BRDT cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	BRDT
Entrez Gene ID	100227358
Full Name	bromodomain testis associated
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030279166.1	XP_030135026.1	bromodomain testis-specific protein isoform X1
XM_012575174.1	XP_012430628.1	bromodomain testis-specific protein
XM_030279165.1	XP_030135025.1	bromodomain testis-specific protein isoform X1
XM_030279164.1	XP_030135024.1	bromodomain testis-specific protein isoform X1
XM_030279167.1	XP_030135027.1	bromodomain testis-specific protein isoform X2

Pathways from BioSystems
Gene Ontology

The following BRDT gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BRDT 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)
OTd11835	XM_012575174.1 Latest version!	Taeniopygia guttata bromodomain, testis-specific (BRDT), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OTd50972	XM_030279167.1 Latest version!	Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd50971	XM_030279166.1 Latest version!	Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd50971	XM_030279164.1 Latest version!	Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd50971	XM_030279165.1 Latest version!	Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X2, 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)
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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)

BRDT ( XM_012575174.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430628.1 Taeniopygia guttata bromodomain, testis-specific (BRDT), mRNA.

Price & Availability↑

CloneID	OTd11835
Clone ID Related Accession (Same CDS sequence)	XM_012575174.1
Accession Version	XM_012575174.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2043bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	bromodomain testis-specific protein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198982.1) 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 :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 13% of CDS bases ##RefSeq-Attributes-END##

ATGTCTGTTC AAAACCAGAA CTGTTCCATT ATTATGAACC CTCCTCCTCC AGAATACATA 
AATAACAAAA GTAGTGGATG TCAAACAAAC CAACTTCAGT ACTTACAGAG GGTAGTCATG 
AGAGCCATGT GGAGACACAA CTTTTCCTGG CCGTTTCACC AACCTGTAGA TGCAGCAGCA 
CTGAATCTGC CTGATTATTA CACTATCATA AAAAAACCTA TGGACTTAGG CACCATAAAA 
AAGCGACTGG AACACAATTA CTACACAAAA GCTGCAGAAT GTATTGAAGA CTTTAAAACT 
ATGTTCTGGA ACTGCTACAT GTACAATAAG TCAGGTGATG ACATTGTGTT TATGGCTGAA 
GAACTAGAAA AAGTGTTTAT GCAGAAAATA GCCCGAATGC CACCAGAAGA AAGACCAGTG 
AGTCTCAATA AAGGCAAGAG AAAAGGAAAG AAGACAGAAG AAACATGGCA GCCCAGCTGT 
GGGATTTCAA ATGAACAAAG TACAAATGAG AATCAAGCTG AAAGCAGTGA GCAGCCTCCA 
GCAATGACTC AAGAGCAACA GCAGGCTACA CTGGCTCCTT TGTCTGCAGC TCAGCTGACT 
GCTTTAATGC CAGCTGCAGT CTCTATAACA AAAGCAAAAA GAGGTGTGAA AAGGAAGGCT 
GACACTACAA CTCCAACTAC TTCAATAGTC ACAGCAAGTG GCAAATCTTC TGCAATGTTT 
AACGAAAGAA AAGCTGTTAA ACCATGTAGA GGTGAAAATG AATGTACAGT AACAAACAAG 
CTTCTGAAGA GACCCTTTTC AGACTCTCAA CAGCCACCTG GAATTATGAA AAAGATTCAG 
TTGTCAGGAA AACTAAAACA TTGTAATGCA ATACTTAAAG AACTGTTTTC AAAGAAACAT 
GCAGCATATG CGTGGCCTTT CATAAAACCT GAAGATGTGG CATCTGCCTC CACTGGTGCG 
AACCAAGCCA TTGCCAAATA TCCTACAGAC CTAGGAACCA TTAAAAAGAA AATGGATAAC 
TTTGAATATA ATGATATACA AGAATTTGCT ACAGATGTTA GATTAATGTT CATGAGCTGC 
TACAAACGTA ATTCTTCAGA CCATGAAATA GTTGCTATGG CAAGAAAACT TCAGGATGTT 
TTTGAAATGC ACTTTGCTAA AATTCCTGAC GAACCTGTTG TGAGTGATCA TCTGCCACAG 
CCTGTGAGAG AAATGACAGA AGCTTATTCC AGTGAAAGCA GTAATGACAA CTCTTCAGAA 
GAAAAATCAT CTGAAGACTC TGAAGAGGAG AGAAAAGTGA ACCTCAAAAA GCTTCAGGAG 
CAACTTAAAG CTCTTCATCG GCAGTTGTGG GTTTTGACCA AAGCGTGCTT ATCTAGACCA 
GAAAAGAAAA AAGGGAAGAC TAAAAGCGAG AAAAGAAAGA ACAAGGAAAA AGCTGAAATA 
AAAAGCTTGA TTCAAAAGAA GAAAAATCTG AAATACATTA AGAAATCTAA GAGAAATCAA 
TCAAAGAGAA CCATGCAGCA GGTCTTGTTG GCACGTAAGT CAGAAGATGA AGATGGTGCC 
AAACCTATGA ATTATGATGA AAAACGACAA TTGAGTTTGG ACATAAATAA ACTCCCTGGA 
GATAAGCTTG GGAAAGTAGT CCATATAATA CAGTCAAGAG AACCTGCAAT GAGGAACTCT 
AACCCTGACG AGATAGAAAT AGACTTTGAA ACTTTAAATG CTTCAACACT CAGAGAACTG 
GAGAGATATG TAGCAACCTG TTTGAGGAAG AAACAAAGAA AGCCTGTTTC ACATGCAGCT 
AAAAACCCAA CAAAGTCAAA AGAAGAACTT GATTTTGAGA GGAAACAAGA GTTAGAGAAG 
AGACTACTGG ATGTCAAAGG TCAACTAAAC CCAATGAAGG AGAGCTTCAA GAATGAAAAC 
AATGCTGAGT CAAGTACTGG GCCAAGCAGA CTGAGTGACA GCAGCAGCAG CTCCTCAGAT 
TCTGGCAGCA GCACTAGCAG TGATTCTAGC TCCTCAGATA GCAGTGACTC TGAATCAGGT 
TAG

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

RefSeq	XP_012430628.1
CDS	1..2043
Translation	MSVQNQNCSIIMNPPPPEYINNKSSGCQTNQLQYLQRVVMRAMWRHNFSWPFHQPVDAAALNLPDYYTIIKKPMDLGTIKKRLEHNYYTKAAECIEDFKTMFWNCYMYNKSGDDIVFMAEELEKVFMQKIARMPPEERPVSLNKGKRKGKKTEETWQPSCGISNEQSTNENQAESSEQPPAMTQEQQQATLAPLSAAQLTALMPAAVSITKAKRGVKRKADTTTPTTSIVTASGKSSAMFNERKAVKPCRGENECTVTNKLLKRPFSDSQQPPGIMKKIQLSGKLKHCNAILKELFSKKHAAYAWPFIKPEDVASASTGANQAIAKYPTDLGTIKKKMDNFEYNDIQEFATDVRLMFMSCYKRNSSDHEIVAMARKLQDVFEMHFAKIPDEPVVSDHLPQPVREMTEAYSSESSNDNSSEEKSSEDSEEERKVNLKKLQEQLKALHRQLWVLTKACLSRPEKKKGKTKSEKRKNKEKAEIKSLIQKKKNLKYIKKSKRNQSKRTMQQVLLARKSEDEDGAKPMNYDEKRQLSLDINKLPGDKLGKVVHIIQSREPAMRNSNPDEIEIDFETLNASTLRELERYVATCLRKKQRKPVSHAAKNPTKSKEELDFERKQELEKRLLDVKGQLNPMKESFKNENNAESSTGPSRLSDSSSSSSDSGSSTSSDSSSSDSSDSESG

Target ORF information:

RefSeq Version	XM_012575174.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata bromodomain, testis-specific (BRDT), mRNA.

Target ORF information:

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

XM_012575174.1

ORF Insert Sequence:

