BRDT cDNA ORF clone, Pteropus alecto(black flying fox)

Gene
Clones
gRNAs

Summary

Gene Symbol	BRDT
Entrez Gene ID	102893684
Full Name	bromodomain testis associated
Gene Type	protein-coding
Organism	Pteropus alecto(black flying fox)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006919478.2	XP_006919540.1	bromodomain testis-specific protein

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)	Select
OPt23339	XM_006919478.2 Latest version!	Pteropus alecto bromodomain testis associated (BRDT), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

ORF Online Only Promotion

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

*Business Day

** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

BRDT ( XM_006919478.2 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_006919540.1 Pteropus alecto bromodomain testis associated (BRDT), mRNA.

Price & Availability↑

CloneID	OPt23339
Clone ID Related Accession (Same CDS sequence)	XM_006919478.2
Accession Version	XM_006919478.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2787bp) 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	2018-05-06
Organism	Pteropus alecto(black flying fox)
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_006441955.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Feb 10, 2016 this sequence version replaced XM_006919478.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pteropus alecto Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGTCTCTGC CAAGTAGACA AACAGCTATT GTTAACCCTC CACCACCAGA GTACATAAAT 
ACTAAGAAAA ATGGGCGATT GACAAATCAA CTACAGTATC TACAAAAAGT TGTTCTGAAG 
GCTTTATGGA AGCATAGTTT TTCCTGGCCT TTTCAGCAGC CTGTGGATGC AATGAAACTT 
AAATTGCCTG ATTATTATAC CATTATAAAA AAACCAATGG ATTTAAGTAC AATTAAGAAG 
CGCTTGGAAC ATAAATATTA TGTGCAGGCT TCAGAATGTA TAGAAGACTT CAATATGATG 
TTCTCAAATT GCTATTTATA CAACAAGACT GGAGATGACA TTGTTCTCAT GGCACAAGCT 
CTAGAGAAGT TGTTTAGGCA GAAATTATCT CAAATGCCAC AAGAAGAGCA AGTTGTGGGT 
GGTAAGGAAA GAATAAAGAA AGGCAGAGCA AACAGCACTC AACAGAATGT AGCAGTTTCT 
TCTGTTAAAG AAAAACAGTC CCCTAAAGCA TCAGAAAAAG TATTTAAGCA GCAAGTGATT 
TCCTCTTTAT TTCCTGAAAC ATCTGTTTCT CCTTTAAATA TGGCACATGG TGCTCCATTC 
AACTGTACCT CACAAACAGT TACCCAGGTT ACAAGGGGCG TGAAGAGGAA AGCAGATACA 
ACAACTCCTA CGACTTCAGT AGTTAAAGCA AGTGGTGAAT ATTCCCCAGC ACTTACAGAA 
