DTNA cDNA ORF clone, Acanthisitta chloris(rifleman)

Gene
Clones
gRNAs

Summary

Gene Symbol	DTNA
Entrez Gene ID	103812128
Full Name	dystrobrevin alpha
Gene Type	protein-coding
Organism	Acanthisitta chloris(rifleman)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009085136.1	XP_009083384.1	dystrobrevin alpha isoform X1
XM_009085138.1	XP_009083386.1	dystrobrevin alpha isoform X2

Pathways from BioSystems
Gene Ontology

The following DTNA gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DTNA 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
OAc116441	XM_009085136.1 Latest version!	Acanthisitta chloris dystrobrevin, alpha (DTNA), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00
OAc116442	XM_009085138.1 Latest version!	Acanthisitta chloris dystrobrevin, alpha (DTNA), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00

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)

DTNA ( XM_009085136.1 ) cDNA ORF clone, Acanthisitta chloris(rifleman) -> XP_009083384.1 Acanthisitta chloris dystrobrevin, alpha (DTNA), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc116441
Clone ID Related Accession (Same CDS sequence)	XM_009085136.1
Accession Version	XM_009085136.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2448bp) 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	2014-09-04
Organism	Acanthisitta chloris(rifleman)
Product	dystrobrevin alpha isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008658587.1) 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 Version :: Acanthisitta chloris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATTGAAG ATTGTGGGAA AAGAGGAAAT ACCATGGCAG AAAGAAGGCA GCTGTTTGCA 
GAGATGCGGG CTCAGGATCT GGATCGCATT CGCTTGTCCA CCTACCGAAC AGCATGCAAG 
CTTAGATTTG TTCAGAAGAA ATGCAACTTG CACTTGGTGG ACATCTGGAA TGTGATAGAA 
GCCTTGCGGG AAAACGCGCT GAACAACCTG GACCCCAACA TCGAACTGAA CGTGGCTCGC 
CTGGAAGCTG TGATTTCAAC CATCTTCTAC CAGCTCAACA AACGGATGCC CACGACCCAT 
CAGATCAACG TGGAGCAATC CATCAGCTTA CTGCTGAACT TCTTGCTAGC GGCCTTTGAT 
CCGGAAGGAC ATGGTAAAAT TTCTGTTTTT GCTGTCAAAA TGGCCTTGGC AACTCTTTGT 
GGAGGAAAAA TCATGGACAA ATTAAGATAT ATTTTCTCAA TGATTTCCGA CTCCAGTGGA 
GTGATGGTTT ATGGCAGATA TGACATGTTT CTGCGGGAGG TTCTCAAGCT GCCCACGGCT 