ATGTCTGTTC AAAACCAGAA CTGTTCCATT ATTATGAACC CTCCTCCTCC AGAATACATA 
AATAACAAAA GTAGTGGATG TCAAACAAAC CAACTTCAGT ACTTACAGAG GGTAGTCATG 
AGAGCCATGT GGAGACACAA CTTTTCCTGG CCGTTTCACC AACCTGTAGA TGCAGCAGCA 
CTGAATCTGC CTGATTATTA CACTATCATA AAAAAACCTA TGGACTTAGG CACCATAAAA 
AAGCGACTGG AACACAATTA CTACACAAAA GCTGCAGAAT GTATTGAAGA CTTTAAAACT 
ATGTTCTGGA ACTGCTACAT GTACAATAAG TCAGGTGATG ACATTGTGTT TATGGCTGAA 
GAACTAGAAA AAGTGTTTAT GCAGAAAATA GCCCGAATGC CACCAGAAGA AAGACCAGTG 
AGTCTCAATA AAGGCAAGAG AAAAGGAAAG AAGACAGAAG AAACATGGCA GCCCAGCTGT 
GGGATTTCAA ATGAACAAAG TACAAATGAG AATCAAGCTG AAAGCAGTGA GCAGCCTCCA 
GCAATGACTC AAGAGCAACA GCAGGCTACA CTGGCTCCTT TGTCTGCAGC TCAGCTGACT 
GCTTTAATGC CAGCTGCAGT CTCTATAACA AAAGCAAAAA GAGGTGTGAA AAGGAAGGCT 
GACACTACAA CTCCAACTAC TTCAATAGTC ACAGCAAGTG GCAAATCTTC TGCAATGTTT 
AACGAAAGAA AAGCTGTTAA ACCATGTAGA GGTGAAAATG AATGTACAGT AACAAACAAG 
CTTCTGAAGA GACCCTTTTC AGACTCTCAA CAGCCACCTG GAATTATGAA AAAGATTCAG 
TTGTCAGGAA AACTAAAACA TTGTAATGCA ATACTTAAAG AACTGTTTTC AAAGAAACAT 
GCAGCATATG CGTGGCCTTT CATAAAACCT GAAGATGTGG CATCTGCCTC CACTGGTGCG 
AACCAAGCCA TTGCCAAATA TCCTACAGAC CTAGGAACCA TTAAAAAGAA AATGGATAAC 
TTTGAATATA ATGATATACA AGAATTTGCT ACAGATGTTA GATTAATGTT CATGAGCTGC 
TACAAACGTA ATTCTTCAGA CCATGAAATA GTTGCTATGG CAAGAAAACT TCAGGATGTT 
TTTGAAATGC ACTTTGCTAA AATTCCTGAC GAACCTGTTG TGAGTGATCA TCTGCCACAG 
CCTGTGAGAG AAATGACAGA AGCTTATTCC AGTGAAAGCA GTAATGACAA CTCTTCAGAA 
GAAAAATCAT CTGAAGACTC TGAAGAGGAG AGAAAAGTGA ACCTCAAAAA GCTTCAGGAG 
CAACTTAAAG CTCTTCATCG GCAGTTGTGG GTTTTGACCA AAGCGTGCTT ATCTAGACCA 
GAAAAGAAAA AAGGGAAGAC TAAAAGCGAG AAAAGAAAGA ACAAGGAAAA AGCTGAAATA 
AAAAGCTTGA TTCAAAAGAA GAAAAATCTG AAATACATTA AGAAATCTAA GAGAAATCAA 
TCAAAGAGAA CCATGCAGCA GGTCTTGTTG GCACGTAAGT CAGAAGATGA AGATGGTGCC 
AAACCTATGA ATTATGATGA AAAACGACAA TTGAGTTTGG ACATAAATAA ACTCCCTGGA 
GATAAGCTTG GGAAAGTAGT CCATATAATA CAGTCAAGAG AACCTGCAAT GAGGAACTCT 
AACCCTGACG AGATAGAAAT AGACTTTGAA ACTTTAAATG CTTCAACACT CAGAGAACTG 
GAGAGATATG TAGCAACCTG TTTGAGGAAG AAACAAAGAA AGCCTGTTTC ACATGCAGCT 
AAAAACCCAA CAAAGTCAAA AGAAGAACTT GATTTTGAGA GGAAACAAGA GTTAGAGAAG 
AGACTACTGG ATGTCAAAGG TCAACTAAAC CCAATGAAGG AGAGCTTCAA GAATGAAAAC 
AATGCTGAGT CAAGTACTGG GCCAAGCAGA CTGAGTGACA GCAGCAGCAG CTCCTCAGAT 
TCTGGCAGCA GCACTAGCAG TGATTCTAGC TCCTCAGATA GCAGTGACTC TGAATCAGGT 
TAG

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

BRDT ( XM_030279167.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030135027.1 Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OTd50972
Clone ID Related Accession (Same CDS sequence)	XM_030279167.1
Accession Version	XM_030279167.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2826bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	bromodomain testis-specific protein isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044220.1) 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 :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACTTAG GCACCATAAA AAAGCGACTG GAACACAATT ACTACACAAA AGCTGCAGAA 
TGTATTGAAG ACTTTAAAAC TATGTTCTGG AACTGCTACA TGTACAATAA GTCAGGTGAT 
GACATTGTGT TTATGGCTGA AGAACTAGAA AAAGTGTTTA TGCAGAAAAT AGCCCGAATG 
CCACCAGAAG AAAGACCAGT GAGTCTCAAT AAAGGCAAGA GAAAAGGAAA GAAGACAGAA 
GAAACATGGC AGCCCAGCTG TGGGATTTCA AATGAACAAA GTACAAATGA GAATCAAGCT 
GAAAGCAGTG AGCAGCCTCC AGCAATGACT CAAGAGCAAC AGCAGGCTAC ACTGGCTCCT 
TTGTCTGCAG CTCAGCTGAC TGCTTTAATG CCAGCTGCAG TCTCTATAAC AAAAGCAAAA 
AGAGGTGTGA AAAGGAAGGC TGACACTACA ACTCCAACTA CTTCAATAGT CACAGCAAGT 
GGCAAATCTT CTGCAATGTT TAACGAAAGA AAAGCTGTTA AACCATGTAG AGGTGAAAAT 
GAATGTACAG TAACAAACAA GCTTCTGAAG AGACCCTTTT CAGACTCTCA ACAGCCACCT 
GGAATTATGA AAAAGATTCA GTTGTCAGGA AAACTAAAAC ATTGTAATGC AATACTTAAA 
GAACTGTTTT CAAAGAAACA TGCAGCATAT GCGTGGCCTT TCATAAAACC TGAAGATGTG 
GCATCTGCCT CCACTGGTGC GAACCAAGCC ATTGCCAAAT ATCCTACAGA CCTAGGAACC 
ATTAAAAAGA AAATGGATAA CTTTGAATAT AATGATATAC AAGAATTTGC TACAGATGTT 
AGATTAATGT TCATGAGCTG CTACAAACGT AATTCTTCAG ACCATGAAAT AGTTGCTATG 
GCAAGAAAAC TTCAGGATGT TTTTGAAATG CACTTTGCTA AAATTCCTGA CGAACCTGTT 
GTGAGTGATC ATCTGCCACA GCCTGTGAGA GAAATGACAG AAGCTTATTC CAGTGAAAGC 
AGTAATGACA ACTCTTCAGA AGAAAAATCA TCTGAAGACT CTGAAGAGGA GAGAAAAGTG 
AACCTCAAAA AGCTTCAGGA GCAACTTAAA GCTCTTCATC GGCAGTTGTG GGTTTTGACC 
AAAGCGTGCT TATCTAGACC AGAAAAGAAA AAAGGGAAGA CTAAAAGCGA GAAAAGAAAG 
AACAAGGAAA AAGCTGAAAT AAAAAGCTTG ATTCAAAAGA AGAAAAATCT GAAATACATT 
AAGAAATCTA AGAGAAAGCT GTCTTTAAAT GTTCAATCAA AGAGAACCAT GCAGCAGGTC 
TTGTTGGCAC GTAAGTCAGA AGATGAAGAT GGTGCCAAAC CTATGAATTA TGATGAAAAA 
CGACAATTGA GTTTGGACAT AAATAAACTC CCTGGAGATA AGCTTGGGAA AGTAGTCCAT 
ATAATACAGT CAAGAGAACC TGCAATGAGG AACTCTAACC CTGACGAGAT AGAAATAGAC 
TTTGAAACTT TAAATGCTTC AACACTCAGA GAACTGGAGA GATATGTAGC AACCTGTTTG 
AGGAAGAAAC AAAGAAAGCA GGCTAAAAAC CCAACAAAGT CAAAAGAAGA ACTTGATTTT 
GAGAGGAAAC AAGAGTTAGA GAAGAGACTA CTGGATGTCA AAGGTCAACT AAACCCAATG 
AAGGAGAGCT TCAAGAATGA AAACAATGCT GAGTCAAGTA CTGGGCCAAG CAGACTGAGT 
GACAGCAGCA GCAGCTCCTC AGATTCTGGC AGCAGCACTA GCAGTGATTC TAGCTCCTCA 
GATAGCAGTG ACTCTGAATC AGTTACAGAA ACCTGTTCAA AACAGACTGG AGCCAGGCAG 
AACTGTCCAG CTTCTATGGA AAAGTCTAAG AGGACATCCT GCAATGCTTT TCTGCAAGCA 
CAGCCCTCCT CTCTTACTAG CAGCTTGCAA AATCATGGAT CATCTGAACT GCAACAGCAA 
CCTCCCAATG TACTGCAAAT GCTTCAGTGT AGATCACTTA ATCCATCAGA AGAAAATGCT 
CAGACTCTCT CAGGTGAAAT CTCAGCTGTA CTTTCTGTGC ATGATGCTTC AGACCAGCAA 
ACTCCTCAGA GCACTCCAAA GACAAGTCAG TCTTCTGTCA CCCACTCCAG AAATGTTTTT 
CCAGAGGTGT CCAACACCAT TTTTCAAGTT GACAGTGCTG ACTGGAGTAA ACAAGCTGAG 
CAAACAAGAC ATCTAGACAA TTCAAATAAA CTTCAAAACA AGAGCAGCAT GAGAACTGCT 
GATTTAATAT CCATAAGTCA AGAACAAAGT CATTGTGCAC CCAGTGATAA ATGTAATGAT 
AAAAACATAC TAGAGCCAAT GTCTGAACTT CCAAGAAAGG ATGCAGAATT GAAGACTGTA 
CATTCCTGGG TAAGCCTGTG TAAAACGATG AAGCTCCCAG CTCCAATAAA AGCATCTGCT 
GAGAGCTTCA ATCAGTTCAG GGACGCAGCA TTAAAGAGGA GTGGGCAAGT GCGGGAGCCA 
AAAAGGTCTC TTGTGCAAAC TGAGAGGGAA CTGCAGAATC TTCCAGAAGA AAACAAAAAA 
TCTGTAGCCA CTTCTGTGGG CCGTGAAAGC ACAGGATTGG ATGCCATGGC AATGACAGAC 
TGTGAGCTTG AAAAAGAAAT ACATAAGAGT AAATTGCCCG AAGCTCAGCA ATGTATTCTT 
GACCAAGACC GTAACTTGGC TAGAAAAATG GAACAAGAAC GCAGGAGGAA GGAAGCAATA 
GCTTGGATAA TTGATGTGAA TCTGCAGAGA GATATTATGG CATCTTTTGA AGAATATCTT 
GAGTGA

