Dana\GF22528 cDNA ORF clone, Drosophila ananassae

Gene
Clones
gRNAs

Summary

Gene Symbol	Dana\GF22528
Entrez Gene ID	6505186
Full Name	GF22528 gene product from transcript GF22528-RA
Synonyms	GF22528,dana_GLEANR_6490
Gene Type	protein-coding
Organism	Drosophila ananassae

mRNA and Protein(s)

mRNA	Protein	Name
XM_001965465.2	XP_001965501.2	uncharacterized protein

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Assembly reconciliation.
Zimin AV, Smith DR, Sutton G, Yorke JA
Bioinformatics (Oxford, England)24(1)42-5(2008 Jan)

Evolution of genes and genomes on the Drosophila phylogeny.
, Clark AG, Eisen MB, Smith DR, Bergman CM, Oliver B, Markow TA, Kaufman TC, Kellis M, Gelbart W, Iyer VN, Pollard DA, Sackton TB, Larracuente AM, Singh ND, Abad JP, Abt DN, Adryan B, Aguade M, Akashi H, Anderson WW, Aquadro CF, Ardell DH, Arguello R, Artieri CG, Barbash DA, Barker D, Barsanti P, Batterham P, Batzoglou S, Begun D, Bhutkar A, Blanco E, Bosak SA, Bradley RK, Brand AD, Brent MR, Brooks AN, Brown RH, Butlin RK, Caggese C, Calvi BR, Bernardo de Carvalho A, Caspi A, Castrezana S, Celniker SE, Chang JL, Chapple C, Chatterji S, Chinwalla A, Civetta A, Clifton SW, Comeron JM, Costello JC, Coyne JA, Daub J, David RG, Delcher AL, Delehaunty K, Do CB, Ebling H, Edwards K, Eickbush T, Evans JD, Filipski A, Findeiss S, Freyhult E, Fulton L, Fulton R, Garcia AC, Gardiner A, Garfield DA, Garvin BE, Gibson G, Gilbert D, Gnerre S, Godfrey J, Good R, Gotea V, Gravely B, Greenberg AJ, Griffiths-Jones S, Gross S, Guigo R, Gustafson EA, Haerty W, Hahn MW, Halligan DL, Halpern AL, Halter GM, Han MV, Heger A, Hillier L, Hinrichs AS, Holmes I, Hoskins RA, Hubisz MJ, Hultmark D, Huntley MA, Jaffe DB, Jagadeeshan S, Jeck WR, Johnson J, Jones CD, Jordan WC, Karpen GH, Kataoka E, Keightley PD, Kheradpour P, Kirkness EF, Koerich LB, Kristiansen K, Kudrna D, Kulathinal RJ, Kumar S, Kwok R, Lander E, Langley CH, Lapoint R, Lazzaro BP, Lee SJ, Levesque L, Li R, Lin CF, Lin MF, Lindblad-Toh K, Llopart A, Long M, Low L, Lozovsky E, Lu J, Luo M, Machado CA, Makalowski W, Marzo M, Matsuda M, Matzkin L, McAllister B, McBride CS, McKernan B, McKernan K, Mendez-Lago M, Minx P, Mollenhauer MU, Montooth K, Mount SM, Mu X, Myers E, Negre B, Newfeld S, Nielsen R, Noor MA, O'Grady P, Pachter L, Papaceit M, Parisi MJ, Parisi M, Parts L, Pedersen JS, Pesole G, Phillippy AM, Ponting CP, Pop M, Porcelli D, Powell JR, Prohaska S, Pruitt K, Puig M, Quesneville H, Ram KR, Rand D, Rasmussen MD, Reed LK, Reenan R, Reily A, Remington KA, Rieger TT, Ritchie