brinp2 cDNA ORF clone,

Gene
Clones
gRNAs

The following brinp2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the brinp2 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
OIn09923	XM_024273754.1 Latest version!	Oryzias melastigma BMP/retinoic acid inducible neural specific 2 (brinp2), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OIn09923	XM_024273753.1 Latest version!	Oryzias melastigma BMP/retinoic acid inducible neural specific 2 (brinp2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00

ORF Online Only Promotion

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

brinp2 ( XM_024273753.1 ) cDNA ORF clone, -> XP_024129521.1 Oryzias melastigma BMP/retinoic acid inducible neural specific 2 (brinp2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OIn09923
Clone ID Related Accession (Same CDS sequence)	XM_024273753.1 , XM_024273754.1
Accession Version	XM_024273753.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2466bp) 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	2018-03-10
Organism	Oryzias melastigma(Indian medaka)
Product	BMP/retinoic acid-inducible neural-specific protein 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_020096083.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Oryzias melastigma Annotation Release 100 Annotation Version :: 100 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##

ATGGCGACTC CTTGGCCAGT GAGAAAACAG AGGTGCTCCC ATGGCTTTGC CATTCTTGCT 
AGATGGTCGG CGTCCTCCTT GATGCTCCTG TGGTTGCATT GGGTGTTGCT ATGGCTGCCA 
TGGCCCACTC AAGCTCAGCA AGCGGGCAGC GGTGGACAGA GCGGGAAGGC GCTCCACGGT 
TCCGTTTCCT CCTCCTCGTC TTCTTCTTCC TCCTCCTCCT CCTCGTCCTC CTCCTCGTCC 
CCGTCCAGCA CCTCGGCGTG GGGGTTCAAC ACCCGGCAGA GCGGCGGGCA GCTGGACTGG 
CTGCTGTCGG AAAAGGGACC TTTCCACAGA TGTCCAGAGT ACACTGAGTT CAGGGAGAGG 
TTCCAGCAGG GCTTTTCCAC CAGATACAAG ATTTACAGGG AGTTCAGCCA CTGGAAGGTG 
AACAGCTTGG CCACAGAAAA GAGAGATTTC CTGAAAGCGC CGTTGCCCTT AGCACCAGAG 
TTCCTACGCA ACCTGCGGCT ACTGGGGCGA CGGCCAACCC TGCAGCAAAT CAACGAAAAC 
CTCATCAAGA AGTACGGGAC CCACTTCCTG GTTTCTGCCA CACTGGGAGG TGAAGAGTCT 