AAAAAATCAG CAAAAATGCC ACCTGTAAAA GAAACTGTGC TGAAGAATGT TTTGCCGGAT 
CCTCAACAAC AACATAAAGT TGTAAAGAGT GGTAAAGTAA CTGAACAATT AAGGCACTGT 
AGTGAGATTC TTAAAGAAAT GCTTGCAAAG AAACACTTTT CATATGCATG GCCCTTTTAT 
AATCCTGTTG ATGTTAATGC ATTGGGACTC CATAACTACT ATGATATTGT GAAAAATCCA 
ATGGATCTTG GAACTATCAA GAGAAAAATG GACAACCAAG AATATAAGGA TGCATATGAA 
TTTGCTGCAG ATGTTAGATT AATGTTCGTG AATTGCTACA AATACAATCC TCCAGATCAT 
GAAGTAGTGG CAATGGCAAG AATGCTCCAG GATGTTTTTG AAATGCACTT TGCAAAGATC 
CCAGATGAAC CCATTGAGAA TATGCCTGTG CGTAATATCA AAACAGATAC CACAAAAACC 
CTTGGTAGAG AAAGCAGTAG TGAGGCTTCC TCTGAAGATA ACTCTTCTGG TGATTCTGAA 
GATGAACGAG TTCAGCGTCT TGCAAAGCTT CAGGAACAGC TTAAAGCTGT TCATCAACAA 
CTACAGGTTC TGTCCCAAGT ACCTTTTCAT AAGCTGAAGA AAAAGAATGA GAAGTCTAAA 
AAGGAAAAGA AAAAAGAAAA GTTTAATAAC AGTGATGAAA ATCCAAGAAA AAAGTTTAAG 
CAAGCAAAAT TAAAGCCCAA GAGCAATCAG CCAAAGAAGA GCATACAACA GCCCTTTGCT 
CTGAAATCTG AGGATGATAA TGTTAAACCT ATGAACTATG ATGAGAAAAG GCAGTTGAGT 
TTGGATATAA ACAAACTCCC TGGAGATAAA CTTGGGAGAG TTGTTCATAT AATACAATCA 
AGAGAGCCTT CACTGAGAAA TTCCAACCCT GATGAGATAG AGATAGACTT TGAAACACTG 
AAAGCAACAA CACTAAGAGA ACTAGAAAAA TATGTTGCTG CATGTCTAAG AAAAAGACCA 
CTAAAACCTC AGGGTAAGAA AATAACGAAG TCCAAAGAAG AACTTCATTC ACAGAAAAAA 
CAGGAGTTGG AAAAGCGGTT ACTGGATGTC AATAATCAGT TAAATTCCAG AAAACGTCAA 
ACAAAACCTG AGAAAACTCA GTTATCCAAG GCTGTTGGAA GTGGTTCCCG ATTGAGTGAA 
AGCAGCAGCA GCAGCAGTAG CTCATCAGAG TCTGAAAGTA GTAGCAGTGA TTCAAGTTCT 
TCAGACAGCA GTGATTCCGA ATCAGAAATG TTACCTAAAT TTACTGAAGT TAAACAGAAT 
GATTCTCCTT CTAAAGAGAA AGTAAAGACA CAGTCTTCTA TGCAAGATAC ACTCTCTTGT 
TCTGCTACCC TTGTTCATCA GACTACCCAT TCAAGTCGAA CACCACCAAA TCACCACCAA 
TTAGCATTTA ATTACCAAGA ATTAGAACAT TTACACAGTG TGAAAAACAT TTCACCTTCA 
CAAATCCTGC CTCCCTCAGG TGATTCTGAA CAACGCTTGA ATGGCCTAAC TGTGATGCAT 
CAGTCTGGTG ATGATACAGT GGTGTTAGAA CCTGAAAGTC AAGTTCTTGT GCAGAAGGAT 
ATAAAGATCA AGAATGCAGA CTCTTGGAAA AGTTTAGGCA AACCAGTCAA AACTTCAGGT 
GTATTGAAAT CCTCAGATGA GCTCTTCAAC CAATTTAGAA AAGCAGCAAT AGAAAAGGAA 
GTTAAAGCTC GAACACAAGA ACTAATACGG AAACATCTGG AACAGAATAC AAAGGAACCA 
AAAGTATTTC AAGAAAATCA GAGGGACTCT GGCTTCACTC TAGAATCTTC TTCAAATAAG 
ATGCAAAACA AGTGCCTTGG AGAGGAGCAG AAAGAACATC AACAGTCATT GGAAGCTCAA 
GACAAGTGTA AACTCTGGCT TCTCAAAGAC CGTAATTTAG CAAGGGAGAA AGAGCAAGAG 
CGGAGGAGGA GAGAAGCAAT GGCTGGTACC ATTGATATGA CTCTGCAAAG CGACATTATG 
ACAATGTTTG AAAACAACTT TGATTAA

