BMP1 cDNA ORF clone, Alligator sinensis(Chinese alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	BMP1
Entrez Gene ID	102376631
Full Name	bone morphogenetic protein 1
Gene Type	protein-coding
Organism	Alligator sinensis(Chinese alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_025210348.1	XP_025066133.1	bone morphogenetic protein 1
XM_014522378.1	XP_014377864.1	bone morphogenetic protein 1

Pathways from BioSystems
Gene Ontology

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
OAl23136	XM_014522378.1 Latest version!	Alligator sinensis bone morphogenetic protein 1 (BMP1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl91060	XM_025210348.1 Latest version!	Alligator sinensis bone morphogenetic protein 1 (BMP1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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_014522378.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_014377864.1 Alligator sinensis bone morphogenetic protein 1 (BMP1), mRNA.

Price & Availability↑

CloneID	OAl23136
Clone ID Related Accession (Same CDS sequence)	XM_014522378.1
Accession Version	XM_014522378.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2889bp) 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	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
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_005842345.1) 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 Version :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGAACTCAG CTTCCCAGCA GGGCAGTGTC AACAAGAGAA ATCAGGCACC AGCTCTGGAG 
AAGCTGCAGG ACCCATGCAA GTCCGCTGTC TTCCTGGGAG ACATCGCGCT GGACGAGGAA 
GACCTCCGGA TGTTCCAGGC AGACCGCATA ACGGACCTCA CACGCCACAC CATGCTCAGG 
GTGGCCACCA ACTCCTCAGG TAGCAACACC AACAACACCA GGCTGAGGCC CAGGAGGCAC 
CGCAAGAGGC ACGGGTGGCT GGTCCGGCAG CGCTCGCGGA GTCGCCGGGC TGCCACATCC 
CGCCCGGAGC GGGTGTGGCC AGATGGGGTC ATCCCCTATG TGATTAGTGG GAACTTCAGT 
GGCACCCAGA GGGCAATCTT CAGGCAGGCC ATGCGGCACT GGGAGAAGTT CACGTGTGTC 
ACCTTCTTGG AGCGCACCGA GGAGGACAGC TACATCATCT TCACCTATCG GCCTTGCGGG 
TGCTGTTCCT ATGTGGGCCG CAGGGGAGGT GGGCCCCAGG CCATCTCCAT TGGCAAAAAC 
TGTGACAAGT TCGGCATCGT GGTTCACGAG CTGGGACACG TCATCGGGTT CTGGCACGAG 
CACACCCGCC CGGATCGGGA TGACCACGTG GCCATCATCA AGGAGAACAT CCAACTAGGG 
CAGGAGTACA ACTTCTTGAA GATGGAGCCT GAAGAGGTGG AGTCGCTTGG TGAGACATAC 
GATTTCGACA GCATCATGCA CTATGCCAGG AACACCTTCT CCAGGGGGAT TTTCCTTGAT 