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

RefSeq	XP_030135027.1
CDS	742..3567
Translation	MDLGTIKKRLEHNYYTKAAECIEDFKTMFWNCYMYNKSGDDIVFMAEELEKVFMQKIARMPPEERPVSLNKGKRKGKKTEETWQPSCGISNEQSTNENQAESSEQPPAMTQEQQQATLAPLSAAQLTALMPAAVSITKAKRGVKRKADTTTPTTSIVTASGKSSAMFNERKAVKPCRGENECTVTNKLLKRPFSDSQQPPGIMKKIQLSGKLKHCNAILKELFSKKHAAYAWPFIKPEDVASASTGANQAIAKYPTDLGTIKKKMDNFEYNDIQEFATDVRLMFMSCYKRNSSDHEIVAMARKLQDVFEMHFAKIPDEPVVSDHLPQPVREMTEAYSSESSNDNSSEEKSSEDSEEERKVNLKKLQEQLKALHRQLWVLTKACLSRPEKKKGKTKSEKRKNKEKAEIKSLIQKKKNLKYIKKSKRKLSLNVQSKRTMQQVLLARKSEDEDGAKPMNYDEKRQLSLDINKLPGDKLGKVVHIIQSREPAMRNSNPDEIEIDFETLNASTLRELERYVATCLRKKQRKQAKNPTKSKEELDFERKQELEKRLLDVKGQLNPMKESFKNENNAESSTGPSRLSDSSSSSSDSGSSTSSDSSSSDSSDSESVTETCSKQTGARQNCPASMEKSKRTSCNAFLQAQPSSLTSSLQNHGSSELQQQPPNVLQMLQCRSLNPSEENAQTLSGEISAVLSVHDASDQQTPQSTPKTSQSSVTHSRNVFPEVSNTIFQVDSADWSKQAEQTRHLDNSNKLQNKSSMRTADLISISQEQSHCAPSDKCNDKNILEPMSELPRKDAELKTVHSWVSLCKTMKLPAPIKASAESFNQFRDAALKRSGQVREPKRSLVQTERELQNLPEENKKSVATSVGRESTGLDAMAMTDCELEKEIHKSKLPEAQQCILDQDRNLARKMEQERRRKEAIAWIIDVNLQRDIMASFEEYLE

Target ORF information:

RefSeq Version	XM_030279167.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X4, mRNA.

Target ORF information:

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

XM_030279167.1

ORF Insert Sequence:

ATGGACTTAG GCACCATAAA AAAGCGACTG GAACACAATT ACTACACAAA AGCTGCAGAA 
TGTATTGAAG ACTTTAAAAC TATGTTCTGG AACTGCTACA TGTACAATAA GTCAGGTGAT 
GACATTGTGT TTATGGCTGA AGAACTAGAA AAAGTGTTTA TGCAGAAAAT AGCCCGAATG 
CCACCAGAAG AAAGACCAGT GAGTCTCAAT AAAGGCAAGA GAAAAGGAAA GAAGACAGAA 
GAAACATGGC AGCCCAGCTG TGGGATTTCA AATGAACAAA GTACAAATGA GAATCAAGCT 
GAAAGCAGTG AGCAGCCTCC AGCAATGACT CAAGAGCAAC AGCAGGCTAC ACTGGCTCCT 
TTGTCTGCAG CTCAGCTGAC TGCTTTAATG CCAGCTGCAG TCTCTATAAC AAAAGCAAAA 
AGAGGTGTGA AAAGGAAGGC TGACACTACA ACTCCAACTA CTTCAATAGT CACAGCAAGT 
GGCAAATCTT CTGCAATGTT TAACGAAAGA AAAGCTGTTA AACCATGTAG AGGTGAAAAT 
GAATGTACAG TAACAAACAA GCTTCTGAAG AGACCCTTTT CAGACTCTCA ACAGCCACCT 
GGAATTATGA AAAAGATTCA GTTGTCAGGA AAACTAAAAC ATTGTAATGC AATACTTAAA 
GAACTGTTTT CAAAGAAACA TGCAGCATAT GCGTGGCCTT TCATAAAACC TGAAGATGTG 
GCATCTGCCT CCACTGGTGC GAACCAAGCC ATTGCCAAAT ATCCTACAGA CCTAGGAACC 
ATTAAAAAGA AAATGGATAA CTTTGAATAT AATGATATAC AAGAATTTGC TACAGATGTT 
AGATTAATGT TCATGAGCTG CTACAAACGT AATTCTTCAG ACCATGAAAT AGTTGCTATG 
GCAAGAAAAC TTCAGGATGT TTTTGAAATG CACTTTGCTA AAATTCCTGA CGAACCTGTT 
GTGAGTGATC ATCTGCCACA GCCTGTGAGA GAAATGACAG AAGCTTATTC CAGTGAAAGC 
AGTAATGACA ACTCTTCAGA AGAAAAATCA TCTGAAGACT CTGAAGAGGA GAGAAAAGTG 
AACCTCAAAA AGCTTCAGGA GCAACTTAAA GCTCTTCATC GGCAGTTGTG GGTTTTGACC 
AAAGCGTGCT TATCTAGACC AGAAAAGAAA AAAGGGAAGA CTAAAAGCGA GAAAAGAAAG 
AACAAGGAAA AAGCTGAAAT AAAAAGCTTG ATTCAAAAGA AGAAAAATCT GAAATACATT 
AAGAAATCTA AGAGAAAGCT GTCTTTAAAT GTTCAATCAA AGAGAACCAT GCAGCAGGTC 
TTGTTGGCAC GTAAGTCAGA AGATGAAGAT GGTGCCAAAC CTATGAATTA TGATGAAAAA 
CGACAATTGA GTTTGGACAT AAATAAACTC CCTGGAGATA AGCTTGGGAA AGTAGTCCAT 
ATAATACAGT CAAGAGAACC TGCAATGAGG AACTCTAACC CTGACGAGAT AGAAATAGAC 
TTTGAAACTT TAAATGCTTC AACACTCAGA GAACTGGAGA GATATGTAGC AACCTGTTTG 
AGGAAGAAAC AAAGAAAGCA GGCTAAAAAC CCAACAAAGT CAAAAGAAGA ACTTGATTTT 
GAGAGGAAAC AAGAGTTAGA GAAGAGACTA CTGGATGTCA AAGGTCAACT AAACCCAATG 
AAGGAGAGCT TCAAGAATGA AAACAATGCT GAGTCAAGTA CTGGGCCAAG CAGACTGAGT 
GACAGCAGCA GCAGCTCCTC AGATTCTGGC AGCAGCACTA GCAGTGATTC TAGCTCCTCA 
GATAGCAGTG ACTCTGAATC AGTTACAGAA ACCTGTTCAA AACAGACTGG AGCCAGGCAG 
AACTGTCCAG CTTCTATGGA AAAGTCTAAG AGGACATCCT GCAATGCTTT TCTGCAAGCA 
CAGCCCTCCT CTCTTACTAG CAGCTTGCAA AATCATGGAT CATCTGAACT GCAACAGCAA 
CCTCCCAATG TACTGCAAAT GCTTCAGTGT AGATCACTTA ATCCATCAGA AGAAAATGCT 
CAGACTCTCT CAGGTGAAAT CTCAGCTGTA CTTTCTGTGC ATGATGCTTC AGACCAGCAA 
ACTCCTCAGA GCACTCCAAA GACAAGTCAG TCTTCTGTCA CCCACTCCAG AAATGTTTTT 
CCAGAGGTGT CCAACACCAT TTTTCAAGTT GACAGTGCTG ACTGGAGTAA ACAAGCTGAG 
CAAACAAGAC ATCTAGACAA TTCAAATAAA CTTCAAAACA AGAGCAGCAT GAGAACTGCT 
GATTTAATAT CCATAAGTCA AGAACAAAGT CATTGTGCAC CCAGTGATAA ATGTAATGAT 
AAAAACATAC TAGAGCCAAT GTCTGAACTT CCAAGAAAGG ATGCAGAATT GAAGACTGTA 
CATTCCTGGG TAAGCCTGTG TAAAACGATG AAGCTCCCAG CTCCAATAAA AGCATCTGCT 
GAGAGCTTCA ATCAGTTCAG GGACGCAGCA TTAAAGAGGA GTGGGCAAGT GCGGGAGCCA 
AAAAGGTCTC TTGTGCAAAC TGAGAGGGAA CTGCAGAATC TTCCAGAAGA AAACAAAAAA 
TCTGTAGCCA CTTCTGTGGG CCGTGAAAGC ACAGGATTGG ATGCCATGGC AATGACAGAC 
TGTGAGCTTG AAAAAGAAAT ACATAAGAGT AAATTGCCCG AAGCTCAGCA ATGTATTCTT 
GACCAAGACC GTAACTTGGC TAGAAAAATG GAACAAGAAC GCAGGAGGAA GGAAGCAATA 
GCTTGGATAA TTGATGTGAA TCTGCAGAGA GATATTATGG CATCTTTTGA AGAATATCTT 
GAGTGA

