bmp2k cDNA ORF clone, Anolis carolinensis(green anole)

Gene
Clones
gRNAs

Summary

Gene Symbol	bmp2k
Entrez Gene ID	100556054
Full Name	BMP2 inducible kinase
Gene Type	protein-coding
Organism	Anolis carolinensis(green anole)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008112131.2	XP_008110338.1	BMP-2-inducible protein kinase isoform X2
XM_008112129.2	XP_008110336.1	BMP-2-inducible protein kinase isoform X1

Pathways from BioSystems
Gene Ontology

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
OAn36787	XM_008112129.2 Latest version!	Anolis carolinensis BMP2 inducible kinase (bmp2k), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAn36788	XM_008112131.2 Latest version!	Anolis carolinensis BMP2 inducible kinase (bmp2k), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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_008112129.2 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_008110336.1 Anolis carolinensis BMP2 inducible kinase (bmp2k), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAn36787
Clone ID Related Accession (Same CDS sequence)	XM_008112129.2
Accession Version	XM_008112129.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3219bp) 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	2016-05-30
Organism	Anolis carolinensis(green anole)
Product	BMP-2-inducible protein kinase isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_014780.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_008112129.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 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##

ATGCAGGCCC AAGGTGGCTT TTCCACAGTG CTGCTTGTGC GCACACATGG TGGAGTTCGG 
TGTGCATTGA AACGAATGTA TGTTAATAAT GTGCCTGACC TCAATGTCTG CAAAAGAGAA 
ATAACAATAA TGAAAGAGCT GTCTGGGCAC AAGAATATTG TAGGATATTT GGACTGTGCT 
GTCAATTCTG TGAATGATAA TGTGTGGGAG GTGCTCATAT TAATGGAATA CTGTCGTGCG 
GGACAGGTAG TGAATCAAAT GAACCAGAGA TTGCAGACAG GCTTTACTGA GCCAGAAGTG 
CTGAGGATAT TTTGTGATGC CTGTGAAGCT GTTGCTAGGC TGCATCAATG CAAAACTCCC 
ATTGTTCATA GAGATTTGAA GGTTGAGAAT ATTTTGTTGA GTGATAGTGG AAACTATGTC 
CTGTGCGATT TTGGAAGTGC CACTAATAAA TTCCTTAATC CTCAGAAAGA TGGAGTCAAT 
GTAGTTGAAG AGGAAATTAA AAAGTATACT ACTTTATCAT ACAGAGCTCC TGAAATGATC 
AACCTTTATG GAGGAAAGCC AGTTACTACC AAGGCAGATA TCTGGGCCCT TGGTTGCTTG 
CTATATAAGC TTTGTTTCTT CACACTTCCC TTTGGTGAGA GTCAAGTTGC CATTTGTGAT 
GGAAGTTTTA CCATCCCAGA CAATTCCCGT TACTCCCATG GTATACACTG TTTGATAAGA 
TATATGCTTG AACCAGATCA AGAACGGAGA CCTGATATCT TTCAAGTATC TTATTTTGCC 
TTTAAACTTG CCAAAAAGGA CTGTCCATTA TCAAACATTA ATAACTCTCC TATCCCTTCA 
GCACTTCCTG AGCCATTGAC AGCTAGTGAG GCTGCTGCTA GGAAAAGCCA AATCAAAGCT 