ACCATCCTGC CCAAATATGA AGTGCAAGGA TTGCGTCCCT CCATTGGCCA GCGCACTCGC 
CTGAGCAAAG GTGATATAAG TCAAGCCCGC AAGCTCTACA GGTGCCCAGA CTGTGGAGAG 
ACCCTGCAGG AGAGTCAAGG CAACTTCTCC TCCCCGGATT TCCCCAATGG ATATGCTGCG 
CACAAACACT GTGTCTGGAG GATATCAGTC ACCCCCGGGG AAAAGATCAT CCTGAACTTC 
ACGACCTTGG ACATCTACCG AAGCCGGCTG TGCTGGTATG ATTACGTGGA GGTGAGAGAC 
GGGTTCTGGA GAAAGGCCAC GCTGCGAGGT AGGTTCTGTG GGAACAAGCT TCCCGAACCC 
ATCATCTCCA CTGACAGCCG CCTTTGGATC GAGTTTCGAA GCAGCAGCAA CTGGGTCGGC 
AAAGGCTTCT TTGCAGCCTA TGAAGCCATC TGTGGGGGAG AAGTGAAGAA AGATAATGGC 
CACATCCAGT CCCCCAACTA CCCTGATGAC TATCGGCCCA GCAAAGTGTG CATCTGGAAG 
ATCACTGTCT CTCCAGGCTT TCACGTGGGC ATCATTTTCC AGTCGTTTGA GATCGAGCGA 
CATGACAACT GTGCCTACGA CTACCTGGAG ATAAGGGACG GCCCCTCTGA GTCGAGCAAG 
GAGCTTGGCA GGTACTGCGG CTACGACAAG CCCGACGACA TCAAGACCAC TTCCAACAAG 
GTCTGGATGA AGTTTGTCTC GGACGGCTCC ATCAACAAGG CTGGCTTCTC TGTCACCTTC 
TTCAAAGAGG CGGACGAATG CTCGCGTTCT GACAACGGTG GGTGTGAGCA GCGCTGCGTG 
AACACGCTGG GCAGCTACAA GTGTGCCTGT GACCCCGGCT ATGAACTGGC TGCAGACAAG 
CGCCGCTGTG AGGCTGCCTG TGGAGGGTTC CTCACCAAGC TCAATGGCTC CATCACCAGC 
CCCGGCTGGC CAAAGGAGTA CCCGCCCAAC AAGAACTGCA TCTGGCAGCT GGTGGCCCCA 
ACCCAGTACC GCATCTCGTT GAAGTTCGAC TTCTTTGAAA CAGAAGGCAA CGATGTGTGC 
AAGTACGACT TTGTGGAGGT GCGCAGTGGG CTGACGGCCG ACTCCAAGCT GCACGGGAAG 
TTCTGCGGGG CTGAGAAGCC AGATGTCATC ACCTCCCAGT ACAACAACAT GCGCATTGAG 
TTCAAGTCCG ACAACACTGT CTCCAAGAAG GGCTTCAAAG CCCACTTCTT CTCAGACAAA 
GATGAGTGCT CCAAGGACAA CGGTGGGTGC CAGCACGAGT GCCTCAATAC CTTCGGTACC 
TACATGTGCC AGTGCCGCAG CGGCTTTGTG TTGCATGACA ACAAGCACGA CTGCAAGGAA 
GCTGGCTGTG ACCACAAAGT GACCTCCATC TCAGGCACCA TCACCAGCCC CAACTGGCCT 
GACAAGTACC CGACCAAGAA GGAGTGCACG TGGGCACTGA CAACCACTGC TGGACACCGC 
ATCCAGCTGA CCTTCACAGA GCTGGACATT GAGAGTCACC AGGAGTGCAC TTATGACCAC 
CTGGAGGCTT ACAATGGGAA AGACGCCAAG GCCCCCGTCC TGGGCAGGTT CTGCGGGGCA 
AAGAAACCGG AGCCCATCAT GTCCACCAGC AACAAGATGT TTCTCAAGTT CTTCTCCGAT 
AACTCCGTCC AGAGGAAGGG CTTTCAGGCC AGCCACACGA CAGTGTGTGG GGGCCAGATG 
CGAGCGGAGG TGAAAACCAA GGACCTGTAC TCGCACGCAC AGTTTGGAGA CAACAACTAT 
CCAAGCGGCA CAGACTGCGA GTGGGTGATC ATGGCGGAGG AGGGCTATGG GGTGGAGCTC 
ATCTTCCAGA CCTTTGAGAT AGAGGAGGAG GCGGACTGCG GCTATGACTA CATGGAGCTC 
TTCGATGGCT ACGACGGCTC GGCCCCACGC CTGGGCCGCT ACTGTGGCTC TGGGCCCCCC 
GAAGTGGTCT ATTCGGCGGG AGACTCTGTG ATGATCAAGT TCCACTCGGA CGACACCATC 
AACAAGAAGG GCTTCCACCT GCGGTACACC AGCACCAAAT TCCAGGACAC GCTGCATACA 
CGGAAATGA

