Cap-D2 cDNA ORF clone, Drosophila melanogaster(fruit fly)

Gene
Clones
gRNAs

Summary

Gene Symbol	Cap-D2
Entrez Gene ID	43491
Full Name	CAP-D2 condensin subunit
Synonyms	CAP-D2,CG1911,CapD2,DmCAP-D2,Dmel\CG1911,dCap-D2
General protein information	Preferred Names CAP-D2 condensin subunit Names CG1911 gene product from transcript CG1911-RA CG1911-PA Cap-D2-PA dCap-D2
Gene Type	protein-coding
Organism	Drosophila melanogaster(fruit fly)
Genome	Chromosome: 3R Map Location: 99B7-99B7

mRNA and Protein(s)

mRNA	Protein	Name
NM_143452.3	NP_651709.1	CAP-D2 condensin subunit

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	NCAPD2	XP_001161664.1
Bos taurus (cattle)	NCAPD2	NP_001193640.1
Danio rerio (zebrafish)	ncapd2	NP_001155974.1
Magnaporthe oryzae (rice blast fungus)	MGG_03487	XP_003716436.1
	NCAPD2	XP_001105024.1
Oryza sativa (rice)	Os07g0659500	NP_001060526.1
Homo sapiens (human)	NCAPD2	NP_055680.3
Drosophila melanogaster (fruit fly)	CAP-D2	NP_651709.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP003434	XP_311720.5
Canis lupus familiaris (dog)	NCAPD2	XP_005637305.1
Mus musculus (house mouse)	Ncapd2	NP_666283.1
Rattus norvegicus (Norway rat)	Ncapd2	XP_575668.4
Gallus gallus (chicken)	NCAPD2	NP_001074331.1
Eremothecium gossypii	AGOS_AGR273C	NP_986939.2
Schizosaccharomyces pombe (fission yeast)	cnd1	NP_596329.1
Saccharomyces cerevisiae (baker's yeast)	YCS4	NP_013374.1
Kluyveromyces lactis	KLLA0F20119g	XP_455983.1
Neurospora crassa	NCU09297	XP_958443.1
Arabidopsis thaliana (thale cress)	AT3G57060	NP_191265.2
Xenopus tropicalis (tropical clawed frog)	ncapd2	XP_002941732.2

Gene Ontology
Bibliography

Related articles in PubMed

Gene Model Annotations for Drosophila melanogaster: Impact of High-Throughput Data.
Matthews BB, Dos Santos G, Crosby MA, Emmert DB, St Pierre SE, Gramates LS, Zhou P, Schroeder AJ, Falls K, Strelets V, Russo SM, Gelbart WM,
G3 (Bethesda, Md.)5(8)1721-36(2015 Jun)

Gene Model Annotations for Drosophila melanogaster: The Rule-Benders.
Crosby MA, Gramates LS, Dos Santos G, Matthews BB, St Pierre SE, Zhou P, Schroeder AJ, Falls K, Emmert DB, Russo SM, Gelbart WM,
G3 (Bethesda, Md.)5(8)1737-49(2015 Jun)

Sequence finishing and mapping of Drosophila melanogaster heterochromatin.
Hoskins RA, Carlson JW, Kennedy C, Acevedo D, Evans-Holm M, Frise E, Wan KH, Park S, Mendez-Lago M, Rossi F, Villasante A, Dimitri P, Karpen GH, Celniker SE
Science (New York, N.Y.)316(5831)1625-8(2007 Jun)

The Release 5.1 annotation of Drosophila melanogaster heterochromatin.
Smith CD, Shu S, Mungall CJ, Karpen GH
Science (New York, N.Y.)316(5831)1586-91(2007 Jun)

Combined evidence annotation of transposable elements in genome sequences.
Quesneville H, Bergman CM, Andrieu O, Autard D, Nouaud D, Ashburner M, Anxolabehere D
PLoS computational biology1(2)166-75(2005 Jul)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

CAP-D2 is essential for chromosome arm and centromere resolution.
Title: Drosophila CAP-D2 is required for condensin complex stability and resolution of sister chromatids.

The following Cap-D2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Cap-D2 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
OFa06519	NM_143452.3 Latest version!	Drosophila melanogaster CAP-D2 condensin subunit (Cap-D2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00

ORF Online Only Promotion

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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)

Cap-D2 ( NM_143452.3 ) cDNA ORF clone, Drosophila melanogaster(fruit fly) -> NP_651709.1 Drosophila melanogaster CAP-D2 condensin subunit (Cap-D2), mRNA.