GTTTTCGAGG GGCCTTCGTT TGGTTATACT GAGCAGTCAG CAAAATCCTG TTTCTCACAA 
CAGAAAAAAG TCACGTTAAA CACTTTCTTG GATACTCTCA TGTCTGATCC CCCGCCACAG 
TGTCTAGTGT GGTTGCCACT TCTGCATCGA CTGGCAAATG TTGAAAATGT CTTCCACCCC 
GTGGAGTGTT CCTACTGCCA CAGTGAGAGC ATGATGGGGT TTCGCTACCG CTGCCAGCAG 
TGTCACAATT ACCAGCTCTG TCAGGACTGC TTCTGGAGGG GCCATGCCAG CGGTTCCCAC 
AGCAACCAGC ACCAAATGAA AGAGTACACG TCATGGAAAT CACCTGCTAA GAAGCTAACT 
AATGCACTTA GCAAGTCTTT AAGCTGTGCT TCCAGCCGTG AACCTTTGCA CCCAATGTTC 
CCTGACCAGC CTGAAAAACC TCTAAACCTG GCTCATATTG TGCCTCCCCG ACCTGTAACC 
AGCATGAATG ACACACTCTT CTCCCACTCC GTTCCCTCAG GAAGTCCCTT TGCCAACAGA 
AGGTTACTTG GGGGTATAAA TGCAGCCAGT CCTGTGGCTG ATGAGCATTC TCTTATAAAG 
CTGTATGTAA ATCAGCTTCA CAACAACTCA CGCTCTCCTT CCAAGAACAC TGAAGTAGAG 
CAGAGCAAAC TGCTGGCTAG GGCTGCTCCA GCTTTCTTGA AAGGCAAAGG GTTGCAGTAC 
AGCCTCGATG TTGCAGACAG GCTGGCTGAT GAACATGTGC TCATCGGGTT GTATGTCAAC 
ATGCTACAGA GCAACCCCGC ATGCGTGCTC GACAGCGCAA GTCGCCTGGA CGAAGAACAT 
AAGCTGATCG CCAGGTATGC AGCAAGGCTG GCAGCAGAAA CTTCTTCATC ACAGCAGAGT 
CAGCAGAGAG GGGCATCAGA TATCTCCTTC ACCATTGATG CAAACAAGCA GCAAAGGCAG 
CTGATTGCAG AGCTTGAAAA CAAAAACCGA GAAATCCTAC AGGAGATCCA GAGGCTGCGA 
CTTGAACATG AGCAAGCATC TCAGCCCACA CCAGAGAAGG CACAACAAAA TCCCACTCTC 
CTTGCAGAGC TTCGGCTCCT GAGACAGCGG AAGGATGAGC TGGAACAGAG GATGTCTGCT 
CTCCAGGAAA GCCGGAGGGA GCTTATGGTT CAGTTAGAAG GTCTCATGAA ACTGCTGAAG 
ACCCAAGGGG CAGGCTCCCC ACGTTCCTCA CCCAGCCACA CTATCAGTCG ACCTATTCCA 
ATGCCCATCA GGTCTGCCTC TGCCTGCTCC ACCCCAACAC ATGCACCTCA GGACTCTCTG 
ACCGGGGTGG GAGGAGATGT GCAGGAAGCC TTTGCACAAA GTGCAAGACG AAACTTAAGA 
AATGATTTGC TGGTGGCAGC AGATTCTATC ACCAACACCA TGTCTTCTTT GGTGAAAGAA 
CTAAACTCTG AAGTGGGCAG CGAGACAGAA AGCAACGTGG ATTCTGAATT TGGACGGACC 
CATTTTGATG ACCTGGTTCC GTCCCCGACG TCTGAGAAGG CTTTCCTCGC GCAGATCCAT 
GCCCGGAAGC CTGGTTACAT CCACAGCGCT GCTGCCACCG GCTCCATGCG CAGTGACATG 
GTTACAGAAG ATGGAGACCC CTATGTCAGA GCAGATGATG AAAATTATGA GAATGACTCT 
GTCCGCCAGC TGGAGAACGA ACTGAAGATG GAGGAGTACC TGAAGCAGAA GCTGCAGGAT 
GAGGCATACC AGGGAAGCTG CAGCCAGACA GACAACGAAA GCTACGTAAG AACCGATGAT 
GAGGAGAGCT GCTTTCGGAC AGACGATGAA GAAAACTCAG CTGCGAACTT CACAGAAGAG 
TGGAACCAAG AGGTGCAGCG TCTCTTGACA AAAAAATCAC ATAACTAA