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

RefSeq	XP_014377864.1
CDS	1..2889
Translation	MNSASQQGSVNKRNQAPALEKLQDPCKSAVFLGDIALDEEDLRMFQADRITDLTRHTMLRVATNSSGSNTNNTRLRPRRHRKRHGWLVRQRSRSRRAATSRPERVWPDGVIPYVISGNFSGTQRAIFRQAMRHWEKFTCVTFLERTEEDSYIIFTYRPCGCCSYVGRRGGGPQAISIGKNCDKFGIVVHELGHVIGFWHEHTRPDRDDHVAIIKENIQLGQEYNFLKMEPEEVESLGETYDFDSIMHYARNTFSRGIFLDTILPKYEVQGLRPSIGQRTRLSKGDISQARKLYRCPDCGETLQESQGNFSSPDFPNGYAAHKHCVWRISVTPGEKIILNFTTLDIYRSRLCWYDYVEVRDGFWRKATLRGRFCGNKLPEPIISTDSRLWIEFRSSSNWVGKGFFAAYEAICGGEVKKDNGHIQSPNYPDDYRPSKVCIWKITVSPGFHVGIIFQSFEIERHDNCAYDYLEIRDGPSESSKELGRYCGYDKPDDIKTTSNKVWMKFVSDGSINKAGFSVTFFKEADECSRSDNGGCEQRCVNTLGSYKCACDPGYELAADKRRCEAACGGFLTKLNGSITSPGWPKEYPPNKNCIWQLVAPTQYRISLKFDFFETEGNDVCKYDFVEVRSGLTADSKLHGKFCGAEKPDVITSQYNNMRIEFKSDNTVSKKGFKAHFFSDKDECSKDNGGCQHECLNTFGTYMCQCRSGFVLHDNKHDCKEAGCDHKVTSISGTITSPNWPDKYPTKKECTWALTTTAGHRIQLTFTELDIESHQECTYDHLEAYNGKDAKAPVLGRFCGAKKPEPIMSTSNKMFLKFFSDNSVQRKGFQASHTTVCGGQMRAEVKTKDLYSHAQFGDNNYPSGTDCEWVIMAEEGYGVELIFQTFEIEEEADCGYDYMELFDGYDGSAPRLGRYCGSGPPEVVYSAGDSVMIKFHSDDTINKKGFHLRYTSTKFQDTLHTRK

Target ORF information:

RefSeq Version	XM_014522378.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis 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_014522378.1

ORF Insert Sequence:

ATGAACTCAG CTTCCCAGCA GGGCAGTGTC AACAAGAGAA ATCAGGCACC AGCTCTGGAG 
AAGCTGCAGG ACCCATGCAA GTCCGCTGTC TTCCTGGGAG ACATCGCGCT GGACGAGGAA 
GACCTCCGGA TGTTCCAGGC AGACCGCATA ACGGACCTCA CACGCCACAC CATGCTCAGG 
GTGGCCACCA ACTCCTCAGG TAGCAACACC AACAACACCA GGCTGAGGCC CAGGAGGCAC 
CGCAAGAGGC ACGGGTGGCT GGTCCGGCAG CGCTCGCGGA GTCGCCGGGC TGCCACATCC 
CGCCCGGAGC GGGTGTGGCC AGATGGGGTC ATCCCCTATG TGATTAGTGG GAACTTCAGT 
GGCACCCAGA GGGCAATCTT CAGGCAGGCC ATGCGGCACT GGGAGAAGTT CACGTGTGTC 
ACCTTCTTGG AGCGCACCGA GGAGGACAGC TACATCATCT TCACCTATCG GCCTTGCGGG 
TGCTGTTCCT ATGTGGGCCG CAGGGGAGGT GGGCCCCAGG CCATCTCCAT TGGCAAAAAC 
TGTGACAAGT TCGGCATCGT GGTTCACGAG CTGGGACACG TCATCGGGTT CTGGCACGAG 
CACACCCGCC CGGATCGGGA TGACCACGTG GCCATCATCA AGGAGAACAT CCAACTAGGG 
CAGGAGTACA ACTTCTTGAA GATGGAGCCT GAAGAGGTGG AGTCGCTTGG TGAGACATAC 
GATTTCGACA GCATCATGCA CTATGCCAGG AACACCTTCT CCAGGGGGAT TTTCCTTGAT 
ACCATCCTGC CCAAATATGA AGTGCAAGGA TTGCGTCCCT CCATTGGCCA GCGCACTCGC 
CTGAGCAAAG GTGATATAAG TCAAGCCCGC AAGCTCTACA GGTGCCCAGA CTGTGGAGAG 
ACCCTGCAGG AGAGTCAAGG CAACTTCTCC TCCCCGGATT TCCCCAATGG ATATGCTGCG 
CACAAACACT GTGTCTGGAG GATATCAGTC ACCCCCGGGG AAAAGATCAT CCTGAACTTC 
ACGACCTTGG ACATCTACCG AAGCCGGCTG TGCTGGTATG ATTACGTGGA GGTGAGAGAC 
GGGTTCTGGA GAAAGGCCAC GCTGCGAGGT AGGTTCTGTG GGAACAAGCT TCCCGAACCC 
ATCATCTCCA CTGACAGCCG CCTTTGGATC GAGTTTCGAA GCAGCAGCAA CTGGGTCGGC 
AAAGGCTTCT TTGCAGCCTA TGAAGCCATC TGTGGGGGAG AAGTGAAGAA AGATAATGGC 
CACATCCAGT CCCCCAACTA CCCTGATGAC TATCGGCCCA GCAAAGTGTG CATCTGGAAG 
ATCACTGTCT CTCCAGGCTT TCACGTGGGC ATCATTTTCC AGTCGTTTGA GATCGAGCGA 
CATGACAACT GTGCCTACGA CTACCTGGAG ATAAGGGACG GCCCCTCTGA GTCGAGCAAG 
GAGCTTGGCA GGTACTGCGG CTACGACAAG CCCGACGACA TCAAGACCAC TTCCAACAAG 
GTCTGGATGA AGTTTGTCTC GGACGGCTCC ATCAACAAGG CTGGCTTCTC TGTCACCTTC 
TTCAAAGAGG CGGACGAATG CTCGCGTTCT GACAACGGTG GGTGTGAGCA GCGCTGCGTG 
AACACGCTGG GCAGCTACAA GTGTGCCTGT GACCCCGGCT ATGAACTGGC TGCAGACAAG 
CGCCGCTGTG AGGCTGCCTG TGGAGGGTTC CTCACCAAGC TCAATGGCTC CATCACCAGC 
CCCGGCTGGC CAAAGGAGTA CCCGCCCAAC AAGAACTGCA TCTGGCAGCT GGTGGCCCCA 
ACCCAGTACC GCATCTCGTT GAAGTTCGAC TTCTTTGAAA CAGAAGGCAA CGATGTGTGC 
AAGTACGACT TTGTGGAGGT GCGCAGTGGG CTGACGGCCG ACTCCAAGCT GCACGGGAAG 
TTCTGCGGGG CTGAGAAGCC AGATGTCATC ACCTCCCAGT ACAACAACAT GCGCATTGAG 
TTCAAGTCCG ACAACACTGT CTCCAAGAAG GGCTTCAAAG CCCACTTCTT CTCAGACAAA 
GATGAGTGCT CCAAGGACAA CGGTGGGTGC CAGCACGAGT GCCTCAATAC CTTCGGTACC 
TACATGTGCC AGTGCCGCAG CGGCTTTGTG TTGCATGACA ACAAGCACGA CTGCAAGGAA 
GCTGGCTGTG ACCACAAAGT GACCTCCATC TCAGGCACCA TCACCAGCCC CAACTGGCCT 
GACAAGTACC CGACCAAGAA GGAGTGCACG TGGGCACTGA CAACCACTGC TGGACACCGC 
ATCCAGCTGA CCTTCACAGA GCTGGACATT GAGAGTCACC AGGAGTGCAC TTATGACCAC 
CTGGAGGCTT ACAATGGGAA AGACGCCAAG GCCCCCGTCC TGGGCAGGTT CTGCGGGGCA 
AAGAAACCGG AGCCCATCAT GTCCACCAGC AACAAGATGT TTCTCAAGTT CTTCTCCGAT 
AACTCCGTCC AGAGGAAGGG CTTTCAGGCC AGCCACACGA CAGTGTGTGG GGGCCAGATG 
CGAGCGGAGG TGAAAACCAA GGACCTGTAC TCGCACGCAC AGTTTGGAGA CAACAACTAT 
CCAAGCGGCA CAGACTGCGA GTGGGTGATC ATGGCGGAGG AGGGCTATGG GGTGGAGCTC 
ATCTTCCAGA CCTTTGAGAT AGAGGAGGAG GCGGACTGCG GCTATGACTA CATGGAGCTC 
TTCGATGGCT ACGACGGCTC GGCCCCACGC CTGGGCCGCT ACTGTGGCTC TGGGCCCCCC 
GAAGTGGTCT ATTCGGCGGG AGACTCTGTG ATGATCAAGT TCCACTCGGA CGACACCATC 
AACAAGAAGG GCTTCCACCT GCGGTACACC AGCACCAAAT TCCAGGACAC GCTGCATACA 
CGGAAATGA

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

BMP1 ( XM_025210348.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025066133.1 Alligator sinensis bone morphogenetic protein 1 (BMP1), mRNA.