MG, Robin C, Rogers YH, Rohde C, Rozas J, Rubenfield MJ, Ruiz A, Russo S, Salzberg SL, Sanchez-Gracia A, Saranga DJ, Sato H, Schaeffer SW, Schatz MC, Schlenke T, Schwartz R, Segarra C, Singh RS, Sirot L, Sirota M, Sisneros NB, Smith CD, Smith TF, Spieth J, Stage DE, Stark A, Stephan W, Strausberg RL, Strempel S, Sturgill D, Sutton G, Sutton GG, Tao W, Teichmann S, Tobari YN, Tomimura Y, Tsolas JM, Valente VL, Venter E, Venter JC, Vicario S, Vieira FG, Vilella AJ, Villasante A, Walenz B, Wang J, Wasserman M, Watts T, Wilson D, Wilson RK, Wing RA, Wolfner MF, Wong A, Wong GK, Wu CI, Wu G, Yamamoto D, Yang HP, Yang SP, Yorke JA, Yoshida K, Zdobnov E, Zhang P, Zhang Y, Zimin AV, Baldwin J, Abdouelleil A, Abdulkadir J, Abebe A, Abera B, Abreu J, Acer SC, Aftuck L, Alexander A, An P, Anderson E, Anderson S, Arachi H, Azer M, Bachantsang P, Barry A, Bayul T, Berlin A, Bessette D, Bloom T, Blye J, Boguslavskiy L, Bonnet C, Boukhgalter B, Bourzgui I, Brown A, Cahill P, Channer S, Cheshatsang Y, Chuda L, Citroen M, Collymore A, Cooke P, Costello M, D'Aco K, Daza R, De Haan G, DeGray S, DeMaso C, Dhargay N, Dooley K, Dooley E, Doricent M, Dorje P, Dorjee K, Dupes A, Elong R, Falk J, Farina A, Faro S, Ferguson D, Fisher S, Foley CD, Franke A, Friedrich D, Gadbois L, Gearin G, Gearin CR, Giannoukos G, Goode T, Graham J, Grandbois E, Grewal S, Gyaltsen K, Hafez N, Hagos B, Hall J, Henson C, Hollinger A, Honan T, Huard MD, Hughes L, Hurhula B, Husby ME, Kamat A, Kanga B, Kashin S, Khazanovich D, Kisner P, Lance K, Lara M, Lee W, Lennon N, Letendre F, LeVine R, Lipovsky A, Liu X, Liu J, Liu S, Lokyitsang T, Lokyitsang Y, Lubonja R, Lui A, MacDonald P, Magnisalis V, Maru K, Matthews C, McCusker W, McDonough S, Mehta T, Meldrim J, Meneus L, Mihai O, Mihalev A, Mihova T, Mittelman R, Mlenga V, Montmayeur A, Mulrain L, Navidi A, Naylor J, Negash T, Nguyen T, Nguyen N, Nicol R, Norbu C, Norbu N, Novod N, O'Neill B, Osman S, Markiewicz E, Oyono OL, Patti C, Phunkhang P, Pierre F, Priest M, Raghuraman S, Rege F, Reyes R, Rise C, Rogov P, Ross K, Ryan E, Settipalli S, Shea T, Sherpa N, Shi L, Shih D, Sparrow T, Spaulding J, Stalker J, Stange-Thomann N, Stavropoulos S, Stone C, Strader C, Tesfaye S, Thomson T, Thoulutsang Y, Thoulutsang D, Topham K, Topping I, Tsamla T, Vassiliev H, Vo A, Wangchuk T, Wangdi T, Weiand M, Wilkinson J, Wilson A, Yadav S, Young G, Yu Q, Zembek L, Zhong D, Zimmer A, Zwirko Z, Jaffe DB, Alvarez P, Brockman W, Butler J, Chin C, Gnerre S, Grabherr M, Kleber M, Mauceli E, MacCallum I
Nature450(7167)203-18(2007 Nov)