TTAACCATTT TCCTGGACAA GCAGAAGCTA AATAAGAAGT CAGAGGGCAA CAGCAACAGC 
TCAGTGGTGT CTCTGGAACT GCTCCATCAG CTGGCAGCTT CCTACTTCAC AGACCGTGAA 
AGCACCCTTC GGCGACTCCA CCACCTCCAG ATTGCCACCT CTGCCATTAA GGTTACTGAA 
ACAAGGACGG GCCCTCTTGG ATGCAGTAAC TACGACAGCT TGGATTCAGT TAGCTCGGTT 
TTGGTGCACA GCCCGGAAAA TAAGATCCAC CTAAAGGGTT TACAAGACGT CCTGCCAGAG 
TTCCTGCGCG GGCGCTTTGT GCAGGCAGCC CTCAGCTATG TGGCATGCAA CTCCGAGGGG 
GAACTGATCT GCCGTAGCAA TGACTGCTGG TGCCAGTGCT CGCCTCGATT CCCAGAATGC 
AACTGTCCTT TTGCTGACAT CAAGGTCATG GAGGAAAACC TGGAGAAGTG CAAAGTGGCC 
TGGAGCAACT TCAACCAAGA GTTTATGGAA TCAGATGAGT TCAAAGCTTT CCTGAAGCGT 
TTGCCCACCG ATCGATTCCT GAACGTGTCC ACGATTGCCA AGTTCTGGTC TGCTGACCCG 
CCTCTCCAAA AGCGCTACAC CCAGCTGGAG GCAAGCACTG CACTGGTTTT CGGAAAAGCC 
CAGAAGATCA TCAGGAAGTT ATTCACTTTG AGCAAACGCT GCCCCAAACA GCCTCGCATC 
AGCCTGCCCC GAGAAAGGTC TGTAGGGTTC TGGCTGGGCA GGGCTCAATC TCTGCTCTAC 
TGCAATGAAC ACGGAGTTCT GGGCTCCTTC TCCGAGGAGG CAAAGAGTTG CAGCTGTCCC 
GCGGACCAGC CCACATGCCA AGGCGTCATC CCCTGTGTCA TAGGTCCCTC ACTCACTTCC 
TGCTCCGTCT GCGCCAGTGA CAATGCCACC CGCTGCGGAG CCTGTCACCA TGGCAACCTC 
CTTCATCTTG GCTCCTGCCG GCCGAGCATT GCCGCATCGC TGGACCATTA TCTGAACTTT 
GACCTGGACA TGCCAGACGC TGAGGTGAAG TACCTTCTGC AGAGACTGGA CAGCAGAATA 
GAAGTCCACG CCATCTACAT CAGCAATGAT GTCCGCTTGG GAAGTTGGTT CAACCCTGCC 
TGGAGGAAAA GGATGTTACT GACCCTCAAG AGCAACAAAA ACAAATCCAA CCTCATCCAC 
ATGCTGATGG CCATTTCTTT CCAGATATGC TCAACTAAGA ATTCCACACT GGAACCTGTG 
CCTGTGGTTT ACGTGAATCC TTTTGGGGGC AGTCATTCAG AGAGCTGGTT CATGCCAGTA 
AACCAGCCTG ACTTCCCAGA CTGGGAAAGA ACTAAGCTTG ATGGCATTAC CACTGCAGAC 
TGCTATAACT GGACTCTGTC TCTGAACAAC AAGTGGAAGT CTTTCTTCGA AACAGTGCAC 
ATCTACCTGC GGAGCCGCAT AGTCACGGAT GATCCAACGG TGAATGAGAC TCTTTTCTAT 
GAGCCACTGG ACTTGGACGA CCAGACGTCA AACCTCGGCT ACATGAAGAT CAACACGCTC 
AAAGTCTTTG GATACAGCAT GCACTTTGAC CCCGAAGGCA TCAAGGACCT GATTCTGCAG 
CTGGACTACC CCTACACGCA GGGCACACAG GACGCCGCCT TTCTGATGCT GCTGGAGATG 
CAGGACCGGA TTAACCGGCT CTCTCCCCCG GCGGTGCCGC CCATCGACCT GTTTTCCTGC 
CTGCTGCGGC ACCGCCTCAA GCTGTCAGCT GGAGAGGTAG CACAAATAAA GGAGTCTCTG 
CAGATCTTCA ACTCCAAGCT TCCCAATGCT TTCCCAGAAC CCGAACTGAC CCAGCTGTGC 
AGCTAG