Price & Availability↑

CloneID	OAl91060
Clone ID Related Accession (Same CDS sequence)	XM_025210348.1
Accession Version	XM_025210348.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3117bp) 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	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
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_005842345.1) 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 :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 10% of CDS bases ##RefSeq-Attributes-END##

ATGGCTGGCG ATCCAGAACG GCCAGTAGAG TTGAGCAAAT TGCTTGGCGG GTATGGTGGC 
TACGACACGC ATGACGACAT TGAGACCGCC TCCGACCTGC TCTGGATGAG GTTAGTCTCG 
GACAGCTCCA TCAACAAGGC CACAGCCAGC TTCTCTGTCA CCTTCAAAGT TACCACAGAG 
GCGGCATCTC TGGGGGGCAA AGGGGCCCTT CATTGGGATC TTCTTTGGAT CATGCGCTGC 
CTGCTCCTCA CCAAGCTCAA CAGCATCATC ACCAGCTCCA GATGTCTGAA GGAGTACCTG 
CTCAACAAGA ACTCTGTCTT CCTGGGAGAC ATCGCGCTGG ACGAGGAAGA CCTCCGGATG 
TTCCAGGCAG ACCGCATAAC GGACCTCACA CGCCACACCA TGCTCAGGGT GGCCACCAAC 
TCCTCAGGTA GCAACACCAA CAACACCAGG CTGAGGCCCA GGAGGCACCG CAAGAGGCAC 
GGGTGGCTGG TCCGGCAGCG CTCGCGGAGT CGCCGGGCTG CCACATCCCG CCCGGAGCGG 
GTGTGGCCAG ATGGGGTCAT CCCCTATGTG ATTAGTGGGA ACTTCAGTGG CACCCAGAGG 
GCAATCTTCA GGCAGGCCAT GCGGCACTGG GAGAAGTTCA CGTGTGTCAC CTTCTTGGAG 
CGCACCGAGG AGGACAGCTA CATCATCTTC ACCTATCGGC CTTGCGGGTG CTGTTCCTAT 
GTGGGCCGCA GGGGAGGTGG GCCCCAGGCC ATCTCCATTG GCAAAAACTG TGACAAGTTC 
GGCATCGTGG TTCACGAGCT GGGACACGTC ATCGGGTTCT GGCACGAGCA CACCCGCCCG 
GATCGGGATG ACCACGTGGC CATCATCAAG GAGAACATCC AACTAGGGCA GGAGTACAAC 
TTCTTGAAGA TGGAGCCTGA AGAGGTGGAG TCGCTTGGTG AGACATACGA TTTCGACAGC 
ATCATGCACT ATGCCAGGAA CACCTTCTCC AGGGGGATTT TCCTTGATAC CATCCTGCCC 
AAATATGAAG TGCAAGGATT GCGTCCCTCC ATTGGCCAGC GCACTCGCCT GAGCAAAGGT 
GATATAAGTC AAGCCCGCAA GCTCTACAGG TGCCCAGACT GTGGAGAGAC CCTGCAGGAG 
AGTCAAGGCA ACTTCTCCTC CCCGGATTTC CCCAATGGAT ATGCTGCGCA CAAACACTGT 
GTCTGGAGGA TATCAGTCAC CCCCGGGGAA AAGATCATCC TGAACTTCAC GACCTTGGAC 
ATCTACCGAA GCCGGCTGTG CTGGTATGAT TACGTGGAGG TGAGAGACGG GTTCTGGAGA 