Price & Availability↑

CloneID	OFa06519
Clone ID Related Accession (Same CDS sequence)	NM_143452.3
Accession Version	NM_143452.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4143bp) 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	2019-04-24
Organism	Drosophila melanogaster(fruit fly)
Product	CAP-D2 condensin subunit
Comment	Comment: REVIEWED REFSEQ: This record has been curated by FlyBase. This record is derived from an annotated genomic sequence (NT_033777). On Jul 15, 2014 this sequence version replaced NM_143452.2. ##Genome-Annotation-Data-START## Annotation Provider :: FlyBase Annotation Status :: Full annotation Annotation Version :: Release 6.26 URL :: http://flybase.org ##Genome-Annotation-Data-END##

ATGGAGGAAT CGCACGACTT CCAGTTCGTC CTTCCCCTGA ATGCATCTGA TCTGATCAAC 
TCCAGCGGAG ATCAGTATTA CGTGAAGGAG ATTTTTGGCG CCCAGGAGAT TCCCGCGAAA 
CTACAAGAAT GCAAGCGCAA AGTGCACTTG GGCGATCCTT TTTATATATT CGAGCACTTC 
GACTTGTATT ACTCGATCAT CGAGGCCCGC GGTTCAGATG GCGCCTCTGC ACAGAATCTA 
ATGAGGTCCT TTGACCTGCT CTACCTGACC GTGGAGAAAC TGTTCCAAGA CTTGCAGCCC 
CTGCTGACGG CCAGTGAGCC CATGTCTAAC CAGCAGCGCA ATAGTTACCT CAACCTGACC 
AAAATGACGC TGTTCCTCCA GGTGAGCACC GTCAAGAAGA TCAACAACAG TGTCCAGCAG 
GCCATGCGGG ATCAGCAGCT CAATGTTCAG AAGAAGCGTG CCAAGCCATC GGAGGGATTG 
GAGCAGTTTC CCAACTGGGA GGTTAAGCGC GGCAAGTTCT TGGTGCAGCT CTTCAACGTG 
CTGCAGTGCC CGCTGGAGAA GCTCTGGAGT CCGCCCGTAG CCGAGGAGGA CTTTATAAAT 
TTGCTCTGCG ACCCCTGCTA TCGAACAATC GAACTTTTGC CGCTTCGCAT GGACAACAAA 
CACGTATTCG ACACGATCTT CCAGATCTTG GGCACATCGA TCAAGCGCTT TAACCAGGCC 
ATGACCTTCC CGGTGCGCAT TCTGCAGATC CTACGCGGTA CCGAGCATGC AGCCCATTCA 
GTAGCAGCTG GAATTTTGCT TCTGCACGAG GAGTACGGAA TTTCTTCGGT CTTCTCCATT 
CTAATCAAGA GCATTGTGGA TGCTCTAAGG ATGGACAGTT CTGACTCTTC GGTGTCCAAA 
CACTTCTCCA ATTTCCTGGC CGAGTTCTCG AACATAGCAC CTTCGCTGAT CGTACCGCAC 
CTGGAAAAGC TGGCGGAAGA TTTACTAGAT TGTCAGTCTC ACACGCTGCG AAATTGTGTG 
CTCCAGATCA TCGGCGACAC CGTGGTTAGC GAACTGACCT CGGAGGATCT TAGCGAAGAA 
CTGAAGGAAG TACGCAATGA GTTCCTCGAG CACCTAATGG CCCACATCCT AGACATTTCT 
GCACACGTGC GCTCCAAGGT GCTCAGTATC TGGCATCACC TGAAAACCCA GCACGCCATT 
CCGCTTAACT TCCTGACCAG AGTGCTGGAG GAAGCCATCG GAAGGTTGGA AGACAAGAGC 
TCGCTGGTGC GGCGTGCCGC CATGCATCTG ATCAAATCCG CCCTGGAAAG CAATCCATAC 
AGCAGTAAGC TTTCCATAGA TGAACTCCGT GCCAAGCATG AACACGAGGT GCAGGCAATG 
GAGAAACTTA ATGAGGTACT CGAGGAAGAG CGCAAGCAGG AGGAGAAGCT CAACGACGAG 
TTTAGCAGCT TGGCGCCCGA ACTGCTGCCT TTCATAGAGG AGAACCTTAC GGAGTTTCCC 
GATATGCAGT TCGACAAGGA GGAGAGCGAC GAGACCTTGA TGGAGCGGAT CATTCCGCTG 
ATGCGCGAAA AGAACTACAA GGATGTTATT GTTCTAGTGC GAAAGGTAGA CTTTTTGGCG 
GGAAATCAGA ATATGAGTTC CTTACTGAAG CACGAGGAGC ATTGCGTGTA TGTGCTGGCC 
TTGCTAAAGA CATATCACCT GCTGGCTGCT GGATTTAAAC AGAGCAGCGA GGAAATGCTG 