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

RefSeq	XP_024129521.1
CDS	947..3412
Translation	MATPWPVRKQRCSHGFAILARWSASSLMLLWLHWVLLWLPWPTQAQQAGSGGQSGKALHGSVSSSSSSSSSSSSSSSSSSPSSTSAWGFNTRQSGGQLDWLLSEKGPFHRCPEYTEFRERFQQGFSTRYKIYREFSHWKVNSLATEKRDFLKAPLPLAPEFLRNLRLLGRRPTLQQINENLIKKYGTHFLVSATLGGEESLTIFLDKQKLNKKSEGNSNSSVVSLELLHQLAASYFTDRESTLRRLHHLQIATSAIKVTETRTGPLGCSNYDSLDSVSSVLVHSPENKIHLKGLQDVLPEFLRGRFVQAALSYVACNSEGELICRSNDCWCQCSPRFPECNCPFADIKVMEENLEKCKVAWSNFNQEFMESDEFKAFLKRLPTDRFLNVSTIAKFWSADPPLQKRYTQLEASTALVFGKAQKIIRKLFTLSKRCPKQPRISLPRERSVGFWLGRAQSLLYCNEHGVLGSFSEEAKSCSCPADQPTCQGVIPCVIGPSLTSCSVCASDNATRCGACHHGNLLHLGSCRPSIAASLDHYLNFDLDMPDAEVKYLLQRLDSRIEVHAIYISNDVRLGSWFNPAWRKRMLLTLKSNKNKSNLIHMLMAISFQICSTKNSTLEPVPVVYVNPFGGSHSESWFMPVNQPDFPDWERTKLDGITTADCYNWTLSLNNKWKSFFETVHIYLRSRIVTDDPTVNETLFYEPLDLDDQTSNLGYMKINTLKVFGYSMHFDPEGIKDLILQLDYPYTQGTQDAAFLMLLEMQDRINRLSPPAVPPIDLFSCLLRHRLKLSAGEVAQIKESLQIFNSKLPNAFPEPELTQLCS

Target ORF information:

RefSeq Version	XM_024273753.1
Organism	Oryzias melastigma(Indian medaka)
Definition	Oryzias melastigma BMP/retinoic acid inducible neural specific 2 (brinp2), transcript variant X1, mRNA.