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

RefSeq	XP_009083384.1
CDS	1..2448
Translation	MIEDCGKRGNTMAERRQLFAEMRAQDLDRIRLSTYRTACKLRFVQKKCNLHLVDIWNVIEALRENALNNLDPNIELNVARLEAVISTIFYQLNKRMPTTHQINVEQSISLLLNFLLAAFDPEGHGKISVFAVKMALATLCGGKIMDKLRYIFSMISDSSGVMVYGRYDMFLREVLKLPTAVFEGPSFGYTEQSAKSCFSQQKKVTLNTFLDTLMSDPPPQCLVWLPLLHRLANVENVFHPVECSYCHSESMMGFRYRCQQCHNYQLCQDCFWRGHASGSHSNQHQMKEYTSWKSPAKKLTNALSKSLSCASSREPLHPMFPDQPEKPLNLAHIVPPRPVTSMNDTLFSHSVPSGSPFANRRLLGGINAASPVADEHSLIKLYVNQLHNNSRSPSKNTEVEQSKLLARAAPAFLKGKGLQYSLDVADRLADEHVLIGLYVNMLQSNPACVLDSASRLDEEHKLIARYAARLAAETSSSQQSQQRGASDISFTIDANKQQRQLIAELENKNREILQEIQRLRLEHEQASQPTPEKAQQNPTLLAELRLLRQRKDELEQRMSALQESRRELMVQLEGLMKLLKTQGAGSPRSSPSHTISRPIPMPIRSASACSTPTHAPQDSLTGVGGDVQEAFAQSARRNLRNDLLVAADSITNTMSSLVKELNSEVGSETESNVDSEFGRTHFDDLVPSPTSEKAFLAQIHARKPGYIHSAAATGSMRSDMVTEDGDPYVRADDENYENDSVRQLENELKMEEYLKQKLQDEAYQGSCSQTDNESYVRTDDEESCFRTDDEENSAANFTEEWNQEVQRLLTKKSHN