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

The following Dana\GF22528 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Dana\GF22528 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
ODh16222	XM_001965465.2 Latest version!	Drosophila ananassae uncharacterized protein (Dana\GF22528), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	29-31	$1301.30 $1859.00

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)

Dana\GF22528 ( XM_001965465.2 ) cDNA ORF clone, Drosophila ananassae -> XP_001965501.2 Drosophila ananassae uncharacterized protein (Dana\GF22528), mRNA.

Price & Availability↑

CloneID	ODh16222
Clone ID Related Accession (Same CDS sequence)	XM_001965465.2
Accession Version	XM_001965465.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 7323bp) 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	1450108800000
Organism	Drosophila ananassae
Product	uncharacterized protein
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_001939300). On Dec 16, 2015 this sequence version replaced XM_001965465.1. ##Genome-Annotation-Data-START## Annotation Provider :: FlyBase Annotation Status :: Full annotation Annotation Version :: Release 1.04 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline URL :: http://flybase.org ##Genome-Annotation-Data-END##

ATGACCCCCT TCCCGCCCCG CCCCACTCCA GTGCCAGTGG CCTGCCAGTT TGCCGAAAAA 
TTACGGTCAG TGGTAGCTAT GGAGGATTCC ACTGCGGCAC CACCACCACT CGGTCTCACT 
TTGTCGGTGG ATGGTGGTGG GGGTGGAGCT GTTCCTCCCC CCATCGTTTC AACCGCGGCC 
CCCCGCACTA CAACAACAAC AGGCGTTGCA TCACGTGGCC GTGGGCGGGG ACGACCGCCC 
AAGGTAGCCC CACAGCCATC TGCTCCGTCA CCAGCACCGA CTAGAGCCTC CCCACTGCCC 
AGTGCTGCTG TTACGTCGCC CCCCTCGCCA TCCTCGCTGG AGGACGGAGA TTCGACGTGC 
CGGCGCAGCT CCCGGAAGAA AATCATCAAG TTCGATGTTA GGGATCTGTT GAACAAGAAC 
CGGAAAGCGC ACAAAATCCA AATCGAAGCT CGGATTGATT CCAATACCAG CTGCCCCCCA 
AATCCAAATC CGATGGCCGC CAGTCCATCT GGGACGACGC CGCCGGTCAA TCGGGTCTTC 
TCCATGTTCG AGAATAGCAA GGTGATGCCA CCGAAGCCGC CGCCCACTGC CCTGGAGCTG 
TTCGCCAAGC CCCGACCCAC CCAGAGCCTG ATCGTCGCCC AGGTGACCAG CGAACCGAGC 
ACCACTGCCG CCACTTCGGT GGCCCCCACT CCGCCGGTGC GGAAGCGAGG ACGACCCCGG 
AAGATCCAGC CAACAGCCGA GCAACAGGCA CCCATGCCGA TAACCTCCGA CTCGGATACC 
ACCACCTCCA CGGGCAGTGG AGGCGACAGT GGTGACGTGG TGGCTGCCGC CCTCGATCCC 
GCCAAGCGGA AGCCCAAGTC CAAGCTGCGG GTGTCTCTCA AGCGGCTGAA CATGTGCCGG 