CAGCAAATCA AAACGGTGCA GTTCCTAAAA GACAGCATTG ACTTTGCCGT CTTGATGACT 
TCAGCCTTCC CCAAACTGCA CGAGATGCTC ATGTCCAAGA CAAACACGGA TGTTTTTGAG 
GCGGTGGACT TGTTCACCAC CGGGTACATG TTCGGAATTC ACGGCACGGA GTCGGGAATG 
CAGAGAATGC TGCAACTGGT CTGGTCTTCG GACAAGGAGA AACGAGATGC AGTGTCGGAT 
GCCTACAAGC GCGTTCTGTT CTCCACGGAC CAAACGGGTC GCGCTCATGC CATTAAGGTG 
GTGCAGAACC TGTCGAAGTT TCTTTCGGAA ATCGAGTATG GTCACTACAC GGCCTTGGAG 
TCGCTGATGA CCGAGTGGGT GTTGGGTGGC GACATCGATG CTGCTGTCAT CCAGGTGCTC 
TTTGAGCGCT TCACGCTAAA ACTGGAGGGC ACTACATCCA ACGAATCTCG CCTGTCGCTC 
CAGCTCCTGA TAATGGCCTC GCAATCGAAG TCTAGTATTG TTTCGGCCAA CACTGCCATC 
ATCGAGGATA TCGCCGTCGG AGAGCGGGTG CGTCGGGATC CACGGATATT TACCTCCTGT 
CTGCAGCTGC TGGTCAACTC AATCGATGCA AACAACACTG CCAAGTATTA TAAGCGTCAG 
AACAGCGATG CAGAATTCGT GGGAAAGATC ACGCGGCTCT TCCTCGACTT CTTTTTCCAC 
AGAAGTCTAT ACGACTTCGA CGCACTGGCC ATGAGTGTTT TTGAATACTT CTATAGGATG 
TGCCAGGCGC CGGATGTGAT TGCGCAGCAA CTGGTGACGG CTTTACTCAA GCAATTCAAT 
GAGAGCTGGC TGGTCAAGGA AGCGGCTGCA ATAGTTCCCT CTCCAGACAA AGCGGATACG 
GAAACTGTTC CGGACTCGCA GCCCTTGGAG ATTCCGCATT CGCAGACCCT TACTCCCACT 
CAGACTCAAG CTGATAGCCA ATCGCAGATG CAAGGCACCT TGATTCCCGT GTATCTCGTC 
TCCCGCTTAA TCTTTTGCAT CGGCTACATG ACCATCAAGG AGATGATCTT TCTCGACATG 
GATATCTATA ATAACATGAA GTATCGCGAC GAGCTGACGG CTCTTGAAGA GCGTAAAAAC 
CGCAATCAGC AGGCGGGAAG TTCACATAAT GCGGCCAGAC TTACGCTTAA TATGTCAGCG 
ATGGAGGTGC GCAAGAGGCT GTCCGGAGTG GCAGCGGAAC CACAGCAGGA GCCAGACGAC 
GATCTGGTGG GAGCGACTGC AGAGGACAAC ATCGCCGAGG AAATCCACGG CATCTGCGAG 
GACATGCTGC TTTACAACCC GGATGCTCTG CTCTCCAAGC TGGCGCCATT TATCATAGAG 
ATTTGCAAGC GTCCAGGTGA GTTTGGTGAT CCCACGTTGC AACAGGCCGC TACTTTGGCT 
CTGGCCCGGC TCATGACCGT CTCCTCCCGT TTCTGCGAGT CCAACATGAG CTTTTTGATG 
AACATCCTCA ACCTAACGAA GAACATTCGA ATCAAGTGCA ACACGGTGGT GGGGCTGTCG 
GATCTCACTT TCCGTTTCCC AAACATCATC GAGCCGTGGA CGGGGCACTT CTACGCTCAG 
CTGCACGAAT CGAACACCGA GTTAAGGCTA ACTGCCGTCA AAATGCTATC TCATCTGATC 
CTCAACGAGA TGATACGCGT CAAGGGTCAA ATCGCCGACA TGGCACTTTG CATTGTGGAC 
GGCAACGAGG AGATTCGCAA TATCACCAAG CAGTTCTTCA AGGAGATAGC CAACAAGTCG 
AACATTCTGT ACAACGTCCT GCCAGATATC ATCTCCCGTT TGGGGGACAT AAACCTCAAC 
CTGGATGAGG ACAAGTACCG CATTATCATG TCCTATATCC TGGGTCTCAT CCAGAAGGAT 
CGCCAGATTG AGACGCTAGT GGAGAAGCTG TGTCTGCGCT TCCCGGTAAC GCGGGTGGAG 
CGTCAATGGC GCGACATCGC CTACTGCCTC GGCCTGCTCA CCTACAACGA GCGAGCTGTG 
AAGAAGCTAA TGGACAATAT GCAGCACTAC AGGGACAAGG TCCAGGTGGA CGAGGTTTAT 
CAGTCCTTCA AGCTCATCAT TAGCAACACC AACAAGTTGG CCAAGCCGGA GCTCAAAGCT 
GTAGTCACCG AGTTCGAGAA CCGACTGAAC GAGTGCCTGC AAGTCAACCC GGATACCGCT 
GCCCAGGGTG ATCAAGAAAG CACTCCAGAA GGTCAGGGCA ACAGAACCAG AGCGGCGCCA 
AGGACAAAGA AGGGTGGTCG CAAGCCGGCG GCCAACAGGA ACAATACTGT GCGAGGACGC 
GGAAGACGTG CTCGCCGGGA TTCCACCTCA GAAGAGAGCT TCAGTTCCAG CAGCAGCGAC 
TAG