AGAATAACAG ATTCCATTGG ACCAACAGAA ACCTCAATAG CACCACGGCA AAGACCAAAG 
GCCAATACAA GCACTGCCAC TTCTAGTGTA TTAGCAATCC AGAGCTCAGC AACACCAGTC 
AAAGTGCCAG TTCCTGGTGA TCTTAACAAT GGGCAGAAAG GAGCCTCAAA ACCTGGAAGT 
AGCCAACAGA GCATGTTGTC CCAAGGAGCT AATCCACCTT CACAGCAGAA CAGAGTGCTC 
CAACAACTAC AGCAGGGTGA CTGGAGACTT CAGCAATTGC ATCACTTACA TCACCAGCAG 
CAACAGCAAT TGCTTCAAGA TGCATACGTG CAGCAGGTAC AGTATCAGCA AACAATGCAG 
CAGCACATGA TTCAACAGCA GCTTTTGATG CGCTCTGTGT ACCAGCAACA ACCTCCCTCA 
TCCTCATATC CCGCCATGAT GCAGCAGTAC CAACAAGCTC TTCTACAGCA ACAGGTCTTT 
GCGAAGCAGT TGCCACCACC TAAGCATTCT CCTGAATTTC TTGCTTCTCC TCAGGAGTTC 
TCGCCAGCCT TAATCTCCCA TTCCAAGTCA TTTCCAGCTC ATGTTGGGGC AGCTCTGGAC 
ACCCATTATT CTACAAATAG ATTAACTTCC TCTGATGCAG AGTCTGTTTC CACTTATCAA 
AAACAGAACA TCAGTAACCC ACCTGATATG TCTGGCTGGA ATCCATTTGG AGAAGACAAT 
TTCTCCAAGC TAACAGAGGA GGAGCTGTTG GACAGGGAGT TTGACCTCCT GAGATCAAAC 
AGGCTCGAGG AGAGGAGAAC ATCCTCAGAT AAGAATGTGG AGACACATTC TGCTCCACAG 
AACCATCCTC CAGAAGATCC CTTTGGTTCT GTACCTTTCA TTTCTCACCC AGGTTCTCCA 
GGAAGTGAAA TTAATAGCTC AGCCAGCAAT ACAGAACACA AGATAGAGAG TCCAACCAAA 
AATGAAAGGC TTAACCAAGT TGCTGAGGAC TGTGAACCTG GAAAGAAATT GGTGGAAAAA 
CATACAAAAA AAGGAAGTGA TGAATCGGAA AGTGATTTTG AATCGGACCC CCCCTCTCCG 
AAGAGCAGTG AGGAAGAGGA GGAACAGGAG GATGAAGAAG TTTTGCAGGG TGAGCATGGA 
GATTTTATGG ATGACAATTA CACCGAACCA GAGAACTTTG GCCAGCATCC TCTTCTCATG 
GATTCTGAGG AAGATGCAGA AGATGATGAT AAGCAAAGTT CTGATTCTGA TTCTGTTCAT 
GTTAGGCCTG TAGAGGAGGT GCCTGGTAGT AGATACAAAA AAGAAGCTGG AAGTGTTGAG 
ACCAAGGAGC CTATTTTACA ATGCTCTATA TTGTCTGAGA CCAAGGTGAG TCCCAAACAA 
GAGTTTGATG TCTTTGGAGC AGTTCCATTC TTTCCTCTTC AGACTCAAGA GCCTAAACAA 
AAAGATAGCA AAGATTTCTC TCCCCAAGCT GATTTTCCAG GCTCAGCGCA AGATCAGGAT 
GAGTTTGATG TCTTCACCAA AGCCCCATTT GGCAGGAAAA TGTCTCAGCA AGATGATTTG 
ATTTCAGGTT GTGAAAATCA ACCTATTCCT ATATCTCCTA TGTCTCCTGT GGATGTTTTT 
GGATGTATCC CATTCCACCC TTCCTCTGTT TCAAAAAGTG ATGAGAGTAA AGAGGATCTC 
TTTGGGCTTA TCCCATTTGA GGAGATAGCA GGAAGCGAAC AGCAACAGCA ACAGAAAGCA 
AAGCAGCAGC AACGGAATCT GCAGAAACTC TCTTCTCGCC AGAGACGCAT GAAACAGGAG 
GGATCCAAGA CCAATGGAAA GCGCCATCAC GGCACCCCAA CTAGCACTAA GAAGACTTTG 
AAACCCAATT ACCGTACACC TGAAAGAGTC CGAAGGCATA AAAAGGCTGG TCGCCGGGAT 
TCCCAGAGCA GCAATGAGTT CTTGACGATC TCTGATTCCA AGGAAAACAT TAGTATTGCC 
ATGCCCGATA ACAAAGACAG AGTGAGCTCT CTGCAAACAG AGGATGCCCT TCTGGATCCT 
TTTGGAGCCA AGCCTTTCCA CCCCACAGAA TTGGTGCGCC ACCCTCAGCA TCAAGGACTG 
GGTGATAACC GTGGGGATCA CAACACAGTC GTTCCTGGTA GACCTAGGCA GGGCTCACTG 
CTTGGCAGTA TTCAGTCTGG CGATGGACTA AAACTAACAG ATGATTTTGG GGCAGTTCCT 
TTTACAGAAC TTGTGCCTAG TATGGCATCA CAACAAAGCC AGCAACAGGC AGGAGAGTTA 
GATCCATTTG GAGCTGCTCC ATTTCCTTCT AAACAGTAG