CGGCAGGAGT CCACCGATTC CGGGGAGATG CCTCTGAACA TTCGAATGCT GGGAGCCGGA 
GGCAACTCCT CCTCCTCCTC GCCGTCTCTG TCGGCGCCCA TGATCCAGGA CGAGAATGCC 
ATGGACGAGC AGCCGAAGCC CATGGCCAAG GATCCAGTCA CTTCTGTTAT TTCCGTTCCG 
GATGAGAACA CCGACTCCGA CTCCCAGATC ATATTCATCG AGATCGAGAC GGAGGGCAAG 
GACGACGACA CGGGGATCGA TGGAGGCGAC GGCCAGGAGA TCCAGGTACT GATGCCGAGG 
TCGGGAGCCG ACCACGACTC CGATGACATG ATGGTGGAGG TGCTGAGTGG CCCGCCCAGT 
CTCTGGTCGG CCGACGACGA GGCCGAGGAT GAGGAGGAGG TGGCCCGGAG AGCCGCTCCC 
GAGCCCGAGG AGACCGAGTC CTTGTCGGCA GCACCGCGCC GCAGTCGCCG GTCCGTTCGG 
GGCGGGAGCA GCAACAGCCA CCAGGGCAAG ACCCTGGAGG AGACCTTTGC CGAGATAGCC 
GCCGAGAGCA GCAAGCAGAT CCTGGAGCAG GAACAGGAGC AGGAGCAGGA GGAGCATCTG 
CTGATCGATC TCATCGAGGA CAGCCAGAGC CAGCCGGGAG CCAGTGGCGC TGAAAAGGAT 
TTGGTGAAGG CGGGCTCGGC ACTGCACAAG GCTCTTAACA GTCTGGAGCC TCTGGACAAG 
GATCTCCCGG AGGGCACATC GAATATCGTG GTCATGATGA AGAAGCTGGA TCCCACTCAG 
TACAGCCTAA AGACCAGTCC AAAGGTGCTG ATCGAGGAGA TGGCGCCGGA GCTGATGGCG 
AAGAAGGAGC TGGAGGGGGA GAAGGAGCAG GAGAAGGCTA AGGAGCAAGT GCCAGAGCCG 
GAGGAGGTAA AGGAGACAGA GACAGAGCCA GAGCCGGAGA AGCCGCCTTC CTCAGAGCCG 
GAGCAAGAGA CAGTACCAGC AGAAGCTACT CCCGCAGAGC CAGAACCAGA AGCCACCAGA 
ACCACTCCCA ACCAGACCAC CTCAGCTGAA GCAACAAAGT CCACGACCGA GACAGAAGAG 
GCGAAGACGG AGACTGCCGA GACATCTCCC GACGATGACA CCACCCGACT GGAGGCTAAA 
CAATCCGAGG AGCCAGCTCG GGATCAGGTG GCGGGGCGGC CAGGTCCATC CGACACCGAG 
GTGAGTGCCG GAGAAGTGCC GCTCGGCGAT CGGGTTGCAG CGGCGATCTC CGAGAAGTCA 
CCAGAGAAGG TGGAGGCCAA GGCGGAGGCG GCGGAGGGCA CTGAGGTGGA GGTGGAAAGC 
AAGCTCGTCG AGACGGAGGC GGAGACGGAG ACGGAAGCGA AGACTGATCA CATCACTTTG 
AAGACTGAGC CGGCAAAGAG CGAAGAGAGG CCGGAAGAAT CAGACCCACA ACCACAACCA 
GAACCACAAC CACAACCAGA ACCAGAACCA GGAAAGCTCA AATCCCTGCC ACAGAAGAAG 
GAGGCGACCA AGATGCCCAC AGATTCCAGA AAGTCTTCCA GGAAAGACAA CGAACTATCG 
AAATCTTCCA GCACAGAAGA CAGCGAACCG GGAAAGTCCA GCCGAAAGGG GGACAAGGAG 
GAGAAGAGTT CCAAGGACTC CACGAAAAGG GAGAAGCTCA AGGACTCCTC CCGCAAGAAC 
TCCCTCTCCA AGAAGGATTC CGACTCGGAG AAGACTCCCC CGGAGCGCAT TTCTTCCGTA 
GAATCGACTG CCAAGAAAGA GGTTTCTGCC TCTTCGGAGA AATCCAAATC TCAGCCAGAA 
TCGGAGGCTT CCGAGGAGAG TCTGAAGAAG CCATCTTCCA GCCAGGAAGC CTCAAAGGCC 
AAGGAGAAGT CCTCCGCCAC CGTTTTTGTG GAGTGCGATG CCATGTTCAA GGCCATGGAC 
AAGGCCAATG CCCAGCTGCG TCTGGAGGAG AAGAGCAAGA AGAAGCTCAA GAAGGTAGCT 
CCACCACCGC CCCAGCCCCA GCCGCAGTCC CAGCCCCAGA CCCACACCAA GGCGACCAAG 