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

BRDT ( XM_030279166.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030135026.1 Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OTd50971
Clone ID Related Accession (Same CDS sequence)	XM_030279166.1 , XM_030279165.1 , XM_030279164.1
Accession Version	XM_030279166.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3045bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	bromodomain testis-specific protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044220.1) 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 :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCTGTTC AAAACCAGAA CTGTTCCATT ATTATGAACC CTCCTCCTCC AGAATACATA 
AATAACAAAA GTAGTGGATG TCAAACAAAC CAACTTCAGT ACTTACAGAG GGTAGTCATG 
AGAGCCATGT GGAGACACAA CTTTTCCTGG CCGTTTCACC AACCTGTAGA TGCAGCAGCA 
CTGAATCTGC CTGATTATTA CACTATCATA AAAAAACCTA TGGACTTAGG CACCATAAAA 
AAGCGACTGG AACACAATTA CTACACAAAA GCTGCAGAAT GTATTGAAGA CTTTAAAACT 
ATGTTCTGGA ACTGCTACAT GTACAATAAG TCAGGTGATG ACATTGTGTT TATGGCTGAA 
GAACTAGAAA AAGTGTTTAT GCAGAAAATA GCCCGAATGC CACCAGAAGA AAGACCAGTG 
AGTCTCAATA AAGGCAAGAG AAAAGGAAAG AAGACAGAAG AAACATGGCA GCCCAGCTGT 
GGGATTTCAA ATGAACAAAG TACAAATGAG AATCAAGCTG AAAGCAGTGA GCAGCCTCCA 
GCAATGACTC AAGAGCAACA GCAGGCTACA CTGGCTCCTT TGTCTGCAGC TCAGCTGACT 
GCTTTAATGC CAGCTGCAGT CTCTATAACA AAAGCAAAAA GAGGTGTGAA AAGGAAGGCT 
GACACTACAA CTCCAACTAC TTCAATAGTC ACAGCAAGTG GCAAATCTTC TGCAATGTTT 
AACGAAAGAA AAGCTGTTAA ACCATGTAGA GGTGAAAATG AATGTACAGT AACAAACAAG 
CTTCTGAAGA GACCCTTTTC AGACTCTCAA CAGCCACCTG GAATTATGAA AAAGATTCAG 
TTGTCAGGAA AACTAAAACA TTGTAATGCA ATACTTAAAG AACTGTTTTC AAAGAAACAT 
GCAGCATATG CGTGGCCTTT CATAAAACCT GAAGATGTGG CATCTGCCTC CACTGGTGCG 
AACCAAGCCA TTGCCAAATA TCCTACAGAC CTAGGAACCA TTAAAAAGAA AATGGATAAC 
TTTGAATATA ATGATATACA AGAATTTGCT ACAGATGTTA GATTAATGTT CATGAGCTGC 
TACAAACGTA ATTCTTCAGA CCATGAAATA GTTGCTATGG CAAGAAAACT TCAGGATGTT 
TTTGAAATGC ACTTTGCTAA AATTCCTGAC GAACCTGTTG TGAGTGATCA TCTGCCACAG 
CCTGTGAGAG AAATGACAGA AGCTTATTCC AGTGAAAGCA GTAATGACAA CTCTTCAGAA 
GAAAAATCAT CTGAAGACTC TGAAGAGGAG AGAAAAGTGA ACCTCAAAAA GCTTCAGGAG 
CAACTTAAAG CTCTTCATCG GCAGTTGTGG GTTTTGACCA AAGCGTGCTT ATCTAGACCA 
GAAAAGAAAA AAGGGAAGAC TAAAAGCGAG AAAAGAAAGA ACAAGGAAAA AGCTGAAATA 
AAAAGCTTGA TTCAAAAGAA GAAAAATCTG AAATACATTA AGAAATCTAA GAGAAAGCTG 
TCTTTAAATG TTCAATCAAA GAGAACCATG CAGCAGGTCT TGTTGGCACG TAAGTCAGAA 
GATGAAGATG GTGCCAAACC TATGAATTAT GATGAAAAAC GACAATTGAG TTTGGACATA 
AATAAACTCC CTGGAGATAA GCTTGGGAAA GTAGTCCATA TAATACAGTC AAGAGAACCT 
GCAATGAGGA ACTCTAACCC TGACGAGATA GAAATAGACT TTGAAACTTT AAATGCTTCA 
ACACTCAGAG AACTGGAGAG ATATGTAGCA ACCTGTTTGA GGAAGAAACA AAGAAAGCAG 
GCTAAAAACC CAACAAAGTC AAAAGAAGAA CTTGATTTTG AGAGGAAACA AGAGTTAGAG 
AAGAGACTAC TGGATGTCAA AGGTCAACTA AACCCAATGA AGGAGAGCTT CAAGAATGAA 
AACAATGCTG AGTCAAGTAC TGGGCCAAGC AGACTGAGTG ACAGCAGCAG CAGCTCCTCA 
GATTCTGGCA GCAGCACTAG CAGTGATTCT AGCTCCTCAG ATAGCAGTGA CTCTGAATCA 
GTTACAGAAA CCTGTTCAAA ACAGACTGGA GCCAGGCAGA ACTGTCCAGC TTCTATGGAA 
AAGTCTAAGA GGACATCCTG CAATGCTTTT CTGCAAGCAC AGCCCTCCTC TCTTACTAGC 
AGCTTGCAAA ATCATGGATC ATCTGAACTG CAACAGCAAC CTCCCAATGT ACTGCAAATG 
CTTCAGTGTA GATCACTTAA TCCATCAGAA GAAAATGCTC AGACTCTCTC AGGTGAAATC 
TCAGCTGTAC TTTCTGTGCA TGATGCTTCA GACCAGCAAA CTCCTCAGAG CACTCCAAAG 
ACAAGTCAGT CTTCTGTCAC CCACTCCAGA AATGTTTTTC CAGAGGTGTC CAACACCATT 
TTTCAAGTTG ACAGTGCTGA CTGGAGTAAA CAAGCTGAGC AAACAAGACA TCTAGACAAT 
TCAAATAAAC TTCAAAACAA GAGCAGCATG AGAACTGCTG ATTTAATATC CATAAGTCAA 
GAACAAAGTC ATTGTGCACC CAGTGATAAA TGTAATGATA AAAACATACT AGAGCCAATG 
TCTGAACTTC CAAGAAAGGA TGCAGAATTG AAGACTGTAC ATTCCTGGGT AAGCCTGTGT 
AAAACGATGA AGCTCCCAGC TCCAATAAAA GCATCTGCTG AGAGCTTCAA TCAGTTCAGG 
GACGCAGCAT TAAAGAGGAG TGGGCAAGTG CGGGAGCCAA AAAGGTCTCT TGTGCAAACT 
GAGAGGGAAC TGCAGAATCT TCCAGAAGAA AACAAAAAAT CTGTAGCCAC TTCTGTGGGC 
CGTGAAAGCA CAGGATTGGA TGCCATGGCA ATGACAGACT GTGAGCTTGA AAAAGAAATA 
CATAAGAGTA AATTGCCCGA AGCTCAGCAA TGTATTCTTG ACCAAGACCG TAACTTGGCT 
AGAAAAATGG AACAAGAACG CAGGAGGAAG GAAGCAATAG CTTGGATAAT TGATGTGAAT 
CTGCAGAGAG ATATTATGGC ATCTTTTGAA GAATATCTTG AGTGA

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

RefSeq	XP_030135026.1
CDS	656..3700
Translation	MSVQNQNCSIIMNPPPPEYINNKSSGCQTNQLQYLQRVVMRAMWRHNFSWPFHQPVDAAALNLPDYYTIIKKPMDLGTIKKRLEHNYYTKAAECIEDFKTMFWNCYMYNKSGDDIVFMAEELEKVFMQKIARMPPEERPVSLNKGKRKGKKTEETWQPSCGISNEQSTNENQAESSEQPPAMTQEQQQATLAPLSAAQLTALMPAAVSITKAKRGVKRKADTTTPTTSIVTASGKSSAMFNERKAVKPCRGENECTVTNKLLKRPFSDSQQPPGIMKKIQLSGKLKHCNAILKELFSKKHAAYAWPFIKPEDVASASTGANQAIAKYPTDLGTIKKKMDNFEYNDIQEFATDVRLMFMSCYKRNSSDHEIVAMARKLQDVFEMHFAKIPDEPVVSDHLPQPVREMTEAYSSESSNDNSSEEKSSEDSEEERKVNLKKLQEQLKALHRQLWVLTKACLSRPEKKKGKTKSEKRKNKEKAEIKSLIQKKKNLKYIKKSKRKLSLNVQSKRTMQQVLLARKSEDEDGAKPMNYDEKRQLSLDINKLPGDKLGKVVHIIQSREPAMRNSNPDEIEIDFETLNASTLRELERYVATCLRKKQRKQAKNPTKSKEELDFERKQELEKRLLDVKGQLNPMKESFKNENNAESSTGPSRLSDSSSSSSDSGSSTSSDSSSSDSSDSESVTETCSKQTGARQNCPASMEKSKRTSCNAFLQAQPSSLTSSLQNHGSSELQQQPPNVLQMLQCRSLNPSEENAQTLSGEISAVLSVHDASDQQTPQSTPKTSQSSVTHSRNVFPEVSNTIFQVDSADWSKQAEQTRHLDNSNKLQNKSSMRTADLISISQEQSHCAPSDKCNDKNILEPMSELPRKDAELKTVHSWVSLCKTMKLPAPIKASAESFNQFRDAALKRSGQVREPKRSLVQTERELQNLPEENKKSVATSVGRESTGLDAMAMTDCELEKEIHKSKLPEAQQCILDQDRNLARKMEQERRRKEAIAWIIDVNLQRDIMASFEEYLE

Target ORF information:

RefSeq Version	XM_030279166.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X3, mRNA.