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

RefSeq	XP_008110336.1
CDS	1098..4316
Translation	MQAQGGFSTVLLVRTHGGVRCALKRMYVNNVPDLNVCKREITIMKELSGHKNIVGYLDCAVNSVNDNVWEVLILMEYCRAGQVVNQMNQRLQTGFTEPEVLRIFCDACEAVARLHQCKTPIVHRDLKVENILLSDSGNYVLCDFGSATNKFLNPQKDGVNVVEEEIKKYTTLSYRAPEMINLYGGKPVTTKADIWALGCLLYKLCFFTLPFGESQVAICDGSFTIPDNSRYSHGIHCLIRYMLEPDQERRPDIFQVSYFAFKLAKKDCPLSNINNSPIPSALPEPLTASEAAARKSQIKARITDSIGPTETSIAPRQRPKANTSTATSSVLAIQSSATPVKVPVPGDLNNGQKGASKPGSSQQSMLSQGANPPSQQNRVLQQLQQGDWRLQQLHHLHHQQQQQLLQDAYVQQVQYQQTMQQHMIQQQLLMRSVYQQQPPSSSYPAMMQQYQQALLQQQVFAKQLPPPKHSPEFLASPQEFSPALISHSKSFPAHVGAALDTHYSTNRLTSSDAESVSTYQKQNISNPPDMSGWNPFGEDNFSKLTEEELLDREFDLLRSNRLEERRTSSDKNVETHSAPQNHPPEDPFGSVPFISHPGSPGSEINSSASNTEHKIESPTKNERLNQVAEDCEPGKKLVEKHTKKGSDESESDFESDPPSPKSSEEEEEQEDEEVLQGEHGDFMDDNYTEPENFGQHPLLMDSEEDAEDDDKQSSDSDSVHVRPVEEVPGSRYKKEAGSVETKEPILQCSILSETKVSPKQEFDVFGAVPFFPLQTQEPKQKDSKDFSPQADFPGSAQDQDEFDVFTKAPFGRKMSQQDDLISGCENQPIPISPMSPVDVFGCIPFHPSSVSKSDESKEDLFGLIPFEEIAGSEQQQQQKAKQQQRNLQKLSSRQRRMKQEGSKTNGKRHHGTPTSTKKTLKPNYRTPERVRRHKKAGRRDSQSSNEFLTISDSKENISIAMPDNKDRVSSLQTEDALLDPFGAKPFHPTELVRHPQHQGLGDNRGDHNTVVPGRPRQGSLLGSIQSGDGLKLTDDFGAVPFTELVPSMASQQSQQQAGELDPFGAAPFPSKQ

Target ORF information:

RefSeq Version	XM_008112129.2
Organism	Anolis carolinensis(green anole)
Definition	Anolis carolinensis BMP2 inducible kinase (bmp2k), transcript variant X1, mRNA.

Target ORF information:

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

XM_008112129.2

ORF Insert Sequence:

ATGCAGGCCC AAGGTGGCTT TTCCACAGTG CTGCTTGTGC GCACACATGG TGGAGTTCGG 
TGTGCATTGA AACGAATGTA TGTTAATAAT GTGCCTGACC TCAATGTCTG CAAAAGAGAA 
ATAACAATAA TGAAAGAGCT GTCTGGGCAC AAGAATATTG TAGGATATTT GGACTGTGCT 
GTCAATTCTG TGAATGATAA TGTGTGGGAG GTGCTCATAT TAATGGAATA CTGTCGTGCG 
GGACAGGTAG TGAATCAAAT GAACCAGAGA TTGCAGACAG GCTTTACTGA GCCAGAAGTG 
CTGAGGATAT TTTGTGATGC CTGTGAAGCT GTTGCTAGGC TGCATCAATG CAAAACTCCC 
ATTGTTCATA GAGATTTGAA GGTTGAGAAT ATTTTGTTGA GTGATAGTGG AAACTATGTC 
CTGTGCGATT TTGGAAGTGC CACTAATAAA TTCCTTAATC CTCAGAAAGA TGGAGTCAAT 
GTAGTTGAAG AGGAAATTAA AAAGTATACT ACTTTATCAT ACAGAGCTCC TGAAATGATC 
AACCTTTATG GAGGAAAGCC AGTTACTACC AAGGCAGATA TCTGGGCCCT TGGTTGCTTG 
CTATATAAGC TTTGTTTCTT CACACTTCCC TTTGGTGAGA GTCAAGTTGC CATTTGTGAT 
GGAAGTTTTA CCATCCCAGA CAATTCCCGT TACTCCCATG GTATACACTG TTTGATAAGA 
TATATGCTTG AACCAGATCA AGAACGGAGA CCTGATATCT TTCAAGTATC TTATTTTGCC 
TTTAAACTTG CCAAAAAGGA CTGTCCATTA TCAAACATTA ATAACTCTCC TATCCCTTCA 
GCACTTCCTG AGCCATTGAC AGCTAGTGAG GCTGCTGCTA GGAAAAGCCA AATCAAAGCT 
AGAATAACAG ATTCCATTGG ACCAACAGAA ACCTCAATAG CACCACGGCA AAGACCAAAG 
GCCAATACAA GCACTGCCAC TTCTAGTGTA TTAGCAATCC AGAGCTCAGC AACACCAGTC 
AAAGTGCCAG TTCCTGGTGA TCTTAACAAT GGGCAGAAAG GAGCCTCAAA ACCTGGAAGT 
AGCCAACAGA GCATGTTGTC CCAAGGAGCT AATCCACCTT CACAGCAGAA CAGAGTGCTC 
CAACAACTAC AGCAGGGTGA CTGGAGACTT CAGCAATTGC ATCACTTACA TCACCAGCAG 
CAACAGCAAT TGCTTCAAGA TGCATACGTG CAGCAGGTAC AGTATCAGCA AACAATGCAG 
CAGCACATGA TTCAACAGCA GCTTTTGATG CGCTCTGTGT ACCAGCAACA ACCTCCCTCA 
TCCTCATATC CCGCCATGAT GCAGCAGTAC CAACAAGCTC TTCTACAGCA ACAGGTCTTT 
GCGAAGCAGT TGCCACCACC TAAGCATTCT CCTGAATTTC TTGCTTCTCC TCAGGAGTTC 
TCGCCAGCCT TAATCTCCCA TTCCAAGTCA TTTCCAGCTC ATGTTGGGGC AGCTCTGGAC 
ACCCATTATT CTACAAATAG ATTAACTTCC TCTGATGCAG AGTCTGTTTC CACTTATCAA 
AAACAGAACA TCAGTAACCC ACCTGATATG TCTGGCTGGA ATCCATTTGG AGAAGACAAT 
TTCTCCAAGC TAACAGAGGA GGAGCTGTTG GACAGGGAGT TTGACCTCCT GAGATCAAAC 
AGGCTCGAGG AGAGGAGAAC ATCCTCAGAT AAGAATGTGG AGACACATTC TGCTCCACAG 
AACCATCCTC CAGAAGATCC CTTTGGTTCT GTACCTTTCA TTTCTCACCC AGGTTCTCCA 
GGAAGTGAAA TTAATAGCTC AGCCAGCAAT ACAGAACACA AGATAGAGAG TCCAACCAAA 
AATGAAAGGC TTAACCAAGT TGCTGAGGAC TGTGAACCTG GAAAGAAATT GGTGGAAAAA 
CATACAAAAA AAGGAAGTGA TGAATCGGAA AGTGATTTTG AATCGGACCC CCCCTCTCCG 
AAGAGCAGTG AGGAAGAGGA GGAACAGGAG GATGAAGAAG TTTTGCAGGG TGAGCATGGA 
GATTTTATGG ATGACAATTA CACCGAACCA GAGAACTTTG GCCAGCATCC TCTTCTCATG 
GATTCTGAGG AAGATGCAGA AGATGATGAT AAGCAAAGTT CTGATTCTGA TTCTGTTCAT 
GTTAGGCCTG TAGAGGAGGT GCCTGGTAGT AGATACAAAA AAGAAGCTGG AAGTGTTGAG 
ACCAAGGAGC CTATTTTACA ATGCTCTATA TTGTCTGAGA CCAAGGTGAG TCCCAAACAA 
GAGTTTGATG TCTTTGGAGC AGTTCCATTC TTTCCTCTTC AGACTCAAGA GCCTAAACAA 
AAAGATAGCA AAGATTTCTC TCCCCAAGCT GATTTTCCAG GCTCAGCGCA AGATCAGGAT 
GAGTTTGATG TCTTCACCAA AGCCCCATTT GGCAGGAAAA TGTCTCAGCA AGATGATTTG 
ATTTCAGGTT GTGAAAATCA ACCTATTCCT ATATCTCCTA TGTCTCCTGT GGATGTTTTT 
GGATGTATCC CATTCCACCC TTCCTCTGTT TCAAAAAGTG ATGAGAGTAA AGAGGATCTC 
TTTGGGCTTA TCCCATTTGA GGAGATAGCA GGAAGCGAAC AGCAACAGCA ACAGAAAGCA 
AAGCAGCAGC AACGGAATCT GCAGAAACTC TCTTCTCGCC AGAGACGCAT GAAACAGGAG 
GGATCCAAGA CCAATGGAAA GCGCCATCAC GGCACCCCAA CTAGCACTAA GAAGACTTTG 
AAACCCAATT ACCGTACACC TGAAAGAGTC CGAAGGCATA AAAAGGCTGG TCGCCGGGAT 
TCCCAGAGCA GCAATGAGTT CTTGACGATC TCTGATTCCA AGGAAAACAT TAGTATTGCC 
ATGCCCGATA ACAAAGACAG AGTGAGCTCT CTGCAAACAG AGGATGCCCT TCTGGATCCT 
TTTGGAGCCA AGCCTTTCCA CCCCACAGAA TTGGTGCGCC ACCCTCAGCA TCAAGGACTG 
GGTGATAACC GTGGGGATCA CAACACAGTC GTTCCTGGTA GACCTAGGCA GGGCTCACTG 
CTTGGCAGTA TTCAGTCTGG CGATGGACTA AAACTAACAG ATGATTTTGG GGCAGTTCCT 
TTTACAGAAC TTGTGCCTAG TATGGCATCA CAACAAAGCC AGCAACAGGC AGGAGAGTTA 
GATCCATTTG GAGCTGCTCC ATTTCCTTCT AAACAGTAG