AAGGCCACGC TGCGAGGTAG GTTCTGTGGG AACAAGCTTC CCGAACCCAT CATCTCCACT 
GACAGCCGCC TTTGGATCGA GTTTCGAAGC AGCAGCAACT GGGTCGGCAA AGGCTTCTTT 
GCAGCCTATG AAGCCATCTG TGGGGGAGAA GTGAAGAAAG ATAATGGCCA CATCCAGTCC 
CCCAACTACC CTGATGACTA TCGGCCCAGC AAAGTGTGCA TCTGGAAGAT CACTGTCTCT 
CCAGGCTTTC ACGTGGGCAT CATTTTCCAG TCGTTTGAGA TCGAGCGACA TGACAACTGT 
GCCTACGACT ACCTGGAGAT AAGGGACGGC CCCTCTGAGT CGAGCAAGGA GCTTGGCAGG 
TACTGCGGCT ACGACAAGCC CGACGACATC AAGACCACTT CCAACAAGGT CTGGATGAAG 
TTTGTCTCGG ACGGCTCCAT CAACAAGGCT GGCTTCTCTG TCACCTTCTT CAAAGAGGCG 
GACGAATGCT CGCGTTCTGA CAACGGTGGG TGTGAGCAGC GCTGCGTGAA CACGCTGGGC 
AGCTACAAGT GTGCCTGTGA CCCCGGCTAT GAACTGGCTG CAGACAAGCG CCGCTGTGAG 
GCTGCCTGTG GAGGGTTCCT CACCAAGCTC AATGGCTCCA TCACCAGCCC CGGCTGGCCA 
AAGGAGTACC CGCCCAACAA GAACTGCATC TGGCAGCTGG TGGCCCCAAC CCAGTACCGC 
ATCTCGTTGA AGTTCGACTT CTTTGAAACA GAAGGCAACG ATGTGTGCAA GTACGACTTT 
GTGGAGGTGC GCAGTGGGCT GACGGCCGAC TCCAAGCTGC ACGGGAAGTT CTGCGGGGCT 
GAGAAGCCAG ATGTCATCAC CTCCCAGTAC AACAACATGC GCATTGAGTT CAAGTCCGAC 
AACACTGTCT CCAAGAAGGG CTTCAAAGCC CACTTCTTCT CAGACAAAGA TGAGTGCTCC 
AAGGACAACG GTGGGTGCCA GCACGAGTGC CTCAATACCT TCGGTACCTA CATGTGCCAG 
TGCCGCAGCG GCTTTGTGTT GCATGACAAC AAGCACGACT GCAAGGAAGC TGGCTGTGAC 
CACAAAGTGA CCTCCATCTC AGGCACCATC ACCAGCCCCA ACTGGCCTGA CAAGTACCCG 
ACCAAGAAGG AGTGCACGTG GGCACTGACA ACCACTGCTG GACACCGCAT CCAGCTGACC 
TTCACAGAGC TGGACATTGA GAGTCACCAG GAGTGCACTT ATGACCACCT GGAGGCTTAC 
AATGGGAAAG ACGCCAAGGC CCCCGTCCTG GGCAGGTTCT GCGGGGCAAA GAAACCGGAG 
CCCATCATGT CCACCAGCAA CAAGATGTTT CTCAAGTTCT TCTCCGATAA CTCCGTCCAG 
AGGAAGGGCT TTCAGGCCAG CCACACGACA GTGTGTGGGG GCCAGATGCG AGCGGAGGTG 
AAAACCAAGG ACCTGTACTC GCACGCACAG TTTGGAGACA ACAACTATCC AAGCGGCACA 
GACTGCGAGT GGGTGATCAT GGCGGAGGAG GGCTATGGGG TGGAGCTCAT CTTCCAGACC 
TTTGAGATAG AGGAGGAGGC GGACTGCGGC TATGACTACA TGGAGCTCTT CGATGGCTAC 
GACGGCTCGG CCCCACGCCT GGGCCGCTAC TGTGGCTCTG GGCCCCCCGA AGTGGTCTAT 
TCGGCGGGAG ACTCTGTGAT GATCAAGTTC CACTCGGACG ACACCATCAA CAAGAAGGGC 
TTCCACCTGC GGTACACCAG CACCAAATTC CAGGACACGC TGCATACACG GAAATGA