Target ORF information:

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

XM_030279166.1

ORF Insert Sequence:

ATGTCTGTTC AAAACCAGAA CTGTTCCATT ATTATGAACC CTCCTCCTCC AGAATACATA 
AATAACAAAA GTAGTGGATG TCAAACAAAC CAACTTCAGT ACTTACAGAG GGTAGTCATG 
AGAGCCATGT GGAGACACAA CTTTTCCTGG CCGTTTCACC AACCTGTAGA TGCAGCAGCA 
CTGAATCTGC CTGATTATTA CACTATCATA AAAAAACCTA TGGACTTAGG CACCATAAAA 
AAGCGACTGG AACACAATTA CTACACAAAA GCTGCAGAAT GTATTGAAGA CTTTAAAACT 
ATGTTCTGGA ACTGCTACAT GTACAATAAG TCAGGTGATG ACATTGTGTT TATGGCTGAA 
GAACTAGAAA AAGTGTTTAT GCAGAAAATA GCCCGAATGC CACCAGAAGA AAGACCAGTG 
AGTCTCAATA AAGGCAAGAG AAAAGGAAAG AAGACAGAAG AAACATGGCA GCCCAGCTGT 
GGGATTTCAA ATGAACAAAG TACAAATGAG AATCAAGCTG AAAGCAGTGA GCAGCCTCCA 
GCAATGACTC AAGAGCAACA GCAGGCTACA CTGGCTCCTT TGTCTGCAGC TCAGCTGACT 
GCTTTAATGC CAGCTGCAGT CTCTATAACA AAAGCAAAAA GAGGTGTGAA AAGGAAGGCT 
GACACTACAA CTCCAACTAC TTCAATAGTC ACAGCAAGTG GCAAATCTTC TGCAATGTTT 
AACGAAAGAA AAGCTGTTAA ACCATGTAGA GGTGAAAATG AATGTACAGT AACAAACAAG 
CTTCTGAAGA GACCCTTTTC AGACTCTCAA CAGCCACCTG GAATTATGAA AAAGATTCAG 
TTGTCAGGAA AACTAAAACA TTGTAATGCA ATACTTAAAG AACTGTTTTC AAAGAAACAT 
GCAGCATATG CGTGGCCTTT CATAAAACCT GAAGATGTGG CATCTGCCTC CACTGGTGCG 
AACCAAGCCA TTGCCAAATA TCCTACAGAC CTAGGAACCA TTAAAAAGAA AATGGATAAC 
TTTGAATATA ATGATATACA AGAATTTGCT ACAGATGTTA GATTAATGTT CATGAGCTGC 
TACAAACGTA ATTCTTCAGA CCATGAAATA GTTGCTATGG CAAGAAAACT TCAGGATGTT 
TTTGAAATGC ACTTTGCTAA AATTCCTGAC GAACCTGTTG TGAGTGATCA TCTGCCACAG 
CCTGTGAGAG AAATGACAGA AGCTTATTCC AGTGAAAGCA GTAATGACAA CTCTTCAGAA 
GAAAAATCAT CTGAAGACTC TGAAGAGGAG AGAAAAGTGA ACCTCAAAAA GCTTCAGGAG 
CAACTTAAAG CTCTTCATCG GCAGTTGTGG GTTTTGACCA AAGCGTGCTT ATCTAGACCA 
GAAAAGAAAA AAGGGAAGAC TAAAAGCGAG AAAAGAAAGA ACAAGGAAAA AGCTGAAATA 
AAAAGCTTGA TTCAAAAGAA GAAAAATCTG AAATACATTA AGAAATCTAA GAGAAAGCTG 
TCTTTAAATG TTCAATCAAA GAGAACCATG CAGCAGGTCT TGTTGGCACG TAAGTCAGAA 
GATGAAGATG GTGCCAAACC TATGAATTAT GATGAAAAAC GACAATTGAG TTTGGACATA 
AATAAACTCC CTGGAGATAA GCTTGGGAAA GTAGTCCATA TAATACAGTC AAGAGAACCT 
GCAATGAGGA ACTCTAACCC TGACGAGATA GAAATAGACT TTGAAACTTT AAATGCTTCA 
ACACTCAGAG AACTGGAGAG ATATGTAGCA ACCTGTTTGA GGAAGAAACA AAGAAAGCAG 
GCTAAAAACC CAACAAAGTC AAAAGAAGAA CTTGATTTTG AGAGGAAACA AGAGTTAGAG 
AAGAGACTAC TGGATGTCAA AGGTCAACTA AACCCAATGA AGGAGAGCTT CAAGAATGAA 
AACAATGCTG AGTCAAGTAC TGGGCCAAGC AGACTGAGTG ACAGCAGCAG CAGCTCCTCA 
GATTCTGGCA GCAGCACTAG CAGTGATTCT AGCTCCTCAG ATAGCAGTGA CTCTGAATCA 
GTTACAGAAA CCTGTTCAAA ACAGACTGGA GCCAGGCAGA ACTGTCCAGC TTCTATGGAA 
AAGTCTAAGA GGACATCCTG CAATGCTTTT CTGCAAGCAC AGCCCTCCTC TCTTACTAGC 
AGCTTGCAAA ATCATGGATC ATCTGAACTG CAACAGCAAC CTCCCAATGT ACTGCAAATG 
CTTCAGTGTA GATCACTTAA TCCATCAGAA GAAAATGCTC AGACTCTCTC AGGTGAAATC 
TCAGCTGTAC TTTCTGTGCA TGATGCTTCA GACCAGCAAA CTCCTCAGAG CACTCCAAAG 
ACAAGTCAGT CTTCTGTCAC CCACTCCAGA AATGTTTTTC CAGAGGTGTC CAACACCATT 
TTTCAAGTTG ACAGTGCTGA CTGGAGTAAA CAAGCTGAGC AAACAAGACA TCTAGACAAT 
TCAAATAAAC TTCAAAACAA GAGCAGCATG AGAACTGCTG ATTTAATATC CATAAGTCAA 
GAACAAAGTC ATTGTGCACC CAGTGATAAA TGTAATGATA AAAACATACT AGAGCCAATG 
TCTGAACTTC CAAGAAAGGA TGCAGAATTG AAGACTGTAC ATTCCTGGGT AAGCCTGTGT 
AAAACGATGA AGCTCCCAGC TCCAATAAAA GCATCTGCTG AGAGCTTCAA TCAGTTCAGG 
GACGCAGCAT TAAAGAGGAG TGGGCAAGTG CGGGAGCCAA AAAGGTCTCT TGTGCAAACT 
GAGAGGGAAC TGCAGAATCT TCCAGAAGAA AACAAAAAAT CTGTAGCCAC TTCTGTGGGC 
CGTGAAAGCA CAGGATTGGA TGCCATGGCA ATGACAGACT GTGAGCTTGA AAAAGAAATA 
CATAAGAGTA AATTGCCCGA AGCTCAGCAA TGTATTCTTG ACCAAGACCG TAACTTGGCT 
AGAAAAATGG AACAAGAACG CAGGAGGAAG GAAGCAATAG CTTGGATAAT TGATGTGAAT 
CTGCAGAGAG ATATTATGGC ATCTTTTGAA GAATATCTTG AGTGA

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

BRDT ( XM_030279165.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030135025.1 Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd50971
Clone ID Related Accession (Same CDS sequence)	XM_030279166.1 , XM_030279165.1 , XM_030279164.1
Accession Version	XM_030279165.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3045bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	bromodomain testis-specific protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044220.1) 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 :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCTGTTC AAAACCAGAA CTGTTCCATT ATTATGAACC CTCCTCCTCC AGAATACATA 
AATAACAAAA GTAGTGGATG TCAAACAAAC CAACTTCAGT ACTTACAGAG GGTAGTCATG 
AGAGCCATGT GGAGACACAA CTTTTCCTGG CCGTTTCACC AACCTGTAGA TGCAGCAGCA 
CTGAATCTGC CTGATTATTA CACTATCATA AAAAAACCTA TGGACTTAGG CACCATAAAA 
AAGCGACTGG AACACAATTA CTACACAAAA GCTGCAGAAT GTATTGAAGA CTTTAAAACT 
ATGTTCTGGA ACTGCTACAT GTACAATAAG TCAGGTGATG ACATTGTGTT TATGGCTGAA 
GAACTAGAAA AAGTGTTTAT GCAGAAAATA GCCCGAATGC CACCAGAAGA AAGACCAGTG 
AGTCTCAATA AAGGCAAGAG AAAAGGAAAG AAGACAGAAG AAACATGGCA GCCCAGCTGT 
GGGATTTCAA ATGAACAAAG TACAAATGAG AATCAAGCTG AAAGCAGTGA GCAGCCTCCA 
GCAATGACTC AAGAGCAACA GCAGGCTACA CTGGCTCCTT TGTCTGCAGC TCAGCTGACT 
GCTTTAATGC CAGCTGCAGT CTCTATAACA AAAGCAAAAA GAGGTGTGAA AAGGAAGGCT 
GACACTACAA CTCCAACTAC TTCAATAGTC ACAGCAAGTG GCAAATCTTC TGCAATGTTT 
AACGAAAGAA AAGCTGTTAA ACCATGTAGA GGTGAAAATG AATGTACAGT AACAAACAAG 
CTTCTGAAGA GACCCTTTTC AGACTCTCAA CAGCCACCTG GAATTATGAA AAAGATTCAG 
TTGTCAGGAA AACTAAAACA TTGTAATGCA ATACTTAAAG AACTGTTTTC AAAGAAACAT 
GCAGCATATG CGTGGCCTTT CATAAAACCT GAAGATGTGG CATCTGCCTC CACTGGTGCG 
AACCAAGCCA TTGCCAAATA TCCTACAGAC CTAGGAACCA TTAAAAAGAA AATGGATAAC 
TTTGAATATA ATGATATACA AGAATTTGCT ACAGATGTTA GATTAATGTT CATGAGCTGC 
TACAAACGTA ATTCTTCAGA CCATGAAATA GTTGCTATGG CAAGAAAACT TCAGGATGTT 
TTTGAAATGC ACTTTGCTAA AATTCCTGAC GAACCTGTTG TGAGTGATCA TCTGCCACAG 
CCTGTGAGAG AAATGACAGA AGCTTATTCC AGTGAAAGCA GTAATGACAA CTCTTCAGAA 
GAAAAATCAT CTGAAGACTC TGAAGAGGAG AGAAAAGTGA ACCTCAAAAA GCTTCAGGAG 
CAACTTAAAG CTCTTCATCG GCAGTTGTGG GTTTTGACCA AAGCGTGCTT ATCTAGACCA 
GAAAAGAAAA AAGGGAAGAC TAAAAGCGAG AAAAGAAAGA ACAAGGAAAA AGCTGAAATA 
AAAAGCTTGA TTCAAAAGAA GAAAAATCTG AAATACATTA AGAAATCTAA GAGAAAGCTG 
TCTTTAAATG TTCAATCAAA GAGAACCATG CAGCAGGTCT TGTTGGCACG TAAGTCAGAA 
GATGAAGATG GTGCCAAACC TATGAATTAT GATGAAAAAC GACAATTGAG TTTGGACATA 
AATAAACTCC CTGGAGATAA GCTTGGGAAA GTAGTCCATA TAATACAGTC AAGAGAACCT 
GCAATGAGGA ACTCTAACCC TGACGAGATA GAAATAGACT TTGAAACTTT AAATGCTTCA 
ACACTCAGAG AACTGGAGAG ATATGTAGCA ACCTGTTTGA GGAAGAAACA AAGAAAGCAG 
GCTAAAAACC CAACAAAGTC AAAAGAAGAA CTTGATTTTG AGAGGAAACA AGAGTTAGAG 
AAGAGACTAC TGGATGTCAA AGGTCAACTA AACCCAATGA AGGAGAGCTT CAAGAATGAA 
AACAATGCTG AGTCAAGTAC TGGGCCAAGC AGACTGAGTG ACAGCAGCAG CAGCTCCTCA 
GATTCTGGCA GCAGCACTAG CAGTGATTCT AGCTCCTCAG ATAGCAGTGA CTCTGAATCA 
GTTACAGAAA CCTGTTCAAA ACAGACTGGA GCCAGGCAGA ACTGTCCAGC TTCTATGGAA 
AAGTCTAAGA GGACATCCTG CAATGCTTTT CTGCAAGCAC AGCCCTCCTC TCTTACTAGC 
AGCTTGCAAA ATCATGGATC ATCTGAACTG CAACAGCAAC CTCCCAATGT ACTGCAAATG 
CTTCAGTGTA GATCACTTAA TCCATCAGAA GAAAATGCTC AGACTCTCTC AGGTGAAATC 
TCAGCTGTAC TTTCTGTGCA TGATGCTTCA GACCAGCAAA CTCCTCAGAG CACTCCAAAG 
ACAAGTCAGT CTTCTGTCAC CCACTCCAGA AATGTTTTTC CAGAGGTGTC CAACACCATT 
TTTCAAGTTG ACAGTGCTGA CTGGAGTAAA CAAGCTGAGC AAACAAGACA TCTAGACAAT 
TCAAATAAAC TTCAAAACAA GAGCAGCATG AGAACTGCTG ATTTAATATC CATAAGTCAA 
GAACAAAGTC ATTGTGCACC CAGTGATAAA TGTAATGATA AAAACATACT AGAGCCAATG 
TCTGAACTTC CAAGAAAGGA TGCAGAATTG AAGACTGTAC ATTCCTGGGT AAGCCTGTGT 
AAAACGATGA AGCTCCCAGC TCCAATAAAA GCATCTGCTG AGAGCTTCAA TCAGTTCAGG 
GACGCAGCAT TAAAGAGGAG TGGGCAAGTG CGGGAGCCAA AAAGGTCTCT TGTGCAAACT 
GAGAGGGAAC TGCAGAATCT TCCAGAAGAA AACAAAAAAT CTGTAGCCAC TTCTGTGGGC 
CGTGAAAGCA CAGGATTGGA TGCCATGGCA ATGACAGACT GTGAGCTTGA AAAAGAAATA 
CATAAGAGTA AATTGCCCGA AGCTCAGCAA TGTATTCTTG ACCAAGACCG TAACTTGGCT 
AGAAAAATGG AACAAGAACG CAGGAGGAAG GAAGCAATAG CTTGGATAAT TGATGTGAAT 
CTGCAGAGAG ATATTATGGC ATCTTTTGAA GAATATCTTG AGTGA