Target ORF information:

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

XM_024273753.1

ORF Insert Sequence:

ATGGCGACTC CTTGGCCAGT GAGAAAACAG AGGTGCTCCC ATGGCTTTGC CATTCTTGCT 
AGATGGTCGG CGTCCTCCTT GATGCTCCTG TGGTTGCATT GGGTGTTGCT ATGGCTGCCA 
TGGCCCACTC AAGCTCAGCA AGCGGGCAGC GGTGGACAGA GCGGGAAGGC GCTCCACGGT 
TCCGTTTCCT CCTCCTCGTC TTCTTCTTCC TCCTCCTCCT CCTCGTCCTC CTCCTCGTCC 
CCGTCCAGCA CCTCGGCGTG GGGGTTCAAC ACCCGGCAGA GCGGCGGGCA GCTGGACTGG 
CTGCTGTCGG AAAAGGGACC TTTCCACAGA TGTCCAGAGT ACACTGAGTT CAGGGAGAGG 
TTCCAGCAGG GCTTTTCCAC CAGATACAAG ATTTACAGGG AGTTCAGCCA CTGGAAGGTG 
AACAGCTTGG CCACAGAAAA GAGAGATTTC CTGAAAGCGC CGTTGCCCTT AGCACCAGAG 
TTCCTACGCA ACCTGCGGCT ACTGGGGCGA CGGCCAACCC TGCAGCAAAT CAACGAAAAC 
CTCATCAAGA AGTACGGGAC CCACTTCCTG GTTTCTGCCA CACTGGGAGG TGAAGAGTCT 
TTAACCATTT TCCTGGACAA GCAGAAGCTA AATAAGAAGT CAGAGGGCAA CAGCAACAGC 
TCAGTGGTGT CTCTGGAACT GCTCCATCAG CTGGCAGCTT CCTACTTCAC AGACCGTGAA 
AGCACCCTTC GGCGACTCCA CCACCTCCAG ATTGCCACCT CTGCCATTAA GGTTACTGAA 
ACAAGGACGG GCCCTCTTGG ATGCAGTAAC TACGACAGCT TGGATTCAGT TAGCTCGGTT 
TTGGTGCACA GCCCGGAAAA TAAGATCCAC CTAAAGGGTT TACAAGACGT CCTGCCAGAG 
TTCCTGCGCG GGCGCTTTGT GCAGGCAGCC CTCAGCTATG TGGCATGCAA CTCCGAGGGG 
GAACTGATCT GCCGTAGCAA TGACTGCTGG TGCCAGTGCT CGCCTCGATT CCCAGAATGC 
AACTGTCCTT TTGCTGACAT CAAGGTCATG GAGGAAAACC TGGAGAAGTG CAAAGTGGCC 
TGGAGCAACT TCAACCAAGA GTTTATGGAA TCAGATGAGT TCAAAGCTTT CCTGAAGCGT 
TTGCCCACCG ATCGATTCCT GAACGTGTCC ACGATTGCCA AGTTCTGGTC TGCTGACCCG 
CCTCTCCAAA AGCGCTACAC CCAGCTGGAG GCAAGCACTG CACTGGTTTT CGGAAAAGCC 
CAGAAGATCA TCAGGAAGTT ATTCACTTTG AGCAAACGCT GCCCCAAACA GCCTCGCATC 
AGCCTGCCCC GAGAAAGGTC TGTAGGGTTC TGGCTGGGCA GGGCTCAATC TCTGCTCTAC 
TGCAATGAAC ACGGAGTTCT GGGCTCCTTC TCCGAGGAGG CAAAGAGTTG CAGCTGTCCC 
GCGGACCAGC CCACATGCCA AGGCGTCATC CCCTGTGTCA TAGGTCCCTC ACTCACTTCC 
TGCTCCGTCT GCGCCAGTGA CAATGCCACC CGCTGCGGAG CCTGTCACCA TGGCAACCTC 
CTTCATCTTG GCTCCTGCCG GCCGAGCATT GCCGCATCGC TGGACCATTA TCTGAACTTT 
GACCTGGACA TGCCAGACGC TGAGGTGAAG TACCTTCTGC AGAGACTGGA CAGCAGAATA 
GAAGTCCACG CCATCTACAT CAGCAATGAT GTCCGCTTGG GAAGTTGGTT CAACCCTGCC 
TGGAGGAAAA GGATGTTACT GACCCTCAAG AGCAACAAAA ACAAATCCAA CCTCATCCAC 
ATGCTGATGG CCATTTCTTT CCAGATATGC TCAACTAAGA ATTCCACACT GGAACCTGTG 
CCTGTGGTTT ACGTGAATCC TTTTGGGGGC AGTCATTCAG AGAGCTGGTT CATGCCAGTA 
AACCAGCCTG ACTTCCCAGA CTGGGAAAGA ACTAAGCTTG ATGGCATTAC CACTGCAGAC 
TGCTATAACT GGACTCTGTC TCTGAACAAC AAGTGGAAGT CTTTCTTCGA AACAGTGCAC 
ATCTACCTGC GGAGCCGCAT AGTCACGGAT GATCCAACGG TGAATGAGAC TCTTTTCTAT 
GAGCCACTGG ACTTGGACGA CCAGACGTCA AACCTCGGCT ACATGAAGAT CAACACGCTC 
AAAGTCTTTG GATACAGCAT GCACTTTGAC CCCGAAGGCA TCAAGGACCT GATTCTGCAG 
CTGGACTACC CCTACACGCA GGGCACACAG GACGCCGCCT TTCTGATGCT GCTGGAGATG 
CAGGACCGGA TTAACCGGCT CTCTCCCCCG GCGGTGCCGC CCATCGACCT GTTTTCCTGC 
CTGCTGCGGC ACCGCCTCAA GCTGTCAGCT GGAGAGGTAG CACAAATAAA GGAGTCTCTG 
CAGATCTTCA ACTCCAAGCT TCCCAATGCT TTCCCAGAAC CCGAACTGAC CCAGCTGTGC 
AGCTAG

