCCATCACC 
AGCCCCGGGT GGCCCAAGGA GTACCCCCCC AACAAGAACT GCATCTGGCA GCTGGTGGCC 
CCCACGCAGT ACCGCATCTC CCTGCAGTTC GACTTCTTCG AGACCGAGGG CAACGACGTT 
TGCAAGTACG ACTTCGTGGA GGTGCGCAGC GGGCTGACCG CCGACTCCAA GCTGCACGGC 
AAGTTCTGCG GCGCCGAGAA GCCCGACGTC ATCACCTCCC AGTACAACAA CATGCGGATC 
GAGTTCAAGT CCGACAACAC CGTCTCCAAG AAGGGCTTCA AAGCCCATTT CTTCTCAGAC 
AAGGACGAGT GCTCCAAGAA CAACGGCGGC TGCCAGCACG AGTGCCTCAA CTCCTTCGGC 
AGCTACGAGT GCCAGTGCCG CAGCGGCTTC GTGCTGCACG ACAACAAGCA CGACTGCAAG 
GAAGCCGGCT GCGACCACAA GGTGACATCC ATCTCGGGCA CCATCACCAG CCCCAACTGG 
CCCGACAAGT ACCCCAGCAA GAAGGAGTGC ACCTGGGCCA TCGCCACCAC CGCGGGGCAC 
CGCGTCAAGC TGACCTTCGC CGAGCTGGAC ATCGAGGCGC AGCAGGAGTG CACCTACGAC 
CACCTGGAGG TCTACGACGG GCGGGACGCC AAAGCCCCCG CGCTGGGCAG GTTCTGCGGC 
GCCAAGGAGC CCGAGCCCCT CGTCTCCTCC GGCAACGCGA TGTTCCTGCG GTTCGTCTCG 
GACAACTCGG TGCAGAAGAA GGGCTTCGAG GCCGCGCACA CCACAGTGTG CGGGGGCCAG 
ATGCGCGCCG AGGTGAAGAC CAAGGACTTG TATTCGCACG CGCAGTTCGG GGACAACAAC 
TACCCGGGCG GCTCGGACTG CGAGTGGGTG ATCATGGCCG AGGAGGGCTA CGGCGTGGAG 
CTCATCTTCC AGACCTTCGA GATCGAGGAG GAGGCCGACT GCGGCTACGA CTACATGGAG 
CTCTTCGAYG GCTACGACGG CACGGCCCCC CGCCTCGGCC GATACTGCGG GTCCGGGCCG 
CCGGAGGAAG TCTACTCGGC CGGCGATTCG GTGATGATCC GCTTCCACTC GGACGACACC 
ATCAACAAGA AGGGTTTCCA CCTTCGCTAC ACCAGCACCA AGTTCCAGGA CACGCTGCAC 
ACGAGGAAAT GA