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

RefSeq	NP_651709.1
CDS	80..4222
Translation	MEESHDFQFVLPLNASDLINSSGDQYYVKEIFGAQEIPAKLQECKRKVHLGDPFYIFEHFDLYYSIIEARGSDGASAQNLMRSFDLLYLTVEKLFQDLQPLLTASEPMSNQQRNSYLNLTKMTLFLQVSTVKKINNSVQQAMRDQQLNVQKKRAKPSEGLEQFPNWEVKRGKFLVQLFNVLQCPLEKLWSPPVAEEDFINLLCDPCYRTIELLPLRMDNKHVFDTIFQILGTSIKRFNQAMTFPVRILQILRGTEHAAHSVAAGILLLHEEYGISSVFSILIKSIVDALRMDSSDSSVSKHFSNFLAEFSNIAPSLIVPHLEKLAEDLLDCQSHTLRNCVLQIIGDTVVSELTSEDLSEELKEVRNEFLEHLMAHILDISAHVRSKVLSIWHHLKTQHAIPLNFLTRVLEEAIGRLEDKSSLVRRAAMHLIKSALESNPYSSKLSIDELRAKHEHEVQAMEKLNEVLEEERKQEEKLNDEFSSLAPELLPFIEENLTEFPDMQFDKEESDETLMERIIPLMREKNYKDVIVLVRKVDFLAGNQNMSSLLKHEEHCVYVLALLKTYHLLAAGFKQSSEEMLQQIKTVQFLKDSIDFAVLMTSAFPKLHEMLMSKTNTDVFEAVDLFTTGYMFGIHGTESGMQRMLQLVWSSDKEKRDAVSDAYKRVLFSTDQTGRAHAIKVVQNLSKFLSEIEYGHYTALESLMTEWVLGGDIDAAVIQVLFERFTLKLEGTTSNESRLSLQLLIMASQSKSSIVSANTAIIEDIAVGERVRRDPRIFTSCLQLLVNSIDANNTAKYYKRQNSDAEFVGKITRLFLDFFFHRSLYDFDALAMSVFEYFYRMCQAPDVIAQQLVTALLKQFNESWLVKEAAAIVPSPDKADTETVPDSQPLEIPHSQTLTPTQTQADSQSQMQGTLIPVYLVSRLIFCIGYMTIKEMIFLDMDIYNNMKYRDELTALEERKNRNQQAGSSHNAARLTLNMSAMEVRKRLSGVAAEPQQEPDDDLVGATAEDNIAEEIHGICEDMLLYNPDALLSKLAPFIIEICKRPGEFGDPTLQQAATLALARLMTVSSRFCESNMSFLMNILNLTKNIRIKCNTVVGLSDLTFRFPNIIEPWTGHFYAQLHESNTELRLTAVKMLSHLILNEMIRVKGQIADMALCIVDGNEEIRNITKQFFKEIANKSNILYNVLPDIISRLGDINLNLDEDKYRIIMSYILGLIQKDRQIETLVEKLCLRFPVTRVERQWRDIAYCLGLLTYNERAVKKLMDNMQHYRDKVQVDEVYQSFKLIISNTNKLAKPELKAVVTEFENRLNECLQVNPDTAAQGDQESTPEGQGNRTRAAPRTKKGGRKPAANRNNTVRGRGRRARRDSTSEESFSSSSSD