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

brinp2 ( XM_024273754.1 ) cDNA ORF clone, -> XP_024129522.1 Oryzias melastigma BMP/retinoic acid inducible neural specific 2 (brinp2), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OIn09923
Clone ID Related Accession (Same CDS sequence)	XM_024273753.1 , XM_024273754.1
Accession Version	XM_024273754.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2466bp) 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	2018-03-10
Organism	Oryzias melastigma(Indian medaka)
Product	BMP/retinoic acid-inducible neural-specific protein 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_020096083.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Oryzias melastigma Annotation Release 100 Annotation Version :: 100 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##

ATGGCGACTC CTTGGCCAGT GAGAAAACAG AGGTGCTCCC ATGGCTTTGC CATTCTTGCT 
AGATGGTCGG CGTCCTCCTT GATGCTCCTG TGGTTGCATT GGGTGTTGCT ATGGCTGCCA 
TGGCCCACTC AAGCTCAGCA AGCGGGCAGC GGTGGACAGA GCGGGAAGGC GCTCCACGGT 
TCCGTTTCCT CCTCCTCGTC TTCTTCTTCC TCCTCCTCCT CCTCGTCCTC CTCCTCGTCC 
CCGTCCAGCA CCTCGGCGTG GGGGTTCAAC ACCCGGCAGA GCGGCGGGCA GCTGGACTGG 
CTGCTGTCGG AAAAGGGACC TTTCCACAGA TGTCCAGAGT ACACTGAGTT CAGGGAGAGG 
TTCCAGCAGG GCTTTTCCAC CAGATACAAG ATTTACAGGG AGTTCAGCCA CTGGAAGGTG 
AACAGCTTGG CCACAGAAAA GAGAGATTTC CTGAAAGCGC CGTTGCCCTT AGCACCAGAG 
TTCCTACGCA ACCTGCGGCT ACTGGGGCGA CGGCCAACCC TGCAGCAAAT CAACGAAAAC 
CTCATCAAGA AGTACGGGAC CCACTTCCTG GTTTCTGCCA CACTGGGAGG TGAAGAGTCT 
TTAACCATTT TCCTGGACAA GCAGAAGCTA AATAAGAAGT CAGAGGGCAA CAGCAACAGC 
TCAGTGGTGT CTCTGGAACT GCTCCATCAG CTGGCAGCTT CCTACTTCAC AGACCGTGAA 
AGCACCCTTC GGCGACTCCA CCACCTCCAG ATTGCCACCT CTGCCATTAA GGTTACTGAA 
ACAAGGACGG GCCCTCTTGG ATGCAGTAAC TACGACAGCT TGGATTCAGT TAGCTCGGTT 
TTGGTGCACA GCCCGGAAAA TAAGATCCAC CTAAAGGGTT TACAAGACGT CCTGCCAGAG 
TTCCTGCGCG GGCGCTTTGT GCAGGCAGCC CTCAGCTATG TGGCATGCAA CTCCGAGGGG 
GAACTGATCT GCCGTAGCAA TGACTGCTGG TGCCAGTGCT CGCCTCGATT CCCAGAATGC 
AACTGTCCTT TTGCTGACAT CAAGGTCATG GAGGAAAACC TGGAGAAGTG CAAAGTGGCC 
TGGAGCAACT TCAACCAAGA GTTTATGGAA TCAGATGAGT TCAAAGCTTT CCTGAAGCGT 
TTGCCCACCG ATCGATTCCT GAACGTGTCC ACGATTGCCA AGTTCTGGTC TGCTGACCCG 
CCTCTCCAAA AGCGCTACAC CCAGCTGGAG GCAAGCACTG CACTGGTTTT CGGAAAAGCC 
CAGAAGATCA TCAGGAAGTT ATTCACTTTG AGCAAACGCT GCCCCAAACA GCCTCGCATC 
AGCCTGCCCC GAGAAAGGTC TGTAGGGTTC TGGCTGGGCA GGGCTCAATC TCTGCTCTAC 
TGCAATGAAC ACGGAGTTCT GGGCTCCTTC TCCGAGGAGG CAAAGAGTTG CAGCTGTCCC 
GCGGACCAGC CCACATGCCA AGGCGTCATC CCCTGTGTCA TAGGTCCCTC ACTCACTTCC 
TGCTCCGTCT GCGCCAGTGA CAATGCCACC CGCTGCGGAG CCTGTCACCA TGGCAACCTC 
CTTCATCTTG GCTCCTGCCG GCCGAGCATT GCCGCATCGC TGGACCATTA TCTGAACTTT 
GACCTGGACA TGCCAGACGC TGAGGTGAAG TACCTTCTGC AGAGACTGGA CAGCAGAATA 
GAAGTCCACG CCATCTACAT CAGCAATGAT GTCCGCTTGG GAAGTTGGTT CAACCCTGCC 
TGGAGGAAAA GGATGTTACT GACCCTCAAG AGCAACAAAA ACAAATCCAA CCTCATCCAC 
ATGCTGATGG CCATTTCTTT CCAGATATGC TCAACTAAGA ATTCCACACT GGAACCTGTG 
CCTGTGGTTT ACGTGAATCC TTTTGGGGGC AGTCATTCAG AGAGCTGGTT CATGCCAGTA 
AACCAGCCTG ACTTCCCAGA CTGGGAAAGA ACTAAGCTTG ATGGCATTAC CACTGCAGAC 
TGCTATAACT GGACTCTGTC TCTGAACAAC AAGTGGAAGT CTTTCTTCGA AACAGTGCAC 
ATCTACCTGC GGAGCCGCAT AGTCACGGAT GATCCAACGG TGAATGAGAC TCTTTTCTAT 
GAGCCACTGG ACTTGGACGA CCAGACGTCA AACCTCGGCT ACATGAAGAT CAACACGCTC 
AAAGTCTTTG GATACAGCAT GCACTTTGAC CCCGAAGGCA TCAAGGACCT GATTCTGCAG 
CTGGACTACC CCTACACGCA GGGCACACAG GACGCCGCCT TTCTGATGCT GCTGGAGATG 
CAGGACCGGA TTAACCGGCT CTCTCCCCCG GCGGTGCCGC CCATCGACCT GTTTTCCTGC 
CTGCTGCGGC ACCGCCTCAA GCTGTCAGCT GGAGAGGTAG CACAAATAAA GGAGTCTCTG 
CAGATCTTCA ACTCCAAGCT TCCCAATGCT TTCCCAGAAC CCGAACTGAC CCAGCTGTGC 
AGCTAG