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

RefSeq	XP_006919540.1
CDS	1..2787
Translation	MSLPSRQTAIVNPPPPEYINTKKNGRLTNQLQYLQKVVLKALWKHSFSWPFQQPVDAMKLKLPDYYTIIKKPMDLSTIKKRLEHKYYVQASECIEDFNMMFSNCYLYNKTGDDIVLMAQALEKLFRQKLSQMPQEEQVVGGKERIKKGRANSTQQNVAVSSVKEKQSPKASEKVFKQQVISSLFPETSVSPLNMAHGAPFNCTSQTVTQVTRGVKRKADTTTPTTSVVKASGEYSPALTEKKSAKMPPVKETVLKNVLPDPQQQHKVVKSGKVTEQLRHCSEILKEMLAKKHFSYAWPFYNPVDVNALGLHNYYDIVKNPMDLGTIKRKMDNQEYKDAYEFAADVRLMFVNCYKYNPPDHEVVAMARMLQDVFEMHFAKIPDEPIENMPVRNIKTDTTKTLGRESSSEASSEDNSSGDSEDERVQRLAKLQEQLKAVHQQLQVLSQVPFHKLKKKNEKSKKEKKKEKFNNSDENPRKKFKQAKLKPKSNQPKKSIQQPFALKSEDDNVKPMNYDEKRQLSLDINKLPGDKLGRVVHIIQSREPSLRNSNPDEIEIDFETLKATTLRELEKYVAACLRKRPLKPQGKKITKSKEELHSQKKQELEKRLLDVNNQLNSRKRQTKPEKTQLSKAVGSGSRLSESSSSSSSSSESESSSSDSSSSDSSDSESEMLPKFTEVKQNDSPSKEKVKTQSSMQDTLSCSATLVHQTTHSSRTPPNHHQLAFNYQELEHLHSVKNISPSQILPPSGDSEQRLNGLTVMHQSGDDTVVLEPESQVLVQKDIKIKNADSWKSLGKPVKTSGVLKSSDELFNQFRKAAIEKEVKARTQELIRKHLEQNTKEPKVFQENQRDSGFTLESSSNKMQNKCLGEEQKEHQQSLEAQDKCKLWLLKDRNLAREKEQERRRREAMAGTIDMTLQSDIMTMFENNFD

Target ORF information:

RefSeq Version	XM_006919478.2
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto bromodomain testis associated (BRDT), mRNA.

Target ORF information:

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

XM_006919478.2

ORF Insert Sequence:

ATGTCTCTGC CAAGTAGACA AACAGCTATT GTTAACCCTC CACCACCAGA GTACATAAAT 
ACTAAGAAAA ATGGGCGATT GACAAATCAA CTACAGTATC TACAAAAAGT TGTTCTGAAG 
GCTTTATGGA AGCATAGTTT TTCCTGGCCT TTTCAGCAGC CTGTGGATGC AATGAAACTT 
AAATTGCCTG ATTATTATAC CATTATAAAA AAACCAATGG ATTTAAGTAC AATTAAGAAG 
CGCTTGGAAC ATAAATATTA TGTGCAGGCT TCAGAATGTA TAGAAGACTT CAATATGATG 
TTCTCAAATT GCTATTTATA CAACAAGACT GGAGATGACA TTGTTCTCAT GGCACAAGCT 
CTAGAGAAGT TGTTTAGGCA GAAATTATCT CAAATGCCAC AAGAAGAGCA AGTTGTGGGT 
GGTAAGGAAA GAATAAAGAA AGGCAGAGCA AACAGCACTC AACAGAATGT AGCAGTTTCT 
TCTGTTAAAG AAAAACAGTC CCCTAAAGCA TCAGAAAAAG TATTTAAGCA GCAAGTGATT 
TCCTCTTTAT TTCCTGAAAC ATCTGTTTCT CCTTTAAATA TGGCACATGG TGCTCCATTC 
AACTGTACCT CACAAACAGT TACCCAGGTT ACAAGGGGCG TGAAGAGGAA AGCAGATACA 
ACAACTCCTA CGACTTCAGT AGTTAAAGCA AGTGGTGAAT ATTCCCCAGC ACTTACAGAA 
AAAAAATCAG CAAAAATGCC ACCTGTAAAA GAAACTGTGC TGAAGAATGT TTTGCCGGAT 
CCTCAACAAC AACATAAAGT TGTAAAGAGT GGTAAAGTAA CTGAACAATT AAGGCACTGT 
AGTGAGATTC TTAAAGAAAT GCTTGCAAAG AAACACTTTT CATATGCATG GCCCTTTTAT 
AATCCTGTTG ATGTTAATGC ATTGGGACTC CATAACTACT ATGATATTGT GAAAAATCCA 
ATGGATCTTG GAACTATCAA GAGAAAAATG GACAACCAAG AATATAAGGA TGCATATGAA 
TTTGCTGCAG ATGTTAGATT AATGTTCGTG AATTGCTACA AATACAATCC TCCAGATCAT 
GAAGTAGTGG CAATGGCAAG AATGCTCCAG GATGTTTTTG AAATGCACTT TGCAAAGATC 
CCAGATGAAC CCATTGAGAA TATGCCTGTG CGTAATATCA AAACAGATAC CACAAAAACC 
CTTGGTAGAG AAAGCAGTAG TGAGGCTTCC TCTGAAGATA ACTCTTCTGG TGATTCTGAA 
GATGAACGAG TTCAGCGTCT TGCAAAGCTT CAGGAACAGC TTAAAGCTGT TCATCAACAA 
CTACAGGTTC TGTCCCAAGT ACCTTTTCAT AAGCTGAAGA AAAAGAATGA GAAGTCTAAA 
AAGGAAAAGA AAAAAGAAAA GTTTAATAAC AGTGATGAAA ATCCAAGAAA AAAGTTTAAG 
CAAGCAAAAT TAAAGCCCAA GAGCAATCAG CCAAAGAAGA GCATACAACA GCCCTTTGCT 
CTGAAATCTG AGGATGATAA TGTTAAACCT ATGAACTATG ATGAGAAAAG GCAGTTGAGT 
TTGGATATAA ACAAACTCCC TGGAGATAAA CTTGGGAGAG TTGTTCATAT AATACAATCA 
AGAGAGCCTT CACTGAGAAA TTCCAACCCT GATGAGATAG AGATAGACTT TGAAACACTG 
AAAGCAACAA CACTAAGAGA ACTAGAAAAA TATGTTGCTG CATGTCTAAG AAAAAGACCA 
CTAAAACCTC AGGGTAAGAA AATAACGAAG TCCAAAGAAG AACTTCATTC ACAGAAAAAA 
CAGGAGTTGG AAAAGCGGTT ACTGGATGTC AATAATCAGT TAAATTCCAG AAAACGTCAA 
ACAAAACCTG AGAAAACTCA GTTATCCAAG GCTGTTGGAA GTGGTTCCCG ATTGAGTGAA 
AGCAGCAGCA GCAGCAGTAG CTCATCAGAG TCTGAAAGTA GTAGCAGTGA TTCAAGTTCT 
TCAGACAGCA GTGATTCCGA ATCAGAAATG TTACCTAAAT TTACTGAAGT TAAACAGAAT 
GATTCTCCTT CTAAAGAGAA AGTAAAGACA CAGTCTTCTA TGCAAGATAC ACTCTCTTGT 
TCTGCTACCC TTGTTCATCA GACTACCCAT TCAAGTCGAA CACCACCAAA TCACCACCAA 
TTAGCATTTA ATTACCAAGA ATTAGAACAT TTACACAGTG TGAAAAACAT TTCACCTTCA 
CAAATCCTGC CTCCCTCAGG TGATTCTGAA CAACGCTTGA ATGGCCTAAC TGTGATGCAT 
CAGTCTGGTG ATGATACAGT GGTGTTAGAA CCTGAAAGTC AAGTTCTTGT GCAGAAGGAT 
ATAAAGATCA AGAATGCAGA CTCTTGGAAA AGTTTAGGCA AACCAGTCAA AACTTCAGGT 
GTATTGAAAT CCTCAGATGA GCTCTTCAAC CAATTTAGAA AAGCAGCAAT AGAAAAGGAA 
GTTAAAGCTC GAACACAAGA ACTAATACGG AAACATCTGG AACAGAATAC AAAGGAACCA 
AAAGTATTTC AAGAAAATCA GAGGGACTCT GGCTTCACTC TAGAATCTTC TTCAAATAAG 
ATGCAAAACA AGTGCCTTGG AGAGGAGCAG AAAGAACATC AACAGTCATT GGAAGCTCAA 
GACAAGTGTA AACTCTGGCT TCTCAAAGAC CGTAATTTAG CAAGGGAGAA AGAGCAAGAG 
CGGAGGAGGA GAGAAGCAAT GGCTGGTACC ATTGATATGA CTCTGCAAAG CGACATTATG 
ACAATGTTTG AAAACAACTT TGATTAA