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

RefSeq	XP_025066133.1
CDS	1..3117
Translation	MAGDPERPVELSKLLGGYGGYDTHDDIETASDLLWMRLVSDSSINKATASFSVTFKVTTEAASLGGKGALHWDLLWIMRCLLLTKLNSIITSSRCLKEYLLNKNSVFLGDIALDEEDLRMFQADRITDLTRHTMLRVATNSSGSNTNNTRLRPRRHRKRHGWLVRQRSRSRRAATSRPERVWPDGVIPYVISGNFSGTQRAIFRQAMRHWEKFTCVTFLERTEEDSYIIFTYRPCGCCSYVGRRGGGPQAISIGKNCDKFGIVVHELGHVIGFWHEHTRPDRDDHVAIIKENIQLGQEYNFLKMEPEEVESLGETYDFDSIMHYARNTFSRGIFLDTILPKYEVQGLRPSIGQRTRLSKGDISQARKLYRCPDCGETLQESQGNFSSPDFPNGYAAHKHCVWRISVTPGEKIILNFTTLDIYRSRLCWYDYVEVRDGFWRKATLRGRFCGNKLPEPIISTDSRLWIEFRSSSNWVGKGFFAAYEAICGGEVKKDNGHIQSPNYPDDYRPSKVCIWKITVSPGFHVGIIFQSFEIERHDNCAYDYLEIRDGPSESSKELGRYCGYDKPDDIKTTSNKVWMKFVSDGSINKAGFSVTFFKEADECSRSDNGGCEQRCVNTLGSYKCACDPGYELAADKRRCEAACGGFLTKLNGSITSPGWPKEYPPNKNCIWQLVAPTQYRISLKFDFFETEGNDVCKYDFVEVRSGLTADSKLHGKFCGAEKPDVITSQYNNMRIEFKSDNTVSKKGFKAHFFSDKDECSKDNGGCQHECLNTFGTYMCQCRSGFVLHDNKHDCKEAGCDHKVTSISGTITSPNWPDKYPTKKECTWALTTTAGHRIQLTFTELDIESHQECTYDHLEAYNGKDAKAPVLGRFCGAKKPEPIMSTSNKMFLKFFSDNSVQRKGFQASHTTVCGGQMRAEVKTKDLYSHAQFGDNNYPSGTDCEWVIMAEEGYGVELIFQTFEIEEEADCGYDYMELFDGYDGSAPRLGRYCGSGPPEVVYSAGDSVMIKFHSDDTINKKGFHLRYTSTKFQDTLHTRK