Target ORF information:

RefSeq Version	NM_143452.3
Organism	Drosophila melanogaster(fruit fly)
Definition	Drosophila melanogaster CAP-D2 condensin subunit (Cap-D2), mRNA.

Target ORF information:

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

NM_143452.3

ORF Insert Sequence:

ATGGAGGAAT CGCACGACTT CCAGTTCGTC CTTCCCCTGA ATGCATCTGA TCTGATCAAC 
TCCAGCGGAG ATCAGTATTA CGTGAAGGAG ATTTTTGGCG CCCAGGAGAT TCCCGCGAAA 
CTACAAGAAT GCAAGCGCAA AGTGCACTTG GGCGATCCTT TTTATATATT CGAGCACTTC 
GACTTGTATT ACTCGATCAT CGAGGCCCGC GGTTCAGATG GCGCCTCTGC ACAGAATCTA 
ATGAGGTCCT TTGACCTGCT CTACCTGACC GTGGAGAAAC TGTTCCAAGA CTTGCAGCCC 
CTGCTGACGG CCAGTGAGCC CATGTCTAAC CAGCAGCGCA ATAGTTACCT CAACCTGACC 
AAAATGACGC TGTTCCTCCA GGTGAGCACC GTCAAGAAGA TCAACAACAG TGTCCAGCAG 
GCCATGCGGG ATCAGCAGCT CAATGTTCAG AAGAAGCGTG CCAAGCCATC GGAGGGATTG 
GAGCAGTTTC CCAACTGGGA GGTTAAGCGC GGCAAGTTCT TGGTGCAGCT CTTCAACGTG 
CTGCAGTGCC CGCTGGAGAA GCTCTGGAGT CCGCCCGTAG CCGAGGAGGA CTTTATAAAT 
TTGCTCTGCG ACCCCTGCTA TCGAACAATC GAACTTTTGC CGCTTCGCAT GGACAACAAA 
CACGTATTCG ACACGATCTT CCAGATCTTG GGCACATCGA TCAAGCGCTT TAACCAGGCC 
ATGACCTTCC CGGTGCGCAT TCTGCAGATC CTACGCGGTA CCGAGCATGC AGCCCATTCA 
GTAGCAGCTG GAATTTTGCT TCTGCACGAG GAGTACGGAA TTTCTTCGGT CTTCTCCATT 
CTAATCAAGA GCATTGTGGA TGCTCTAAGG ATGGACAGTT CTGACTCTTC GGTGTCCAAA 
CACTTCTCCA ATTTCCTGGC CGAGTTCTCG AACATAGCAC CTTCGCTGAT CGTACCGCAC 
CTGGAAAAGC TGGCGGAAGA TTTACTAGAT TGTCAGTCTC ACACGCTGCG AAATTGTGTG 
CTCCAGATCA TCGGCGACAC CGTGGTTAGC GAACTGACCT CGGAGGATCT TAGCGAAGAA 
CTGAAGGAAG TACGCAATGA GTTCCTCGAG CACCTAATGG CCCACATCCT AGACATTTCT 
GCACACGTGC GCTCCAAGGT GCTCAGTATC TGGCATCACC TGAAAACCCA GCACGCCATT 
CCGCTTAACT TCCTGACCAG AGTGCTGGAG GAAGCCATCG GAAGGTTGGA AGACAAGAGC 
TCGCTGGTGC GGCGTGCCGC CATGCATCTG ATCAAATCCG CCCTGGAAAG CAATCCATAC 
AGCAGTAAGC TTTCCATAGA TGAACTCCGT GCCAAGCATG AACACGAGGT GCAGGCAATG 
GAGAAACTTA ATGAGGTACT CGAGGAAGAG CGCAAGCAGG AGGAGAAGCT CAACGACGAG 
TTTAGCAGCT TGGCGCCCGA ACTGCTGCCT TTCATAGAGG AGAACCTTAC GGAGTTTCCC 
GATATGCAGT TCGACAAGGA GGAGAGCGAC GAGACCTTGA TGGAGCGGAT CATTCCGCTG 
ATGCGCGAAA AGAACTACAA GGATGTTATT GTTCTAGTGC GAAAGGTAGA CTTTTTGGCG 
GGAAATCAGA ATATGAGTTC CTTACTGAAG CACGAGGAGC ATTGCGTGTA TGTGCTGGCC 
TTGCTAAAGA CATATCACCT GCTGGCTGCT GGATTTAAAC AGAGCAGCGA GGAAATGCTG 
CAGCAAATCA AAACGGTGCA GTTCCTAAAA GACAGCATTG ACTTTGCCGT CTTGATGACT 
TCAGCCTTCC CCAAACTGCA CGAGATGCTC ATGTCCAAGA CAAACACGGA TGTTTTTGAG 
GCGGTGGACT TGTTCACCAC CGGGTACATG TTCGGAATTC ACGGCACGGA GTCGGGAATG 