TCCTCCTCCG CATCCACCAC GCCAGCCCCG TCGAAGAAGT CCCACACTAA GGGCTTGTCC 
AAGTTCCGGA GGAACACCAT GTTCGAGGAC GCCGATGCCC TGTGGAGTCC CAGCTCGCCC 
GCCGACTCCG ACTCCAGCCG GGTCGCCACG CCCAAGCCGA AGAAGTCCCG GCCGAAGAAG 
AAGCCCGCCG GGTCGCGGCG CAGCACGATC TCGGAGGAGG CCAAGCACCT GGGCGCCAGG 
GGCACTCCCA GCGTGGACCT GACCGGCGGC TCCTCGCCCA TCTCCACCTC CTCGGATGCC 
AGCTCCAAGA AGGCCCGTTC CAAGCGCTCC ACCCCGGAAC TGGTCCCGGC TACGGGTCTT 
AGCAAGCTGG AGCTGCGCCG GAACACCATC TGCGAGGACC GCCACCCGGT GGAGAAGCCC 
AAGGCGGCAG TGCCTCTCAC CAAGCGACGG TACTCGGTGC ATCCCAAGGC CTCGGCCAGC 
CCCCAGCCCC AGGAGGCGGG CAAGTCGGCG GCCGCCAAGA AGAAGCCCCG GAAGACGCCC 
AAGGGCGCCA TGAGTCGCCA GAACTCGCTG GACTCCAGTT CGAGTGCCTC GCTGGCCGGA 
GGAGCCACCG CCACTGCCGC CAAGAGGAAG GCCCAGAAGT CCACGGAGGC CCTCCATGCG 
GCTCTCACCG AAACCGAGTC CTCGGAGTCC ACGTCCTCCG GCAGCAAGAT GCGGCGCTGC 
GACGTCCAGA TCTCCCCGGA ACTGGAGGCG CCCGATCCCC TCAAGGACAT CGCCAAGTTC 
ATCGAGGACG GCGTGAATCT CCTCAAGCGG GACTACAAGC TGGACGAGGA CCAGAAGGAG 
GAGCAGCCGG GCGAGCCGAC CAAGGTGGAG CCGCCCCAGC AGGACAACCA GGAGGACGAG 
TTCGCCCAGC GAGTGGCCAA CATAGAGACG CCGGCCACCA CGCCCTCACC CTCGCCCACG 
GAGGAGTCAT CCTCCACCTC CGCCTCTGGG ACGCAGCTCC AGGAGGGGAA TGGCGGCGTG 
AGGCGCTCCC ATCGCATCAA GAAGAAGCCG CAGGGATTCA AGGCCGGCCA GGCCAGAGGA 
GTGACCAGCA TGGCCCTGGC GCCGCTCAGC ATGGACGAGC AGCTGACCGA ACTGGCCAAC 
ATCGAGGCCA TCAACGAGCA GTTCCTCCGG AGCGAGGGCC TCAACACATT CCAGCCGCTG 
AGGGAGAACT ACTACCGCTG TGCCCGCCAG GTGAGCCAGG AGAACGCGGA GATGCAGTGC 
GACTGCTTCC TGACCGGCGA CGAGGAGGCC CAGGGACATC TCTGCTGCGG CTCTGGGTGC 
ATCAACCGGA TGCTGATGAT CGAGTGCGGA CCGCTGTGCT CCAACGGGGA TCGGTGCACC 
AACAAGCGCT TCCAGCAGCA CCAGTGCTGG CCCTGCCGCG TCTTCCGGAC GGAGAAGAAG 
GGCTGCGGCA TCACCGCCGA GCTCCAGATC CCGCCCGGCG AGTTCATCAT GGAGTACGTG 
GGCGAGGTGA TCGACAGCGA GGAGTTCGAG CGGCGGCAGC ACCTCTACTC GCGGGATCGG 
AAGCGCCACT ACTACTTCAT GGCGCTGCGG GGCGAGGCGA TCATCGACGC CACCTCCAAG 
GGTAACATCT CGCGGTACAT AAACCACAGC TGCGACCCGA ACGCCGAGAC CCAGAAGTGG 
ACGGTGAACG GGGAGCTGCG GATCGGGTTC TTCAGCGTGA AGACCATCCA GCCGGGCGAG 
GAGATCACCT TCGACTACCA GTACCAGCGG TATGGCAGGG ATGCCCAGCG GTGCTACTGC 
GAGGCGACCA ACTGCCGGGG ATGGATCGGC GGGGAGCCGG ACTCGGACGA GGGCGAGCAG 
CTGGACGTGA GCAGCGAGAG CGACGGCGAT GAGGAGGAGG AGGTCGAGAC GACGGCGACG 
GCGTCGGCGT CCGAGGGGGC AGAGGCGAAG GCGCCCAAGA TCAAGGCCAG GACTAGGGTG 
AAGGGCAAGC CGGCCACCGC CAAGCCCGGC AAGCGCAAGG AGCAGCCCAA GGCCAAGGAT 