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

RefSeq	XP_030135025.1
CDS	577..3621
Translation	MSVQNQNCSIIMNPPPPEYINNKSSGCQTNQLQYLQRVVMRAMWRHNFSWPFHQPVDAAALNLPDYYTIIKKPMDLGTIKKRLEHNYYTKAAECIEDFKTMFWNCYMYNKSGDDIVFMAEELEKVFMQKIARMPPEERPVSLNKGKRKGKKTEETWQPSCGISNEQSTNENQAESSEQPPAMTQEQQQATLAPLSAAQLTALMPAAVSITKAKRGVKRKADTTTPTTSIVTASGKSSAMFNERKAVKPCRGENECTVTNKLLKRPFSDSQQPPGIMKKIQLSGKLKHCNAILKELFSKKHAAYAWPFIKPEDVASASTGANQAIAKYPTDLGTIKKKMDNFEYNDIQEFATDVRLMFMSCYKRNSSDHEIVAMARKLQDVFEMHFAKIPDEPVVSDHLPQPVREMTEAYSSESSNDNSSEEKSSEDSEEERKVNLKKLQEQLKALHRQLWVLTKACLSRPEKKKGKTKSEKRKNKEKAEIKSLIQKKKNLKYIKKSKRKLSLNVQSKRTMQQVLLARKSEDEDGAKPMNYDEKRQLSLDINKLPGDKLGKVVHIIQSREPAMRNSNPDEIEIDFETLNASTLRELERYVATCLRKKQRKQAKNPTKSKEELDFERKQELEKRLLDVKGQLNPMKESFKNENNAESSTGPSRLSDSSSSSSDSGSSTSSDSSSSDSSDSESVTETCSKQTGARQNCPASMEKSKRTSCNAFLQAQPSSLTSSLQNHGSSELQQQPPNVLQMLQCRSLNPSEENAQTLSGEISAVLSVHDASDQQTPQSTPKTSQSSVTHSRNVFPEVSNTIFQVDSADWSKQAEQTRHLDNSNKLQNKSSMRTADLISISQEQSHCAPSDKCNDKNILEPMSELPRKDAELKTVHSWVSLCKTMKLPAPIKASAESFNQFRDAALKRSGQVREPKRSLVQTERELQNLPEENKKSVATSVGRESTGLDAMAMTDCELEKEIHKSKLPEAQQCILDQDRNLARKMEQERRRKEAIAWIIDVNLQRDIMASFEEYLE

Target ORF information:

RefSeq Version	XM_030279165.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X2, mRNA.

Target ORF information:

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

XM_030279165.1

ORF Insert Sequence:

ATGTCTGTTC AAAACCAGAA CTGTTCCATT ATTATGAACC CTCCTCCTCC AGAATACATA 
AATAACAAAA GTAGTGGATG TCAAACAAAC CAACTTCAGT ACTTACAGAG GGTAGTCATG 
AGAGCCATGT GGAGACACAA CTTTTCCTGG CCGTTTCACC AACCTGTAGA TGCAGCAGCA 
CTGAATCTGC CTGATTATTA CACTATCATA AAAAAACCTA TGGACTTAGG CACCATAAAA 
AAGCGACTGG AACACAATTA CTACACAAAA GCTGCAGAAT GTATTGAAGA CTTTAAAACT 
ATGTTCTGGA ACTGCTACAT GTACAATAAG TCAGGTGATG ACATTGTGTT TATGGCTGAA 
GAACTAGAAA AAGTGTTTAT GCAGAAAATA GCCCGAATGC CACCAGAAGA AAGACCAGTG 
AGTCTCAATA AAGGCAAGAG AAAAGGAAAG AAGACAGAAG AAACATGGCA GCCCAGCTGT 
GGGATTTCAA ATGAACAAAG TACAAATGAG AATCAAGCTG AAAGCAGTGA GCAGCCTCCA 
GCAATGACTC AAGAGCAACA GCAGGCTACA CTGGCTCCTT TGTCTGCAGC TCAGCTGACT 
GCTTTAATGC CAGCTGCAGT CTCTATAACA AAAGCAAAAA GAGGTGTGAA AAGGAAGGCT 
GACACTACAA CTCCAACTAC TTCAATAGTC ACAGCAAGTG GCAAATCTTC TGCAATGTTT 
AACGAAAGAA AAGCTGTTAA ACCATGTAGA GGTGAAAATG AATGTACAGT AACAAACAAG 
CTTCTGAAGA GACCCTTTTC AGACTCTCAA CAGCCACCTG GAATTATGAA AAAGATTCAG 
TTGTCAGGAA AACTAAAACA TTGTAATGCA ATACTTAAAG AACTGTTTTC AAAGAAACAT 
GCAGCATATG CGTGGCCTTT CATAAAACCT GAAGATGTGG CATCTGCCTC CACTGGTGCG 
AACCAAGCCA TTGCCAAATA TCCTACAGAC CTAGGAACCA TTAAAAAGAA AATGGATAAC 
TTTGAATATA ATGATATACA AGAATTTGCT ACAGATGTTA GATTAATGTT CATGAGCTGC 
TACAAACGTA ATTCTTCAGA CCATGAAATA GTTGCTATGG CAAGAAAACT TCAGGATGTT 
TTTGAAATGC ACTTTGCTAA AATTCCTGAC GAACCTGTTG TGAGTGATCA TCTGCCACAG 
CCTGTGAGAG AAATGACAGA AGCTTATTCC AGTGAAAGCA GTAATGACAA CTCTTCAGAA 
GAAAAATCAT CTGAAGACTC TGAAGAGGAG AGAAAAGTGA ACCTCAAAAA GCTTCAGGAG 
CAACTTAAAG CTCTTCATCG GCAGTTGTGG GTTTTGACCA AAGCGTGCTT ATCTAGACCA 
GAAAAGAAAA AAGGGAAGAC TAAAAGCGAG AAAAGAAAGA ACAAGGAAAA AGCTGAAATA 
AAAAGCTTGA TTCAAAAGAA GAAAAATCTG AAATACATTA AGAAATCTAA GAGAAAGCTG 
TCTTTAAATG TTCAATCAAA GAGAACCATG CAGCAGGTCT TGTTGGCACG TAAGTCAGAA 
GATGAAGATG GTGCCAAACC TATGAATTAT GATGAAAAAC GACAATTGAG TTTGGACATA 
AATAAACTCC CTGGAGATAA GCTTGGGAAA GTAGTCCATA TAATACAGTC AAGAGAACCT 
GCAATGAGGA ACTCTAACCC TGACGAGATA GAAATAGACT TTGAAACTTT AAATGCTTCA 
ACACTCAGAG AACTGGAGAG ATATGTAGCA ACCTGTTTGA GGAAGAAACA AAGAAAGCAG 
GCTAAAAACC CAACAAAGTC AAAAGAAGAA CTTGATTTTG AGAGGAAACA AGAGTTAGAG 
AAGAGACTAC TGGATGTCAA AGGTCAACTA AACCCAATGA AGGAGAGCTT CAAGAATGAA 
AACAATGCTG AGTCAAGTAC TGGGCCAAGC AGACTGAGTG ACAGCAGCAG CAGCTCCTCA 
GATTCTGGCA GCAGCACTAG CAGTGATTCT AGCTCCTCAG ATAGCAGTGA CTCTGAATCA 
GTTACAGAAA CCTGTTCAAA ACAGACTGGA GCCAGGCAGA ACTGTCCAGC TTCTATGGAA 
AAGTCTAAGA GGACATCCTG CAATGCTTTT CTGCAAGCAC AGCCCTCCTC TCTTACTAGC 
AGCTTGCAAA ATCATGGATC ATCTGAACTG CAACAGCAAC CTCCCAATGT ACTGCAAATG 
CTTCAGTGTA GATCACTTAA TCCATCAGAA GAAAATGCTC AGACTCTCTC AGGTGAAATC 
TCAGCTGTAC TTTCTGTGCA TGATGCTTCA GACCAGCAAA CTCCTCAGAG CACTCCAAAG 
ACAAGTCAGT CTTCTGTCAC CCACTCCAGA AATGTTTTTC CAGAGGTGTC CAACACCATT 
TTTCAAGTTG ACAGTGCTGA CTGGAGTAAA CAAGCTGAGC AAACAAGACA TCTAGACAAT 
TCAAATAAAC TTCAAAACAA GAGCAGCATG AGAACTGCTG ATTTAATATC CATAAGTCAA 
GAACAAAGTC ATTGTGCACC CAGTGATAAA TGTAATGATA AAAACATACT AGAGCCAATG 
TCTGAACTTC CAAGAAAGGA TGCAGAATTG AAGACTGTAC ATTCCTGGGT AAGCCTGTGT 
AAAACGATGA AGCTCCCAGC TCCAATAAAA GCATCTGCTG AGAGCTTCAA TCAGTTCAGG 
GACGCAGCAT TAAAGAGGAG TGGGCAAGTG CGGGAGCCAA AAAGGTCTCT TGTGCAAACT 
GAGAGGGAAC TGCAGAATCT TCCAGAAGAA AACAAAAAAT CTGTAGCCAC TTCTGTGGGC 
CGTGAAAGCA CAGGATTGGA TGCCATGGCA ATGACAGACT GTGAGCTTGA AAAAGAAATA 
CATAAGAGTA AATTGCCCGA AGCTCAGCAA TGTATTCTTG ACCAAGACCG TAACTTGGCT 
AGAAAAATGG AACAAGAACG CAGGAGGAAG GAAGCAATAG CTTGGATAAT TGATGTGAAT 
CTGCAGAGAG ATATTATGGC ATCTTTTGAA GAATATCTTG AGTGA