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

bmp2k ( XM_008112131.2 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_008110338.1 Anolis carolinensis BMP2 inducible kinase (bmp2k), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAn36788
Clone ID Related Accession (Same CDS sequence)	XM_008112131.2
Accession Version	XM_008112131.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3213bp) 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	2016-05-30
Organism	Anolis carolinensis(green anole)
Product	BMP-2-inducible protein kinase isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_014780.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_008112131.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 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##

ATGCAGGCCC AAGGTGGCTT TTCCACAGTG CTGCTTGTGC GCACACATGG TGGAGTTCGG 
TGTGCATTGA AACGAATGTA TGTTAATAAT GTGCCTGACC TCAATGTCTG CAAAAGAGAA 
ATAACAATAA TGAAAGAGCT GTCTGGGCAC AAGAATATTG TAGGATATTT GGACTGTGCT 
GTCAATTCTG TGAATGATAA TGTGTGGGAG GTGCTCATAT TAATGGAATA CTGTCGTGCG 
GGACAGGTAG TGAATCAAAT GAACCAGAGA TTGCAGACAG GCTTTACTGA GCCAGAAGTG 
CTGAGGATAT TTTGTGATGC CTGTGAAGCT GTTGCTAGGC TGCATCAATG CAAAACTCCC 
ATTGTTCATA GAGATTTGAA GGTTGAGAAT ATTTTGTTGA GTGATAGTGG AAACTATGTC 
CTGTGCGATT TTGGAAGTGC CACTAATAAA TTCCTTAATC CTCAGAAAGA TGGAGTCAAT 
GTAGTTGAAG AGGAAATTAA AAAGTATACT ACTTTATCAT ACAGAGCTCC TGAAATGATC 
AACCTTTATG GAGGAAAGCC AGTTACTACC AAGGCAGATA TCTGGGCCCT TGGTTGCTTG 
CTATATAAGC TTTGTTTCTT CACACTTCCC TTTGGTGAGA GTCAAGTTGC CATTTGTGAT 
GGAAGTTTTA CCATCCCAGA CAATTCCCGT TACTCCCATG GTATACACTG TTTGATAAGA 
TATATGCTTG AACCAGATCA AGAACGGAGA CCTGATATCT TTCAAGTATC TTATTTTGCC 
TTTAAACTTG CCAAAAAGGA CTGTCCATTA TCAAACATTA ATAACTCTCC TATCCCTTCA 
GCACTTCCTG AGCCATTGAC AGCTAGTGAG GCTGCTGCTA GGAAAAGCCA AATCAAAGCT 
AGAATAACAG ATTCCATTGG ACCAACAGAA ACCTCAATAG CACCACGGCA AAGACCAAAG 
GCCAATACAA GCACTGCCAC TTCTAGTGTA TTAGCAATCC AGAGCTCAGC AACACCAGTC 
AAAGTGCCAG TTCCTGGTGA TCTTAACAAT GGGCAGAAAG GAGCCTCAAA ACCTGGAAGT 
AGCCAACAGA GCATGTTGTC CCAAGGAGCT AATCCACCTT CACAGCAGAA CAGAGTGCTC 
CAACAACTAC AGCAGGGTGA CTGGAGACTT CAGCAATTGC ATCACTTACA TCACCAGCAG 
CAACAGCAAT TGCTTCAAGA TGCATACGTG CAGCAGTATC AGCAAACAAT GCAGCAGCAC 