CAGAGAATGC TGCAACTGGT CTGGTCTTCG GACAAGGAGA AACGAGATGC AGTGTCGGAT 
GCCTACAAGC GCGTTCTGTT CTCCACGGAC CAAACGGGTC GCGCTCATGC CATTAAGGTG 
GTGCAGAACC TGTCGAAGTT TCTTTCGGAA ATCGAGTATG GTCACTACAC GGCCTTGGAG 
TCGCTGATGA CCGAGTGGGT GTTGGGTGGC GACATCGATG CTGCTGTCAT CCAGGTGCTC 
TTTGAGCGCT TCACGCTAAA ACTGGAGGGC ACTACATCCA ACGAATCTCG CCTGTCGCTC 
CAGCTCCTGA TAATGGCCTC GCAATCGAAG TCTAGTATTG TTTCGGCCAA CACTGCCATC 
ATCGAGGATA TCGCCGTCGG AGAGCGGGTG CGTCGGGATC CACGGATATT TACCTCCTGT 
CTGCAGCTGC TGGTCAACTC AATCGATGCA AACAACACTG CCAAGTATTA TAAGCGTCAG 
AACAGCGATG CAGAATTCGT GGGAAAGATC ACGCGGCTCT TCCTCGACTT CTTTTTCCAC 
AGAAGTCTAT ACGACTTCGA CGCACTGGCC ATGAGTGTTT TTGAATACTT CTATAGGATG 
TGCCAGGCGC CGGATGTGAT TGCGCAGCAA CTGGTGACGG CTTTACTCAA GCAATTCAAT 
GAGAGCTGGC TGGTCAAGGA AGCGGCTGCA ATAGTTCCCT CTCCAGACAA AGCGGATACG 
GAAACTGTTC CGGACTCGCA GCCCTTGGAG ATTCCGCATT CGCAGACCCT TACTCCCACT 
CAGACTCAAG CTGATAGCCA ATCGCAGATG CAAGGCACCT TGATTCCCGT GTATCTCGTC 
TCCCGCTTAA TCTTTTGCAT CGGCTACATG ACCATCAAGG AGATGATCTT TCTCGACATG 
GATATCTATA ATAACATGAA GTATCGCGAC GAGCTGACGG CTCTTGAAGA GCGTAAAAAC 
CGCAATCAGC AGGCGGGAAG TTCACATAAT GCGGCCAGAC TTACGCTTAA TATGTCAGCG 
ATGGAGGTGC GCAAGAGGCT GTCCGGAGTG GCAGCGGAAC CACAGCAGGA GCCAGACGAC 
GATCTGGTGG GAGCGACTGC AGAGGACAAC ATCGCCGAGG AAATCCACGG CATCTGCGAG 
GACATGCTGC TTTACAACCC GGATGCTCTG CTCTCCAAGC TGGCGCCATT TATCATAGAG 
ATTTGCAAGC GTCCAGGTGA GTTTGGTGAT CCCACGTTGC AACAGGCCGC TACTTTGGCT 
CTGGCCCGGC TCATGACCGT CTCCTCCCGT TTCTGCGAGT CCAACATGAG CTTTTTGATG 
AACATCCTCA ACCTAACGAA GAACATTCGA ATCAAGTGCA ACACGGTGGT GGGGCTGTCG 
GATCTCACTT TCCGTTTCCC AAACATCATC GAGCCGTGGA CGGGGCACTT CTACGCTCAG 
CTGCACGAAT CGAACACCGA GTTAAGGCTA ACTGCCGTCA AAATGCTATC TCATCTGATC 
CTCAACGAGA TGATACGCGT CAAGGGTCAA ATCGCCGACA TGGCACTTTG CATTGTGGAC 
GGCAACGAGG AGATTCGCAA TATCACCAAG CAGTTCTTCA AGGAGATAGC CAACAAGTCG 
AACATTCTGT ACAACGTCCT GCCAGATATC ATCTCCCGTT TGGGGGACAT AAACCTCAAC 
CTGGATGAGG ACAAGTACCG CATTATCATG TCCTATATCC TGGGTCTCAT CCAGAAGGAT 
CGCCAGATTG AGACGCTAGT GGAGAAGCTG TGTCTGCGCT TCCCGGTAAC GCGGGTGGAG 
CGTCAATGGC GCGACATCGC CTACTGCCTC GGCCTGCTCA CCTACAACGA GCGAGCTGTG 
AAGAAGCTAA TGGACAATAT GCAGCACTAC AGGGACAAGG TCCAGGTGGA CGAGGTTTAT 
CAGTCCTTCA AGCTCATCAT TAGCAACACC AACAAGTTGG CCAAGCCGGA GCTCAAAGCT 
GTAGTCACCG AGTTCGAGAA CCGACTGAAC GAGTGCCTGC AAGTCAACCC GGATACCGCT 
GCCCAGGGTG ATCAAGAAAG CACTCCAGAA GGTCAGGGCA ACAGAACCAG AGCGGCGCCA 
AGGACAAAGA AGGGTGGTCG CAAGCCGGCG GCCAACAGGA ACAATACTGT GCGAGGACGC 
GGAAGACGTG CTCGCCGGGA TTCCACCTCA GAAGAGAGCT TCAGTTCCAG CAGCAGCGAC 
TAG