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

BRDT ( XM_030279164.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030135024.1 Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X1, mRNA.

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CloneID	OTd50971
Clone ID Related Accession (Same CDS sequence)	XM_030279166.1 , XM_030279165.1 , XM_030279164.1
Accession Version	XM_030279164.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3045bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	bromodomain testis-specific protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044220.1) 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 :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCTGTTC AAAACCAGAA CTGTTCCATT ATTATGAACC CTCCTCCTCC AGAATACATA 
AATAACAAAA GTAGTGGATG TCAAACAAAC CAACTTCAGT ACTTACAGAG GGTAGTCATG 
AGAGCCATGT GGAGACACAA CTTTTCCTGG CCGTTTCACC AACCTGTAGA TGCAGCAGCA 
CTGAATCTGC CTGATTATTA CACTATCATA AAAAAACCTA TGGACTTAGG CACCATAAAA 
AAGCGACTGG AACACAATTA CTACACAAAA GCTGCAGAAT GTATTGAAGA CTTTAAAACT 
ATGTTCTGGA ACTGCTACAT GTACAATAAG TCAGGTGATG ACATTGTGTT TATGGCTGAA 
GAACTAGAAA AAGTGTTTAT GCAGAAAATA GCCCGAATGC CACCAGAAGA AAGACCAGTG 
AGTCTCAATA AAGGCAAGAG AAAAGGAAAG AAGACAGAAG AAACATGGCA GCCCAGCTGT 
GGGATTTCAA ATGAACAAAG TACAAATGAG AATCAAGCTG AAAGCAGTGA GCAGCCTCCA 
GCAATGACTC AAGAGCAACA GCAGGCTACA CTGGCTCCTT TGTCTGCAGC TCAGCTGACT 
GCTTTAATGC CAGCTGCAGT CTCTATAACA AAAGCAAAAA GAGGTGTGAA AAGGAAGGCT 
GACACTACAA CTCCAACTAC TTCAATAGTC ACAGCAAGTG GCAAATCTTC TGCAATGTTT 
AACGAAAGAA AAGCTGTTAA ACCATGTAGA GGTGAAAATG AATGTACAGT AACAAACAAG 
CTTCTGAAGA GACCCTTTTC AGACTCTCAA CAGCCACCTG GAATTATGAA AAAGATTCAG 
TTGTCAGGAA AACTAAAACA TTGTAATGCA ATACTTAAAG AACTGTTTTC AAAGAAACAT 
GCAGCATATG CGTGGCCTTT CATAAAACCT GAAGATGTGG CATCTGCCTC CACTGGTGCG 
AACCAAGCCA TTGCCAAATA TCCTACAGAC CTAGGAACCA TTAAAAAGAA AATGGATAAC 
TTTGAATATA ATGATATACA AGAATTTGCT ACAGATGTTA GATTAATGTT CATGAGCTGC 
TACAAACGTA ATTCTTCAGA CCATGAAATA GTTGCTATGG CAAGAAAACT TCAGGATGTT 
TTTGAAATGC ACTTTGCTAA AATTCCTGAC GAACCTGTTG TGAGTGATCA TCTGCCACAG 
CCTGTGAGAG AAATGACAGA AGCTTATTCC AGTGAAAGCA GTAATGACAA CTCTTCAGAA 
GAAAAATCAT CTGAAGACTC TGAAGAGGAG AGAAAAGTGA ACCTCAAAAA GCTTCAGGAG 
CAACTTAAAG CTCTTCATCG GCAGTTGTGG GTTTTGACCA AAGCGTGCTT ATCTAGACCA 
GAAAAGAAAA AAGGGAAGAC TAAAAGCGAG AAAAGAAAGA ACAAGGAAAA AGCTGAAATA 
AAAAGCTTGA TTCAAAAGAA GAAAAATCTG AAATACATTA AGAAATCTAA GAGAAAGCTG 
TCTTTAAATG TTCAATCAAA GAGAACCATG CAGCAGGTCT TGTTGGCACG TAAGTCAGAA 
GATGAAGATG GTGCCAAACC TATGAATTAT GATGAAAAAC GACAATTGAG TTTGGACATA 
AATAAACTCC CTGGAGATAA GCTTGGGAAA GTAGTCCATA TAATACAGTC AAGAGAACCT 
GCAATGAGGA ACTCTAACCC TGACGAGATA GAAATAGACT TTGAAACTTT AAATGCTTCA 
ACACTCAGAG AACTGGAGAG ATATGTAGCA ACCTGTTTGA GGAAGAAACA AAGAAAGCAG 
GCTAAAAACC CAACAAAGTC AAAAGAAGAA CTTGATTTTG AGAGGAAACA AGAGTTAGAG 
AAGAGACTAC TGGATGTCAA AGGTCAACTA AACCCAATGA AGGAGAGCTT CAAGAATGAA 
AACAATGCTG AGTCAAGTAC TGGGCCAAGC AGACTGAGTG ACAGCAGCAG CAGCTCCTCA 
GATTCTGGCA GCAGCACTAG CAGTGATTCT AGCTCCTCAG ATAGCAGTGA CTCTGAATCA 
GTTACAGAAA CCTGTTCAAA ACAGACTGGA GCCAGGCAGA ACTGTCCAGC TTCTATGGAA 
AAGTCTAAGA GGACATCCTG CAATGCTTTT CTGCAAGCAC AGCCCTCCTC TCTTACTAGC 
AGCTTGCAAA ATCATGGATC ATCTGAACTG CAACAGCAAC CTCCCAATGT ACTGCAAATG 
CTTCAGTGTA GATCACTTAA TCCATCAGAA GAAAATGCTC AGACTCTCTC AGGTGAAATC 
TCAGCTGTAC TTTCTGTGCA TGATGCTTCA GACCAGCAAA CTCCTCAGAG CACTCCAAAG 
ACAAGTCAGT CTTCTGTCAC CCACTCCAGA AATGTTTTTC CAGAGGTGTC CAACACCATT 
TTTCAAGTTG ACAGTGCTGA CTGGAGTAAA CAAGCTGAGC AAACAAGACA TCTAGACAAT 
TCAAATAAAC TTCAAAACAA GAGCAGCATG AGAACTGCTG ATTTAATATC CATAAGTCAA 
GAACAAAGTC ATTGTGCACC CAGTGATAAA TGTAATGATA AAAACATACT AGAGCCAATG 
TCTGAACTTC CAAGAAAGGA TGCAGAATTG AAGACTGTAC ATTCCTGGGT AAGCCTGTGT 
AAAACGATGA AGCTCCCAGC TCCAATAAAA GCATCTGCTG AGAGCTTCAA TCAGTTCAGG 
GACGCAGCAT TAAAGAGGAG TGGGCAAGTG CGGGAGCCAA AAAGGTCTCT TGTGCAAACT 
GAGAGGGAAC TGCAGAATCT TCCAGAAGAA AACAAAAAAT CTGTAGCCAC TTCTGTGGGC 
CGTGAAAGCA CAGGATTGGA TGCCATGGCA ATGACAGACT GTGAGCTTGA AAAAGAAATA 
CATAAGAGTA AATTGCCCGA AGCTCAGCAA TGTATTCTTG ACCAAGACCG TAACTTGGCT 
AGAAAAATGG AACAAGAACG CAGGAGGAAG GAAGCAATAG CTTGGATAAT TGATGTGAAT 
CTGCAGAGAG ATATTATGGC ATCTTTTGAA GAATATCTTG AGTGA