ATGATTCAAC AGCAGCTTTT GATGCGCTCT GTGTACCAGC AACAACCTCC CTCATCCTCA 
TATCCCGCCA TGATGCAGCA GTACCAACAA GCTCTTCTAC AGCAACAGGT CTTTGCGAAG 
CAGTTGCCAC CACCTAAGCA TTCTCCTGAA TTTCTTGCTT CTCCTCAGGA GTTCTCGCCA 
GCCTTAATCT CCCATTCCAA GTCATTTCCA GCTCATGTTG GGGCAGCTCT GGACACCCAT 
TATTCTACAA ATAGATTAAC TTCCTCTGAT GCAGAGTCTG TTTCCACTTA TCAAAAACAG 
AACATCAGTA ACCCACCTGA TATGTCTGGC TGGAATCCAT TTGGAGAAGA CAATTTCTCC 
AAGCTAACAG AGGAGGAGCT GTTGGACAGG GAGTTTGACC TCCTGAGATC AAACAGGCTC 
GAGGAGAGGA GAACATCCTC AGATAAGAAT GTGGAGACAC ATTCTGCTCC ACAGAACCAT 
CCTCCAGAAG ATCCCTTTGG TTCTGTACCT TTCATTTCTC ACCCAGGTTC TCCAGGAAGT 
GAAATTAATA GCTCAGCCAG CAATACAGAA CACAAGATAG AGAGTCCAAC CAAAAATGAA 
AGGCTTAACC AAGTTGCTGA GGACTGTGAA CCTGGAAAGA AATTGGTGGA AAAACATACA 
AAAAAAGGAA GTGATGAATC GGAAAGTGAT TTTGAATCGG ACCCCCCCTC TCCGAAGAGC 
AGTGAGGAAG AGGAGGAACA GGAGGATGAA GAAGTTTTGC AGGGTGAGCA TGGAGATTTT 
ATGGATGACA ATTACACCGA ACCAGAGAAC TTTGGCCAGC ATCCTCTTCT CATGGATTCT 
GAGGAAGATG CAGAAGATGA TGATAAGCAA AGTTCTGATT CTGATTCTGT TCATGTTAGG 
CCTGTAGAGG AGGTGCCTGG TAGTAGATAC AAAAAAGAAG CTGGAAGTGT TGAGACCAAG 
GAGCCTATTT TACAATGCTC TATATTGTCT GAGACCAAGG TGAGTCCCAA ACAAGAGTTT 
GATGTCTTTG GAGCAGTTCC ATTCTTTCCT CTTCAGACTC AAGAGCCTAA ACAAAAAGAT 
AGCAAAGATT TCTCTCCCCA AGCTGATTTT CCAGGCTCAG CGCAAGATCA GGATGAGTTT 
GATGTCTTCA CCAAAGCCCC ATTTGGCAGG AAAATGTCTC AGCAAGATGA TTTGATTTCA 
GGTTGTGAAA ATCAACCTAT TCCTATATCT CCTATGTCTC CTGTGGATGT TTTTGGATGT 
ATCCCATTCC ACCCTTCCTC TGTTTCAAAA AGTGATGAGA GTAAAGAGGA TCTCTTTGGG 
CTTATCCCAT TTGAGGAGAT AGCAGGAAGC GAACAGCAAC AGCAACAGAA AGCAAAGCAG 
CAGCAACGGA ATCTGCAGAA ACTCTCTTCT CGCCAGAGAC GCATGAAACA GGAGGGATCC 
AAGACCAATG GAAAGCGCCA TCACGGCACC CCAACTAGCA CTAAGAAGAC TTTGAAACCC 
AATTACCGTA CACCTGAAAG AGTCCGAAGG CATAAAAAGG CTGGTCGCCG GGATTCCCAG 
AGCAGCAATG AGTTCTTGAC GATCTCTGAT TCCAAGGAAA ACATTAGTAT TGCCATGCCC 
GATAACAAAG ACAGAGTGAG CTCTCTGCAA ACAGAGGATG CCCTTCTGGA TCCTTTTGGA 
GCCAAGCCTT TCCACCCCAC AGAATTGGTG CGCCACCCTC AGCATCAAGG ACTGGGTGAT 
AACCGTGGGG ATCACAACAC AGTCGTTCCT GGTAGACCTA GGCAGGGCTC ACTGCTTGGC 
AGTATTCAGT CTGGCGATGG ACTAAAACTA ACAGATGATT TTGGGGCAGT TCCTTTTACA 
GAACTTGTGC CTAGTATGGC ATCACAACAA AGCCAGCAAC AGGCAGGAGA GTTAGATCCA 
TTTGGAGCTG CTCCATTTCC TTCTAAACAG TAG