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

PubMed

Gene Model Annotations for Drosophila melanogaster: Impact of High-Throughput Data.
G3 (Bethesda, Md.)5(8)1721-36(2015 Jun)
Matthews BB,Dos Santos G,Crosby MA,Emmert DB,St Pierre SE,Gramates LS,Zhou P,Schroeder AJ,Falls K,Strelets V,Russo SM,Gelbart WM,

Gene Model Annotations for Drosophila melanogaster: The Rule-Benders.
G3 (Bethesda, Md.)5(8)1737-49(2015 Jun)
Crosby MA,Gramates LS,Dos Santos G,Matthews BB,St Pierre SE,Zhou P,Schroeder AJ,Falls K,Emmert DB,Russo SM,Gelbart WM,

Sequence finishing and mapping of Drosophila melanogaster heterochromatin.
Science (New York, N.Y.)316(5831)1625-8(2007 Jun)
Hoskins RA,Carlson JW,Kennedy C,Acevedo D,Evans-Holm M,Frise E,Wan KH,Park S,Mendez-Lago M,Rossi F,Villasante A,Dimitri P,Karpen GH,Celniker SE

The Release 5.1 annotation of Drosophila melanogaster heterochromatin.
Science (New York, N.Y.)316(5831)1586-91(2007 Jun)
Smith CD,Shu S,Mungall CJ,Karpen GH

Combined evidence annotation of transposable elements in genome sequences.
PLoS computational biology1(2)166-75(2005 Jul)
Quesneville H,Bergman CM,Andrieu O,Autard D,Nouaud D,Ashburner M,Anxolabehere D

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Cap-D2 cDNA ORF clone, Drosophila melanogaster(fruit fly)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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