Target ORF information:

RefSeq Version	XM_009085136.1
Organism	Acanthisitta chloris(rifleman)
Definition	Acanthisitta chloris dystrobrevin, alpha (DTNA), transcript variant X1, mRNA.

Target ORF information:

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

XM_009085136.1

ORF Insert Sequence:

ATGATTGAAG ATTGTGGGAA AAGAGGAAAT ACCATGGCAG AAAGAAGGCA GCTGTTTGCA 
GAGATGCGGG CTCAGGATCT GGATCGCATT CGCTTGTCCA CCTACCGAAC AGCATGCAAG 
CTTAGATTTG TTCAGAAGAA ATGCAACTTG CACTTGGTGG ACATCTGGAA TGTGATAGAA 
GCCTTGCGGG AAAACGCGCT GAACAACCTG GACCCCAACA TCGAACTGAA CGTGGCTCGC 
CTGGAAGCTG TGATTTCAAC CATCTTCTAC CAGCTCAACA AACGGATGCC CACGACCCAT 
CAGATCAACG TGGAGCAATC CATCAGCTTA CTGCTGAACT TCTTGCTAGC GGCCTTTGAT 
CCGGAAGGAC ATGGTAAAAT TTCTGTTTTT GCTGTCAAAA TGGCCTTGGC AACTCTTTGT 
GGAGGAAAAA TCATGGACAA ATTAAGATAT ATTTTCTCAA TGATTTCCGA CTCCAGTGGA 
GTGATGGTTT ATGGCAGATA TGACATGTTT CTGCGGGAGG TTCTCAAGCT GCCCACGGCT 
GTTTTCGAGG GGCCTTCGTT TGGTTATACT GAGCAGTCAG CAAAATCCTG TTTCTCACAA 
CAGAAAAAAG TCACGTTAAA CACTTTCTTG GATACTCTCA TGTCTGATCC CCCGCCACAG 
TGTCTAGTGT GGTTGCCACT TCTGCATCGA CTGGCAAATG TTGAAAATGT CTTCCACCCC 
GTGGAGTGTT CCTACTGCCA CAGTGAGAGC ATGATGGGGT TTCGCTACCG CTGCCAGCAG 
TGTCACAATT ACCAGCTCTG TCAGGACTGC TTCTGGAGGG GCCATGCCAG CGGTTCCCAC 
AGCAACCAGC ACCAAATGAA AGAGTACACG TCATGGAAAT CACCTGCTAA GAAGCTAACT 
AATGCACTTA GCAAGTCTTT AAGCTGTGCT TCCAGCCGTG AACCTTTGCA CCCAATGTTC 
CCTGACCAGC CTGAAAAACC TCTAAACCTG GCTCATATTG TGCCTCCCCG ACCTGTAACC 
AGCATGAATG ACACACTCTT CTCCCACTCC GTTCCCTCAG GAAGTCCCTT TGCCAACAGA 
AGGTTACTTG GGGGTATAAA TGCAGCCAGT CCTGTGGCTG ATGAGCATTC TCTTATAAAG 
CTGTATGTAA ATCAGCTTCA CAACAACTCA CGCTCTCCTT CCAAGAACAC TGAAGTAGAG 
CAGAGCAAAC TGCTGGCTAG GGCTGCTCCA GCTTTCTTGA AAGGCAAAGG GTTGCAGTAC 
AGCCTCGATG TTGCAGACAG GCTGGCTGAT GAACATGTGC TCATCGGGTT GTATGTCAAC 
ATGCTACAGA GCAACCCCGC ATGCGTGCTC GACAGCGCAA GTCGCCTGGA CGAAGAACAT 
AAGCTGATCG CCAGGTATGC AGCAAGGCTG GCAGCAGAAA CTTCTTCATC ACAGCAGAGT 
CAGCAGAGAG GGGCATCAGA TATCTCCTTC ACCATTGATG CAAACAAGCA GCAAAGGCAG 
CTGATTGCAG AGCTTGAAAA CAAAAACCGA GAAATCCTAC AGGAGATCCA GAGGCTGCGA 
CTTGAACATG AGCAAGCATC TCAGCCCACA CCAGAGAAGG CACAACAAAA TCCCACTCTC 
CTTGCAGAGC TTCGGCTCCT GAGACAGCGG AAGGATGAGC TGGAACAGAG GATGTCTGCT 
CTCCAGGAAA GCCGGAGGGA GCTTATGGTT CAGTTAGAAG GTCTCATGAA ACTGCTGAAG 
ACCCAAGGGG CAGGCTCCCC ACGTTCCTCA CCCAGCCACA CTATCAGTCG ACCTATTCCA 
ATGCCCATCA GGTCTGCCTC TGCCTGCTCC ACCCCAACAC ATGCACCTCA GGACTCTCTG 
ACCGGGGTGG GAGGAGATGT GCAGGAAGCC TTTGCACAAA GTGCAAGACG AAACTTAAGA 
AATGATTTGC TGGTGGCAGC AGATTCTATC ACCAACACCA TGTCTTCTTT GGTGAAAGAA 
CTAAACTCTG AAGTGGGCAG CGAGACAGAA AGCAACGTGG ATTCTGAATT TGGACGGACC 
CATTTTGATG ACCTGGTTCC GTCCCCGACG TCTGAGAAGG CTTTCCTCGC GCAGATCCAT 
GCCCGGAAGC CTGGTTACAT CCACAGCGCT GCTGCCACCG GCTCCATGCG CAGTGACATG 
GTTACAGAAG ATGGAGACCC CTATGTCAGA GCAGATGATG AAAATTATGA GAATGACTCT 
GTCCGCCAGC TGGAGAACGA ACTGAAGATG GAGGAGTACC TGAAGCAGAA GCTGCAGGAT 
GAGGCATACC AGGGAAGCTG CAGCCAGACA GACAACGAAA GCTACGTAAG AACCGATGAT 
GAGGAGAGCT GCTTTCGGAC AGACGATGAA GAAAACTCAG CTGCGAACTT CACAGAAGAG 
TGGAACCAAG AGGTGCAGCG TCTCTTGACA AAAAAATCAC ATAACTAA