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

RefSeq	XP_008110338.1
CDS	1098..4310
Translation	MQAQGGFSTVLLVRTHGGVRCALKRMYVNNVPDLNVCKREITIMKELSGHKNIVGYLDCAVNSVNDNVWEVLILMEYCRAGQVVNQMNQRLQTGFTEPEVLRIFCDACEAVARLHQCKTPIVHRDLKVENILLSDSGNYVLCDFGSATNKFLNPQKDGVNVVEEEIKKYTTLSYRAPEMINLYGGKPVTTKADIWALGCLLYKLCFFTLPFGESQVAICDGSFTIPDNSRYSHGIHCLIRYMLEPDQERRPDIFQVSYFAFKLAKKDCPLSNINNSPIPSALPEPLTASEAAARKSQIKARITDSIGPTETSIAPRQRPKANTSTATSSVLAIQSSATPVKVPVPGDLNNGQKGASKPGSSQQSMLSQGANPPSQQNRVLQQLQQGDWRLQQLHHLHHQQQQQLLQDAYVQQYQQTMQQHMIQQQLLMRSVYQQQPPSSSYPAMMQQYQQALLQQQVFAKQLPPPKHSPEFLASPQEFSPALISHSKSFPAHVGAALDTHYSTNRLTSSDAESVSTYQKQNISNPPDMSGWNPFGEDNFSKLTEEELLDREFDLLRSNRLEERRTSSDKNVETHSAPQNHPPEDPFGSVPFISHPGSPGSEINSSASNTEHKIESPTKNERLNQVAEDCEPGKKLVEKHTKKGSDESESDFESDPPSPKSSEEEEEQEDEEVLQGEHGDFMDDNYTEPENFGQHPLLMDSEEDAEDDDKQSSDSDSVHVRPVEEVPGSRYKKEAGSVETKEPILQCSILSETKVSPKQEFDVFGAVPFFPLQTQEPKQKDSKDFSPQADFPGSAQDQDEFDVFTKAPFGRKMSQQDDLISGCENQPIPISPMSPVDVFGCIPFHPSSVSKSDESKEDLFGLIPFEEIAGSEQQQQQKAKQQQRNLQKLSSRQRRMKQEGSKTNGKRHHGTPTSTKKTLKPNYRTPERVRRHKKAGRRDSQSSNEFLTISDSKENISIAMPDNKDRVSSLQTEDALLDPFGAKPFHPTELVRHPQHQGLGDNRGDHNTVVPGRPRQGSLLGSIQSGDGLKLTDDFGAVPFTELVPSMASQQSQQQAGELDPFGAAPFPSKQ

Target ORF information:

RefSeq Version	XM_008112131.2
Organism	Anolis carolinensis(green anole)
Definition	Anolis carolinensis BMP2 inducible kinase (bmp2k), transcript variant X2, mRNA.

Target ORF information:

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

XM_008112131.2

ORF Insert Sequence:

ATGCAGGCCC AAGGTGGCTT TTCCACAGTG CTGCTTGTGC GCACACATGG TGGAGTTCGG 
TGTGCATTGA AACGAATGTA TGTTAATAAT GTGCCTGACC TCAATGTCTG CAAAAGAGAA 
ATAACAATAA TGAAAGAGCT GTCTGGGCAC AAGAATATTG TAGGATATTT GGACTGTGCT 
GTCAATTCTG TGAATGATAA TGTGTGGGAG GTGCTCATAT TAATGGAATA CTGTCGTGCG 
GGACAGGTAG TGAATCAAAT GAACCAGAGA TTGCAGACAG GCTTTACTGA GCCAGAAGTG 
CTGAGGATAT TTTGTGATGC CTGTGAAGCT GTTGCTAGGC TGCATCAATG CAAAACTCCC 
ATTGTTCATA GAGATTTGAA GGTTGAGAAT ATTTTGTTGA GTGATAGTGG AAACTATGTC 
CTGTGCGATT TTGGAAGTGC CACTAATAAA TTCCTTAATC CTCAGAAAGA TGGAGTCAAT 
GTAGTTGAAG AGGAAATTAA AAAGTATACT ACTTTATCAT ACAGAGCTCC TGAAATGATC 
AACCTTTATG GAGGAAAGCC AGTTACTACC AAGGCAGATA TCTGGGCCCT TGGTTGCTTG 
CTATATAAGC TTTGTTTCTT CACACTTCCC TTTGGTGAGA GTCAAGTTGC CATTTGTGAT 
GGAAGTTTTA CCATCCCAGA CAATTCCCGT TACTCCCATG GTATACACTG TTTGATAAGA 
TATATGCTTG AACCAGATCA AGAACGGAGA CCTGATATCT TTCAAGTATC TTATTTTGCC 
TTTAAACTTG CCAAAAAGGA CTGTCCATTA TCAAACATTA ATAACTCTCC TATCCCTTCA 
GCACTTCCTG AGCCATTGAC AGCTAGTGAG GCTGCTGCTA GGAAAAGCCA AATCAAAGCT 
AGAATAACAG ATTCCATTGG ACCAACAGAA ACCTCAATAG CACCACGGCA AAGACCAAAG 
GCCAATACAA GCACTGCCAC TTCTAGTGTA TTAGCAATCC AGAGCTCAGC AACACCAGTC 
AAAGTGCCAG TTCCTGGTGA TCTTAACAAT GGGCAGAAAG GAGCCTCAAA ACCTGGAAGT 
AGCCAACAGA GCATGTTGTC CCAAGGAGCT AATCCACCTT CACAGCAGAA CAGAGTGCTC 
CAACAACTAC AGCAGGGTGA CTGGAGACTT CAGCAATTGC ATCACTTACA TCACCAGCAG 
CAACAGCAAT TGCTTCAAGA TGCATACGTG CAGCAGTATC AGCAAACAAT GCAGCAGCAC 
ATGATTCAAC AGCAGCTTTT GATGCGCTCT GTGTACCAGC AACAACCTCC CTCATCCTCA 
TATCCCGCCA TGATGCAGCA GTACCAACAA GCTCTTCTAC AGCAACAGGT CTTTGCGAAG 
CAGTTGCCAC CACCTAAGCA TTCTCCTGAA TTTCTTGCTT CTCCTCAGGA GTTCTCGCCA 
GCCTTAATCT CCCATTCCAA GTCATTTCCA GCTCATGTTG GGGCAGCTCT GGACACCCAT 
TATTCTACAA ATAGATTAAC TTCCTCTGAT GCAGAGTCTG TTTCCACTTA TCAAAAACAG 
AACATCAGTA ACCCACCTGA TATGTCTGGC TGGAATCCAT TTGGAGAAGA CAATTTCTCC 
AAGCTAACAG AGGAGGAGCT GTTGGACAGG GAGTTTGACC TCCTGAGATC AAACAGGCTC 
GAGGAGAGGA GAACATCCTC AGATAAGAAT GTGGAGACAC ATTCTGCTCC ACAGAACCAT 
CCTCCAGAAG ATCCCTTTGG TTCTGTACCT TTCATTTCTC ACCCAGGTTC TCCAGGAAGT 
GAAATTAATA GCTCAGCCAG CAATACAGAA CACAAGATAG AGAGTCCAAC CAAAAATGAA 
AGGCTTAACC AAGTTGCTGA GGACTGTGAA CCTGGAAAGA AATTGGTGGA AAAACATACA 
AAAAAAGGAA GTGATGAATC GGAAAGTGAT TTTGAATCGG ACCCCCCCTC TCCGAAGAGC 
AGTGAGGAAG AGGAGGAACA GGAGGATGAA GAAGTTTTGC AGGGTGAGCA TGGAGATTTT 
ATGGATGACA ATTACACCGA ACCAGAGAAC TTTGGCCAGC ATCCTCTTCT CATGGATTCT 
GAGGAAGATG CAGAAGATGA TGATAAGCAA AGTTCTGATT CTGATTCTGT TCATGTTAGG 
CCTGTAGAGG AGGTGCCTGG TAGTAGATAC AAAAAAGAAG CTGGAAGTGT TGAGACCAAG 
GAGCCTATTT TACAATGCTC TATATTGTCT GAGACCAAGG TGAGTCCCAA ACAAGAGTTT 
GATGTCTTTG GAGCAGTTCC ATTCTTTCCT CTTCAGACTC AAGAGCCTAA ACAAAAAGAT 
AGCAAAGATT TCTCTCCCCA AGCTGATTTT CCAGGCTCAG CGCAAGATCA GGATGAGTTT 
GATGTCTTCA CCAAAGCCCC ATTTGGCAGG AAAATGTCTC AGCAAGATGA TTTGATTTCA 
GGTTGTGAAA ATCAACCTAT TCCTATATCT CCTATGTCTC CTGTGGATGT TTTTGGATGT 
ATCCCATTCC ACCCTTCCTC TGTTTCAAAA AGTGATGAGA GTAAAGAGGA TCTCTTTGGG 
CTTATCCCAT TTGAGGAGAT AGCAGGAAGC GAACAGCAAC AGCAACAGAA AGCAAAGCAG 
CAGCAACGGA ATCTGCAGAA ACTCTCTTCT CGCCAGAGAC GCATGAAACA GGAGGGATCC 
AAGACCAATG GAAAGCGCCA TCACGGCACC CCAACTAGCA CTAAGAAGAC TTTGAAACCC 
AATTACCGTA CACCTGAAAG AGTCCGAAGG CATAAAAAGG CTGGTCGCCG GGATTCCCAG 
AGCAGCAATG AGTTCTTGAC GATCTCTGAT TCCAAGGAAA ACATTAGTAT TGCCATGCCC 
GATAACAAAG ACAGAGTGAG CTCTCTGCAA ACAGAGGATG CCCTTCTGGA TCCTTTTGGA 
GCCAAGCCTT TCCACCCCAC AGAATTGGTG CGCCACCCTC AGCATCAAGG ACTGGGTGAT 
AACCGTGGGG ATCACAACAC AGTCGTTCCT GGTAGACCTA GGCAGGGCTC ACTGCTTGGC 
AGTATTCAGT CTGGCGATGG ACTAAAACTA ACAGATGATT TTGGGGCAGT TCCTTTTACA 
GAACTTGTGC CTAGTATGGC ATCACAACAA AGCCAGCAAC AGGCAGGAGA GTTAGATCCA 
TTTGGAGCTG CTCCATTTCC TTCTAAACAG TAG