Target ORF information:

RefSeq Version	XM_025210348.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis 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_025210348.1

ORF Insert Sequence:

ATGGCTGGCG ATCCAGAACG GCCAGTAGAG TTGAGCAAAT TGCTTGGCGG GTATGGTGGC 
TACGACACGC ATGACGACAT TGAGACCGCC TCCGACCTGC TCTGGATGAG GTTAGTCTCG 
GACAGCTCCA TCAACAAGGC CACAGCCAGC TTCTCTGTCA CCTTCAAAGT TACCACAGAG 
GCGGCATCTC TGGGGGGCAA AGGGGCCCTT CATTGGGATC TTCTTTGGAT CATGCGCTGC 
CTGCTCCTCA CCAAGCTCAA CAGCATCATC ACCAGCTCCA GATGTCTGAA GGAGTACCTG 
CTCAACAAGA ACTCTGTCTT CCTGGGAGAC ATCGCGCTGG ACGAGGAAGA CCTCCGGATG 
TTCCAGGCAG ACCGCATAAC GGACCTCACA CGCCACACCA TGCTCAGGGT GGCCACCAAC 
TCCTCAGGTA GCAACACCAA CAACACCAGG CTGAGGCCCA GGAGGCACCG CAAGAGGCAC 
GGGTGGCTGG TCCGGCAGCG CTCGCGGAGT CGCCGGGCTG CCACATCCCG CCCGGAGCGG 
GTGTGGCCAG ATGGGGTCAT CCCCTATGTG ATTAGTGGGA ACTTCAGTGG CACCCAGAGG 
GCAATCTTCA GGCAGGCCAT GCGGCACTGG GAGAAGTTCA CGTGTGTCAC CTTCTTGGAG 
CGCACCGAGG AGGACAGCTA CATCATCTTC ACCTATCGGC CTTGCGGGTG CTGTTCCTAT 
GTGGGCCGCA GGGGAGGTGG GCCCCAGGCC ATCTCCATTG GCAAAAACTG TGACAAGTTC 
GGCATCGTGG TTCACGAGCT GGGACACGTC ATCGGGTTCT GGCACGAGCA CACCCGCCCG 
GATCGGGATG ACCACGTGGC CATCATCAAG GAGAACATCC AACTAGGGCA GGAGTACAAC 
TTCTTGAAGA TGGAGCCTGA AGAGGTGGAG TCGCTTGGTG AGACATACGA TTTCGACAGC 
ATCATGCACT ATGCCAGGAA CACCTTCTCC AGGGGGATTT TCCTTGATAC CATCCTGCCC 
AAATATGAAG TGCAAGGATT GCGTCCCTCC ATTGGCCAGC GCACTCGCCT GAGCAAAGGT 
GATATAAGTC AAGCCCGCAA GCTCTACAGG TGCCCAGACT GTGGAGAGAC CCTGCAGGAG 
AGTCAAGGCA ACTTCTCCTC CCCGGATTTC CCCAATGGAT ATGCTGCGCA CAAACACTGT 
GTCTGGAGGA TATCAGTCAC CCCCGGGGAA AAGATCATCC TGAACTTCAC GACCTTGGAC 
ATCTACCGAA GCCGGCTGTG CTGGTATGAT TACGTGGAGG TGAGAGACGG GTTCTGGAGA 
AAGGCCACGC TGCGAGGTAG GTTCTGTGGG AACAAGCTTC CCGAACCCAT CATCTCCACT 
GACAGCCGCC TTTGGATCGA GTTTCGAAGC AGCAGCAACT GGGTCGGCAA AGGCTTCTTT 
GCAGCCTATG AAGCCATCTG TGGGGGAGAA GTGAAGAAAG ATAATGGCCA CATCCAGTCC 
CCCAACTACC CTGATGACTA TCGGCCCAGC AAAGTGTGCA TCTGGAAGAT CACTGTCTCT 
CCAGGCTTTC ACGTGGGCAT CATTTTCCAG TCGTTTGAGA TCGAGCGACA TGACAACTGT 
GCCTACGACT ACCTGGAGAT AAGGGACGGC CCCTCTGAGT CGAGCAAGGA GCTTGGCAGG 
TACTGCGGCT ACGACAAGCC CGACGACATC AAGACCACTT CCAACAAGGT CTGGATGAAG 
TTTGTCTCGG ACGGCTCCAT CAACAAGGCT GGCTTCTCTG TCACCTTCTT CAAAGAGGCG 
GACGAATGCT CGCGTTCTGA CAACGGTGGG TGTGAGCAGC GCTGCGTGAA CACGCTGGGC 
AGCTACAAGT GTGCCTGTGA CCCCGGCTAT GAACTGGCTG CAGACAAGCG CCGCTGTGAG 
GCTGCCTGTG GAGGGTTCCT CACCAAGCTC AATGGCTCCA TCACCAGCCC CGGCTGGCCA 
AAGGAGTACC CGCCCAACAA GAACTGCATC TGGCAGCTGG TGGCCCCAAC CCAGTACCGC 
ATCTCGTTGA AGTTCGACTT CTTTGAAACA GAAGGCAACG ATGTGTGCAA GTACGACTTT 
GTGGAGGTGC GCAGTGGGCT GACGGCCGAC TCCAAGCTGC ACGGGAAGTT CTGCGGGGCT 
GAGAAGCCAG ATGTCATCAC CTCCCAGTAC AACAACATGC GCATTGAGTT CAAGTCCGAC 
AACACTGTCT CCAAGAAGGG CTTCAAAGCC CACTTCTTCT CAGACAAAGA TGAGTGCTCC 
AAGGACAACG GTGGGTGCCA GCACGAGTGC CTCAATACCT TCGGTACCTA CATGTGCCAG 
TGCCGCAGCG GCTTTGTGTT GCATGACAAC AAGCACGACT GCAAGGAAGC TGGCTGTGAC 
CACAAAGTGA CCTCCATCTC AGGCACCATC ACCAGCCCCA ACTGGCCTGA CAAGTACCCG 
ACCAAGAAGG AGTGCACGTG GGCACTGACA ACCACTGCTG GACACCGCAT CCAGCTGACC 
TTCACAGAGC TGGACATTGA GAGTCACCAG GAGTGCACTT ATGACCACCT GGAGGCTTAC 
AATGGGAAAG ACGCCAAGGC CCCCGTCCTG GGCAGGTTCT GCGGGGCAAA GAAACCGGAG 
CCCATCATGT CCACCAGCAA CAAGATGTTT CTCAAGTTCT TCTCCGATAA CTCCGTCCAG 
AGGAAGGGCT TTCAGGCCAG CCACACGACA GTGTGTGGGG GCCAGATGCG AGCGGAGGTG 
AAAACCAAGG ACCTGTACTC GCACGCACAG TTTGGAGACA ACAACTATCC AAGCGGCACA 
GACTGCGAGT GGGTGATCAT GGCGGAGGAG GGCTATGGGG TGGAGCTCAT CTTCCAGACC 
TTTGAGATAG AGGAGGAGGC GGACTGCGGC TATGACTACA TGGAGCTCTT CGATGGCTAC 
GACGGCTCGG CCCCACGCCT GGGCCGCTAC TGTGGCTCTG GGCCCCCCGA AGTGGTCTAT 
TCGGCGGGAG ACTCTGTGAT GATCAAGTTC CACTCGGACG ACACCATCAA CAAGAAGGGC 
TTCCACCTGC GGTACACCAG CACCAAATTC CAGGACACGC TGCATACACG GAAATGA