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

DTNA ( XM_009085138.1 ) cDNA ORF clone, Acanthisitta chloris(rifleman) -> XP_009083386.1 Acanthisitta chloris dystrobrevin, alpha (DTNA), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc116442
Clone ID Related Accession (Same CDS sequence)	XM_009085138.1
Accession Version	XM_009085138.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2376bp) 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	2014-09-04
Organism	Acanthisitta chloris(rifleman)
Product	dystrobrevin alpha isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008658587.1) 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 Version :: Acanthisitta chloris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGACA ATTTGGGGAC CAGCTTCTCC ACAAACCACT CCACAGAGAG GCTGGCAAAA 
AGCATTGGGT ACATGTGGAG CACCAGTCAA CTTCAAAGAA TGATTGAAGA TTGTGGGAAA 
AGAGGAAATA CCATGGCAGA AAGAAGGCAG CTGTTTGCAG AGATGCGGGC TCAGGATCTG 
GATCGCATTC GCTTGTCCAC CTACCGAACA GCATGCAAGC TTAGATTTGT TCAGAAGAAA 
TGCAACTTGC ACTTGGTGGA CATCTGGAAT GTGATAGAAG CCTTGCGGGA AAACGCGCTG 
AACAACCTGG ACCCCAACAT CGAACTGAAC GTGGCTCGCC TGGAAGCTGT GATTTCAACC 
ATCTTCTACC AGCTCAACAA ACGGATGCCC ACGACCCATC AGATCAACGT GGAGCAATCC 
ATCAGCTTAC TGCTGAACTT CTTGCTAGCG GCCTTTGATC CGGAAGGACA TGGTAAAATT 
TCTGTTTTTG CTGTCAAAAT GGCCTTGGCA ACTCTTTGTG GAGGAAAAAT CATGGACAAA 
TTAAGATATA TTTTCTCAAT GATTTCCGAC TCCAGTGGAG TGATGGTTTA TGGCAGATAT 
GACATGTTTC TGCGGGAGGT TCTCAAGCTG CCCACGGCTG TTTTCGAGGG GCCTTCGTTT 
GGTTATACTG AGCAGTCAGC AAAATCCTGT TTCTCACAAC AGAAAAAAGT CACGTTAAAC 
ACTTTCTTGG ATACTCTCAT GTCTGATCCC CCGCCACAGT GTCTAGTGTG GTTGCCACTT 
CTGCATCGAC TGGCAAATGT TGAAAATGTC TTCCACCCCG TGGAGTGTTC CTACTGCCAC 
AGTGAGAGCA TGATGGGGTT TCGCTACCGC TGCCAGCAGT GTCACAATTA CCAGCTCTGT 
CAGGACTGCT TCTGGAGGGG CCATGCCAGC GGTTCCCACA GCAACCAGCA CCAAATGAAA 
GAGTACACGT CATGGAAATC ACCTGCTAAG AAGCTAACTA ATGCACTTAG CAAGTCTTTA 
AGCTGTGCTT CCAGCCGTGA ACCTTTGCAC CCAATGTTCC CTGACCAGCC TGAAAAACCT 
CTAAACCTGG CTCATATTGT GCCTCCCCGA CCTGTAACCA GCATGAATGA CACACTCTTC 
TCCCACTCCG TTCCCTCAGG AAGTCCCTTT GCCAACAGAA GGTTACTTGG GGGTATAAAT 
GCAGCCAGTC CTGTGGCTGA TGAGCATTCT CTTATAAAGC TGTATGTAAA TCAGCTTCAC 
AACAACTCAC GCGTGCTCGA CAGCGCAAGT CGCCTGGACG AAGAACATAA GCTGATCGCC 
AGGTATGCAG CAAGGCTGGC AGCAGAAACT TCTTCATCAC AGCAGAGTCA GCAGAGAGGG 
GCATCAGATA TCTCCTTCAC CATTGATGCA AACAAGCAGC AAAGGCAGCT GATTGCAGAG 
CTTGAAAACA AAAACCGAGA AATCCTACAG GAGATCCAGA GGCTGCGACT TGAACATGAG 
CAAGCATCTC AGCCCACACC AGAGAAGGCA CAACAAAATC CCACTCTCCT TGCAGAGCTT 
CGGCTCCTGA GACAGCGGAA GGATGAGCTG GAACAGAGGA TGTCTGCTCT CCAGGAAAGC 
CGGAGGGAGC TTATGGTTCA GTTAGAAGGT CTCATGAAAC TGCTGAAGAC CCAAGGGGCA 
GGCTCCCCAC GTTCCTCACC CAGCCACACT ATCAGTCGAC CTATTCCAAT GCCCATCAGG 
TCTGCCTCTG CCTGCTCCAC CCCAACACAT GCACCTCAGG ACTCTCTGAC CGGGGTGGGA 
GGAGATGTGC AGGAAGCCTT TGCACAAAGT GCAAGACGAA ACTTAAGAAA TGATTTGCTG 
GTGGCAGCAG ATTCTATCAC CAACACCATG TCTTCTTTGG TGAAAGAACT AAACTCTGAA 
GTGGGCAGCG AGACAGAAAG CAACGTGGAT TCTGAATTTG GACGGACCCA TTTTGATGAC 
CTGGTTCCGT CCCCGACGTC TGAGAAGGCT TTCCTCGCGC AGATCCATGC CCGGAAGCCT 
GGTTACATCC ACAGCGCTGC TGCCACCGGC TCCATGCGCA GTGACATGGT TACAGAAGAT 
GGAGACCCCT ATGTCAGAGC AGATGATGAA AATTATGAGA ATGACTCTGT CCGCCAGCTG 
GAGAACGAAC TGAAGATGGA GGAGTACCTG AAGCAGAAGC TGCAGGATGA GGCATACCAG 
GGAAGCTGCA GCCAGACAGA CAACGAAAGC TACGTAAGAA CCGATGATGA GGAGAGCTGC 
TTTCGGACAG ACGATGAAGA AAACTCAGCT GCGAACTTCA CAGAAGAGTG GAACCAAGAG 
GTGCAGCGTC TCTTGACAAA AAAATCACAT AACTAA