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

RefSeq	XP_024129522.1
CDS	884..3349
Translation	MATPWPVRKQRCSHGFAILARWSASSLMLLWLHWVLLWLPWPTQAQQAGSGGQSGKALHGSVSSSSSSSSSSSSSSSSSSPSSTSAWGFNTRQSGGQLDWLLSEKGPFHRCPEYTEFRERFQQGFSTRYKIYREFSHWKVNSLATEKRDFLKAPLPLAPEFLRNLRLLGRRPTLQQINENLIKKYGTHFLVSATLGGEESLTIFLDKQKLNKKSEGNSNSSVVSLELLHQLAASYFTDRESTLRRLHHLQIATSAIKVTETRTGPLGCSNYDSLDSVSSVLVHSPENKIHLKGLQDVLPEFLRGRFVQAALSYVACNSEGELICRSNDCWCQCSPRFPECNCPFADIKVMEENLEKCKVAWSNFNQEFMESDEFKAFLKRLPTDRFLNVSTIAKFWSADPPLQKRYTQLEASTALVFGKAQKIIRKLFTLSKRCPKQPRISLPRERSVGFWLGRAQSLLYCNEHGVLGSFSEEAKSCSCPADQPTCQGVIPCVIGPSLTSCSVCASDNATRCGACHHGNLLHLGSCRPSIAASLDHYLNFDLDMPDAEVKYLLQRLDSRIEVHAIYISNDVRLGSWFNPAWRKRMLLTLKSNKNKSNLIHMLMAISFQICSTKNSTLEPVPVVYVNPFGGSHSESWFMPVNQPDFPDWERTKLDGITTADCYNWTLSLNNKWKSFFETVHIYLRSRIVTDDPTVNETLFYEPLDLDDQTSNLGYMKINTLKVFGYSMHFDPEGIKDLILQLDYPYTQGTQDAAFLMLLEMQDRINRLSPPAVPPIDLFSCLLRHRLKLSAGEVAQIKESLQIFNSKLPNAFPEPELTQLCS

Target ORF information:

RefSeq Version	XM_024273754.1
Organism	Oryzias melastigma(Indian medaka)
Definition	Oryzias melastigma BMP/retinoic acid inducible neural specific 2 (brinp2), transcript variant X2, mRNA.

Target ORF information:

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

XM_024273754.1

ORF Insert Sequence:

ATGGCGACTC CTTGGCCAGT GAGAAAACAG AGGTGCTCCC ATGGCTTTGC CATTCTTGCT 
AGATGGTCGG CGTCCTCCTT GATGCTCCTG TGGTTGCATT GGGTGTTGCT ATGGCTGCCA 
TGGCCCACTC AAGCTCAGCA AGCGGGCAGC GGTGGACAGA GCGGGAAGGC GCTCCACGGT 
TCCGTTTCCT CCTCCTCGTC TTCTTCTTCC TCCTCCTCCT CCTCGTCCTC CTCCTCGTCC 
CCGTCCAGCA CCTCGGCGTG GGGGTTCAAC ACCCGGCAGA GCGGCGGGCA GCTGGACTGG 
CTGCTGTCGG AAAAGGGACC TTTCCACAGA TGTCCAGAGT ACACTGAGTT CAGGGAGAGG 
TTCCAGCAGG GCTTTTCCAC CAGATACAAG ATTTACAGGG AGTTCAGCCA CTGGAAGGTG 
AACAGCTTGG CCACAGAAAA GAGAGATTTC CTGAAAGCGC CGTTGCCCTT AGCACCAGAG 
TTCCTACGCA ACCTGCGGCT ACTGGGGCGA CGGCCAACCC TGCAGCAAAT CAACGAAAAC 
CTCATCAAGA AGTACGGGAC CCACTTCCTG GTTTCTGCCA CACTGGGAGG TGAAGAGTCT 
TTAACCATTT TCCTGGACAA GCAGAAGCTA AATAAGAAGT CAGAGGGCAA CAGCAACAGC 
TCAGTGGTGT CTCTGGAACT GCTCCATCAG CTGGCAGCTT CCTACTTCAC AGACCGTGAA 
AGCACCCTTC GGCGACTCCA CCACCTCCAG ATTGCCACCT CTGCCATTAA GGTTACTGAA 
ACAAGGACGG GCCCTCTTGG ATGCAGTAAC TACGACAGCT TGGATTCAGT TAGCTCGGTT 
TTGGTGCACA GCCCGGAAAA TAAGATCCAC CTAAAGGGTT TACAAGACGT CCTGCCAGAG 
TTCCTGCGCG GGCGCTTTGT GCAGGCAGCC CTCAGCTATG TGGCATGCAA CTCCGAGGGG 
GAACTGATCT GCCGTAGCAA TGACTGCTGG TGCCAGTGCT CGCCTCGATT CCCAGAATGC 
AACTGTCCTT TTGCTGACAT CAAGGTCATG GAGGAAAACC TGGAGAAGTG CAAAGTGGCC 
TGGAGCAACT TCAACCAAGA GTTTATGGAA TCAGATGAGT TCAAAGCTTT CCTGAAGCGT 
TTGCCCACCG ATCGATTCCT GAACGTGTCC ACGATTGCCA AGTTCTGGTC TGCTGACCCG 
CCTCTCCAAA AGCGCTACAC CCAGCTGGAG GCAAGCACTG CACTGGTTTT CGGAAAAGCC 
CAGAAGATCA TCAGGAAGTT ATTCACTTTG AGCAAACGCT GCCCCAAACA GCCTCGCATC 
AGCCTGCCCC GAGAAAGGTC TGTAGGGTTC TGGCTGGGCA GGGCTCAATC TCTGCTCTAC 
TGCAATGAAC ACGGAGTTCT GGGCTCCTTC TCCGAGGAGG CAAAGAGTTG CAGCTGTCCC 
GCGGACCAGC CCACATGCCA AGGCGTCATC CCCTGTGTCA TAGGTCCCTC ACTCACTTCC 
TGCTCCGTCT GCGCCAGTGA CAATGCCACC CGCTGCGGAG CCTGTCACCA TGGCAACCTC 
CTTCATCTTG GCTCCTGCCG GCCGAGCATT GCCGCATCGC TGGACCATTA TCTGAACTTT 
GACCTGGACA TGCCAGACGC TGAGGTGAAG TACCTTCTGC AGAGACTGGA CAGCAGAATA 
GAAGTCCACG CCATCTACAT CAGCAATGAT GTCCGCTTGG GAAGTTGGTT CAACCCTGCC 
TGGAGGAAAA GGATGTTACT GACCCTCAAG AGCAACAAAA ACAAATCCAA CCTCATCCAC 
ATGCTGATGG CCATTTCTTT CCAGATATGC TCAACTAAGA ATTCCACACT GGAACCTGTG 
CCTGTGGTTT ACGTGAATCC TTTTGGGGGC AGTCATTCAG AGAGCTGGTT CATGCCAGTA 
AACCAGCCTG ACTTCCCAGA CTGGGAAAGA ACTAAGCTTG ATGGCATTAC CACTGCAGAC 
TGCTATAACT GGACTCTGTC TCTGAACAAC AAGTGGAAGT CTTTCTTCGA AACAGTGCAC 
ATCTACCTGC GGAGCCGCAT AGTCACGGAT GATCCAACGG TGAATGAGAC TCTTTTCTAT 
GAGCCACTGG ACTTGGACGA CCAGACGTCA AACCTCGGCT ACATGAAGAT CAACACGCTC 
AAAGTCTTTG GATACAGCAT GCACTTTGAC CCCGAAGGCA TCAAGGACCT GATTCTGCAG 
CTGGACTACC CCTACACGCA GGGCACACAG GACGCCGCCT TTCTGATGCT GCTGGAGATG 
CAGGACCGGA TTAACCGGCT CTCTCCCCCG GCGGTGCCGC CCATCGACCT GTTTTCCTGC 
CTGCTGCGGC ACCGCCTCAA GCTGTCAGCT GGAGAGGTAG CACAAATAAA GGAGTCTCTG 
CAGATCTTCA ACTCCAAGCT TCCCAATGCT TTCCCAGAAC CCGAACTGAC CCAGCTGTGC 
AGCTAG