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

RefSeq	XP_030135024.1
CDS	765..3809
Translation	MSVQNQNCSIIMNPPPPEYINNKSSGCQTNQLQYLQRVVMRAMWRHNFSWPFHQPVDAAALNLPDYYTIIKKPMDLGTIKKRLEHNYYTKAAECIEDFKTMFWNCYMYNKSGDDIVFMAEELEKVFMQKIARMPPEERPVSLNKGKRKGKKTEETWQPSCGISNEQSTNENQAESSEQPPAMTQEQQQATLAPLSAAQLTALMPAAVSITKAKRGVKRKADTTTPTTSIVTASGKSSAMFNERKAVKPCRGENECTVTNKLLKRPFSDSQQPPGIMKKIQLSGKLKHCNAILKELFSKKHAAYAWPFIKPEDVASASTGANQAIAKYPTDLGTIKKKMDNFEYNDIQEFATDVRLMFMSCYKRNSSDHEIVAMARKLQDVFEMHFAKIPDEPVVSDHLPQPVREMTEAYSSESSNDNSSEEKSSEDSEEERKVNLKKLQEQLKALHRQLWVLTKACLSRPEKKKGKTKSEKRKNKEKAEIKSLIQKKKNLKYIKKSKRKLSLNVQSKRTMQQVLLARKSEDEDGAKPMNYDEKRQLSLDINKLPGDKLGKVVHIIQSREPAMRNSNPDEIEIDFETLNASTLRELERYVATCLRKKQRKQAKNPTKSKEELDFERKQELEKRLLDVKGQLNPMKESFKNENNAESSTGPSRLSDSSSSSSDSGSSTSSDSSSSDSSDSESVTETCSKQTGARQNCPASMEKSKRTSCNAFLQAQPSSLTSSLQNHGSSELQQQPPNVLQMLQCRSLNPSEENAQTLSGEISAVLSVHDASDQQTPQSTPKTSQSSVTHSRNVFPEVSNTIFQVDSADWSKQAEQTRHLDNSNKLQNKSSMRTADLISISQEQSHCAPSDKCNDKNILEPMSELPRKDAELKTVHSWVSLCKTMKLPAPIKASAESFNQFRDAALKRSGQVREPKRSLVQTERELQNLPEENKKSVATSVGRESTGLDAMAMTDCELEKEIHKSKLPEAQQCILDQDRNLARKMEQERRRKEAIAWIIDVNLQRDIMASFEEYLE

Target ORF information:

RefSeq Version	XM_030279164.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata bromodomain testis associated (BRDT), transcript variant X1, mRNA.

Target ORF information:

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

XM_030279164.1

ORF Insert Sequence:

ATGTCTGTTC AAAACCAGAA CTGTTCCATT ATTATGAACC CTCCTCCTCC AGAATACATA 
AATAACAAAA GTAGTGGATG TCAAACAAAC CAACTTCAGT ACTTACAGAG GGTAGTCATG 
AGAGCCATGT GGAGACACAA CTTTTCCTGG CCGTTTCACC AACCTGTAGA TGCAGCAGCA 
CTGAATCTGC CTGATTATTA CACTATCATA AAAAAACCTA TGGACTTAGG CACCATAAAA 
AAGCGACTGG AACACAATTA CTACACAAAA GCTGCAGAAT GTATTGAAGA CTTTAAAACT 
ATGTTCTGGA ACTGCTACAT GTACAATAAG TCAGGTGATG ACATTGTGTT TATGGCTGAA 
GAACTAGAAA AAGTGTTTAT GCAGAAAATA GCCCGAATGC CACCAGAAGA AAGACCAGTG 
AGTCTCAATA AAGGCAAGAG AAAAGGAAAG AAGACAGAAG AAACATGGCA GCCCAGCTGT 
GGGATTTCAA ATGAACAAAG TACAAATGAG AATCAAGCTG AAAGCAGTGA GCAGCCTCCA 
GCAATGACTC AAGAGCAACA GCAGGCTACA CTGGCTCCTT TGTCTGCAGC TCAGCTGACT 
GCTTTAATGC CAGCTGCAGT CTCTATAACA AAAGCAAAAA GAGGTGTGAA AAGGAAGGCT 
GACACTACAA CTCCAACTAC TTCAATAGTC ACAGCAAGTG GCAAATCTTC TGCAATGTTT 
AACGAAAGAA AAGCTGTTAA ACCATGTAGA GGTGAAAATG AATGTACAGT AACAAACAAG 
CTTCTGAAGA GACCCTTTTC AGACTCTCAA CAGCCACCTG GAATTATGAA AAAGATTCAG 
TTGTCAGGAA AACTAAAACA TTGTAATGCA ATACTTAAAG AACTGTTTTC AAAGAAACAT 
GCAGCATATG CGTGGCCTTT CATAAAACCT GAAGATGTGG CATCTGCCTC CACTGGTGCG 
AACCAAGCCA TTGCCAAATA TCCTACAGAC CTAGGAACCA TTAAAAAGAA AATGGATAAC 
TTTGAATATA ATGATATACA AGAATTTGCT ACAGATGTTA GATTAATGTT CATGAGCTGC 
TACAAACGTA ATTCTTCAGA CCATGAAATA GTTGCTATGG CAAGAAAACT TCAGGATGTT 
TTTGAAATGC ACTTTGCTAA AATTCCTGAC GAACCTGTTG TGAGTGATCA TCTGCCACAG 
CCTGTGAGAG AAATGACAGA AGCTTATTCC AGTGAAAGCA GTAATGACAA CTCTTCAGAA 
GAAAAATCAT CTGAAGACTC TGAAGAGGAG AGAAAAGTGA ACCTCAAAAA GCTTCAGGAG 
CAACTTAAAG CTCTTCATCG GCAGTTGTGG GTTTTGACCA AAGCGTGCTT ATCTAGACCA 
GAAAAGAAAA AAGGGAAGAC TAAAAGCGAG AAAAGAAAGA ACAAGGAAAA AGCTGAAATA 
AAAAGCTTGA TTCAAAAGAA GAAAAATCTG AAATACATTA AGAAATCTAA GAGAAAGCTG 
TCTTTAAATG TTCAATCAAA GAGAACCATG CAGCAGGTCT TGTTGGCACG TAAGTCAGAA 
GATGAAGATG GTGCCAAACC TATGAATTAT GATGAAAAAC GACAATTGAG TTTGGACATA 
AATAAACTCC CTGGAGATAA GCTTGGGAAA GTAGTCCATA TAATACAGTC AAGAGAACCT 
GCAATGAGGA ACTCTAACCC TGACGAGATA GAAATAGACT TTGAAACTTT AAATGCTTCA 
ACACTCAGAG AACTGGAGAG ATATGTAGCA ACCTGTTTGA GGAAGAAACA AAGAAAGCAG 
GCTAAAAACC CAACAAAGTC AAAAGAAGAA CTTGATTTTG AGAGGAAACA AGAGTTAGAG 
AAGAGACTAC TGGATGTCAA AGGTCAACTA AACCCAATGA AGGAGAGCTT CAAGAATGAA 
AACAATGCTG AGTCAAGTAC TGGGCCAAGC AGACTGAGTG ACAGCAGCAG CAGCTCCTCA 
GATTCTGGCA GCAGCACTAG CAGTGATTCT AGCTCCTCAG ATAGCAGTGA CTCTGAATCA 
GTTACAGAAA CCTGTTCAAA ACAGACTGGA GCCAGGCAGA ACTGTCCAGC TTCTATGGAA 
AAGTCTAAGA GGACATCCTG CAATGCTTTT CTGCAAGCAC AGCCCTCCTC TCTTACTAGC 
AGCTTGCAAA ATCATGGATC ATCTGAACTG CAACAGCAAC CTCCCAATGT ACTGCAAATG 
CTTCAGTGTA GATCACTTAA TCCATCAGAA GAAAATGCTC AGACTCTCTC AGGTGAAATC 
TCAGCTGTAC TTTCTGTGCA TGATGCTTCA GACCAGCAAA CTCCTCAGAG CACTCCAAAG 
ACAAGTCAGT CTTCTGTCAC CCACTCCAGA AATGTTTTTC CAGAGGTGTC CAACACCATT 
TTTCAAGTTG ACAGTGCTGA CTGGAGTAAA CAAGCTGAGC AAACAAGACA TCTAGACAAT 
TCAAATAAAC TTCAAAACAA GAGCAGCATG AGAACTGCTG ATTTAATATC CATAAGTCAA 
GAACAAAGTC ATTGTGCACC CAGTGATAAA TGTAATGATA AAAACATACT AGAGCCAATG 
TCTGAACTTC CAAGAAAGGA TGCAGAATTG AAGACTGTAC ATTCCTGGGT AAGCCTGTGT 
AAAACGATGA AGCTCCCAGC TCCAATAAAA GCATCTGCTG AGAGCTTCAA TCAGTTCAGG 
GACGCAGCAT TAAAGAGGAG TGGGCAAGTG CGGGAGCCAA AAAGGTCTCT TGTGCAAACT 
GAGAGGGAAC TGCAGAATCT TCCAGAAGAA AACAAAAAAT CTGTAGCCAC TTCTGTGGGC 
CGTGAAAGCA CAGGATTGGA TGCCATGGCA ATGACAGACT GTGAGCTTGA AAAAGAAATA 
CATAAGAGTA AATTGCCCGA AGCTCAGCAA TGTATTCTTG ACCAAGACCG TAACTTGGCT 
AGAAAAATGG AACAAGAACG CAGGAGGAAG GAAGCAATAG CTTGGATAAT TGATGTGAAT 
CTGCAGAGAG ATATTATGGC ATCTTTTGAA GAATATCTTG AGTGA

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

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BRDT cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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