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

RefSeq	XP_009083386.1
CDS	1..2376
Translation	MEDNLGTSFSTNHSTERLAKSIGYMWSTSQLQRMIEDCGKRGNTMAERRQLFAEMRAQDLDRIRLSTYRTACKLRFVQKKCNLHLVDIWNVIEALRENALNNLDPNIELNVARLEAVISTIFYQLNKRMPTTHQINVEQSISLLLNFLLAAFDPEGHGKISVFAVKMALATLCGGKIMDKLRYIFSMISDSSGVMVYGRYDMFLREVLKLPTAVFEGPSFGYTEQSAKSCFSQQKKVTLNTFLDTLMSDPPPQCLVWLPLLHRLANVENVFHPVECSYCHSESMMGFRYRCQQCHNYQLCQDCFWRGHASGSHSNQHQMKEYTSWKSPAKKLTNALSKSLSCASSREPLHPMFPDQPEKPLNLAHIVPPRPVTSMNDTLFSHSVPSGSPFANRRLLGGINAASPVADEHSLIKLYVNQLHNNSRVLDSASRLDEEHKLIARYAARLAAETSSSQQSQQRGASDISFTIDANKQQRQLIAELENKNREILQEIQRLRLEHEQASQPTPEKAQQNPTLLAELRLLRQRKDELEQRMSALQESRRELMVQLEGLMKLLKTQGAGSPRSSPSHTISRPIPMPIRSASACSTPTHAPQDSLTGVGGDVQEAFAQSARRNLRNDLLVAADSITNTMSSLVKELNSEVGSETESNVDSEFGRTHFDDLVPSPTSEKAFLAQIHARKPGYIHSAAATGSMRSDMVTEDGDPYVRADDENYENDSVRQLENELKMEEYLKQKLQDEAYQGSCSQTDNESYVRTDDEESCFRTDDEENSAANFTEEWNQEVQRLLTKKSHN

Target ORF information:

RefSeq Version	XM_009085138.1
Organism	Acanthisitta chloris(rifleman)
Definition	Acanthisitta chloris dystrobrevin, alpha (DTNA), transcript variant X2, mRNA.

Target ORF information:

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

XM_009085138.1

ORF Insert Sequence:

ATGGAGGACA ATTTGGGGAC CAGCTTCTCC ACAAACCACT CCACAGAGAG GCTGGCAAAA 
AGCATTGGGT ACATGTGGAG CACCAGTCAA CTTCAAAGAA TGATTGAAGA TTGTGGGAAA 
AGAGGAAATA CCATGGCAGA AAGAAGGCAG CTGTTTGCAG AGATGCGGGC TCAGGATCTG 
GATCGCATTC GCTTGTCCAC CTACCGAACA GCATGCAAGC TTAGATTTGT TCAGAAGAAA 
TGCAACTTGC ACTTGGTGGA CATCTGGAAT GTGATAGAAG CCTTGCGGGA AAACGCGCTG 
AACAACCTGG ACCCCAACAT CGAACTGAAC GTGGCTCGCC TGGAAGCTGT GATTTCAACC 
ATCTTCTACC AGCTCAACAA ACGGATGCCC ACGACCCATC AGATCAACGT GGAGCAATCC 
ATCAGCTTAC TGCTGAACTT CTTGCTAGCG GCCTTTGATC CGGAAGGACA TGGTAAAATT 
TCTGTTTTTG CTGTCAAAAT GGCCTTGGCA ACTCTTTGTG GAGGAAAAAT CATGGACAAA 
TTAAGATATA TTTTCTCAAT GATTTCCGAC TCCAGTGGAG TGATGGTTTA TGGCAGATAT 
GACATGTTTC TGCGGGAGGT TCTCAAGCTG CCCACGGCTG TTTTCGAGGG GCCTTCGTTT 
GGTTATACTG AGCAGTCAGC AAAATCCTGT TTCTCACAAC AGAAAAAAGT CACGTTAAAC 
ACTTTCTTGG ATACTCTCAT GTCTGATCCC CCGCCACAGT GTCTAGTGTG GTTGCCACTT 
CTGCATCGAC TGGCAAATGT TGAAAATGTC TTCCACCCCG TGGAGTGTTC CTACTGCCAC 
AGTGAGAGCA TGATGGGGTT TCGCTACCGC TGCCAGCAGT GTCACAATTA CCAGCTCTGT 
CAGGACTGCT TCTGGAGGGG CCATGCCAGC GGTTCCCACA GCAACCAGCA CCAAATGAAA 
GAGTACACGT CATGGAAATC ACCTGCTAAG AAGCTAACTA ATGCACTTAG CAAGTCTTTA 
AGCTGTGCTT CCAGCCGTGA ACCTTTGCAC CCAATGTTCC CTGACCAGCC TGAAAAACCT 
CTAAACCTGG CTCATATTGT GCCTCCCCGA CCTGTAACCA GCATGAATGA CACACTCTTC 
TCCCACTCCG TTCCCTCAGG AAGTCCCTTT GCCAACAGAA GGTTACTTGG GGGTATAAAT 
GCAGCCAGTC CTGTGGCTGA TGAGCATTCT CTTATAAAGC TGTATGTAAA TCAGCTTCAC 
AACAACTCAC GCGTGCTCGA CAGCGCAAGT CGCCTGGACG AAGAACATAA GCTGATCGCC 
AGGTATGCAG CAAGGCTGGC AGCAGAAACT TCTTCATCAC AGCAGAGTCA GCAGAGAGGG 
GCATCAGATA TCTCCTTCAC CATTGATGCA AACAAGCAGC AAAGGCAGCT GATTGCAGAG 
CTTGAAAACA AAAACCGAGA AATCCTACAG GAGATCCAGA GGCTGCGACT TGAACATGAG 
CAAGCATCTC AGCCCACACC AGAGAAGGCA CAACAAAATC CCACTCTCCT TGCAGAGCTT 
CGGCTCCTGA GACAGCGGAA GGATGAGCTG GAACAGAGGA TGTCTGCTCT CCAGGAAAGC 
CGGAGGGAGC TTATGGTTCA GTTAGAAGGT CTCATGAAAC TGCTGAAGAC CCAAGGGGCA 
GGCTCCCCAC GTTCCTCACC CAGCCACACT ATCAGTCGAC CTATTCCAAT GCCCATCAGG 
TCTGCCTCTG CCTGCTCCAC CCCAACACAT GCACCTCAGG ACTCTCTGAC CGGGGTGGGA 
GGAGATGTGC AGGAAGCCTT TGCACAAAGT GCAAGACGAA ACTTAAGAAA TGATTTGCTG 
GTGGCAGCAG ATTCTATCAC CAACACCATG TCTTCTTTGG TGAAAGAACT AAACTCTGAA 
GTGGGCAGCG AGACAGAAAG CAACGTGGAT TCTGAATTTG GACGGACCCA TTTTGATGAC 
CTGGTTCCGT CCCCGACGTC TGAGAAGGCT TTCCTCGCGC AGATCCATGC CCGGAAGCCT 
GGTTACATCC ACAGCGCTGC TGCCACCGGC TCCATGCGCA GTGACATGGT TACAGAAGAT 
GGAGACCCCT ATGTCAGAGC AGATGATGAA AATTATGAGA ATGACTCTGT CCGCCAGCTG 
GAGAACGAAC TGAAGATGGA GGAGTACCTG AAGCAGAAGC TGCAGGATGA GGCATACCAG 
GGAAGCTGCA GCCAGACAGA CAACGAAAGC TACGTAAGAA CCGATGATGA GGAGAGCTGC 
TTTCGGACAG ACGATGAAGA AAACTCAGCT GCGAACTTCA CAGAAGAGTG GAACCAAGAG 
GTGCAGCGTC TCTTGACAAA AAAATCACAT AACTAA