CGCGAGTACA AGGCCGGAAG GTGGCTGAAG CCGAGTGGCG GAGGAGCAGC CGGCTCATCC 
GCTCCGGGGG AGAAGGCATC CCGGGCCAAG CCGAAGGTCA GCAAGTTCCA TGCCATGCTG 
GAGGATCCGG ATGTCGTCGA GGAGCTCAAC CGGCTCAGCC GCAGCGGCCT GAAGAACCAG 
CTGGACACGT TACGGTTCTC GCGGTGCATG GTCCGCGCCA AGCTGCTCCC GACCCGCCTC 
CAGCTGCTGG GCGTCCTGAC CCGCGGCGAG CTGCCCTGCC GGCGGCTCTT CCTCGACTAC 
CACGGCCTCC GGCTGCTCCA CGCCTGGATC AGCGAGAGCG GCAGCGACAC CCAGCTGCGG 
CTGGCCCTCC TGGAGGCGCT CGAGTCACTG CCCATTCCCA ACCGCACCAT GCTCAACGAC 
AGCAAGATCT ACCAGAGCGT CCAGCTGTGG AGCAGCAGTC TGGAGGAGCC GGGTCAGGGA 
GAAGATGGAG CTGCTGCCGC CCAGCAGGCT CTGCGATCCC GGATGACGGC GCTGCTGAAG 
AAGTGGCAGG CCCTGCCGGA GATATTCCGC ATCCCGAAAC GGGAGCGCAT CGAGCAGATG 
AAGGAGCACG AGCGGGAGGC CGATCGGCCG CAGAAGCCGC CCTTCCACAC CAGCACTGCC 
CTGGAGGATC AGCGGGAGCG GGGAGAGACC AGCTCCTCGG ATCGCTACCG GCAGGATCGC 
TTCCGGCGGG ACACGACCAA CAACCGGAAC AACAACAAGC CCACCCGGAT GAGCGGCAAC 
AACACCATCT GCACCATCAC CACCCAGCAG AAGGGCAACA ACGGCGCCAT GGACAACATG 
AACCGGATGG ACCGCCGCCG CTCCGATCTG GGACCCACTG TGGGCGGAGA GCCCCGCCGG 
GTGCTCTCCA AGGAGCTGAG AAGGAGTCTG TTCGAGAGGA AGGTGGCCCT GGACGAGGCG 
GAGAAGCGGG TCTGCAGCGA GGACTGGCGG GAGCACGAGG CCCGGTGCGA GTTCTTCGGG 
GCGGACCTGA GCACCGATCC CAAGCTGCTG CCCTTCTACC AGAACACCGA GACCGGGGAG 
TGGTTCAACA CGGAGGACAT GCCGCTGCCG ACGCCCCAGA GGACCGACCT GCAGGCTCAA 
GCCATGCTTT CCCCGGAGTC GGACGGGGGG CCGACGGCAT CGGGCACCGT GGAATACAAA 
CTGCCGGCCG GAGTGGATCC CCTGCCGCCC GCCTGGCACT GGCGGCTGAC GCCCGAGGGC 
GACATCTACT ACTACAACCT GCGGGAGCGC ATCTCCCAGT GGGAGCCACC CAGTCCGGAG 
CAGCGCCTGC AGACCCTGAT CGATGCCGAG GATCCTACGA AGCAGCCGCC CCTGCAGGAG 
CTTCAGATCG ACGCCGAGCA GCTGGCCAGC GAGCTCATCC AGGTGGATGT GGACTATGTG 
GGATCGCTGA GCACCAAGTC CCTGGCCCAG TACATCGAGG GCAAGGTGAA GGAGCGACGG 
GAGATGCGCC GGAACCGGCT GGTGTCGATC TGCCTGATCA GTCCGCGCCG GGACGAGGAT 
CGGCTCTACA ACCAGCTGGA GTCGCGCAAG TACAAGGAGA ACAAGGAGAA GATCCGGCGC 
CGCAAGGAGC TCTACCGCCG ACGGCGACTC GACATGGCCA TCGCTGCGCC CGGTGGCTCT 
GGCACTTCGG ATGGCAGTTC TCCAAGCAAC TCACTGCCCA TCCAGGGCTA TCTCTACTCC 
TCCGACGAGG ACGCCGCCAC GGATGCGCCG GCGGCGGAGT TGCCGCTGAT CGATGGCGTG 
GTGGCGGGCG GGATGCAGGT GGACGAACTG GATGCCCTTA ACCTGGAGCC GAGCACCAGT 
CAGGCGGCAG CAGCAGCAGC CGCGGCGCTG GCCAAGCAGG AGGAGGTGGC CGCCTCGCCG 
GCCCAAGTGG GCGGGAAGAG GAAGCTACCA ATGCCGCCAC ACATCAGCGA CATGAAGCGG 
CAGCGACCAG ACCAGCGCAT CAAGAAGAGC AAGACATCCA TGTTGAACAA CATCTCGATT 
GGAGGACGCG AAGCCCATGA CAAATTCCGG TTCGAGATCA GCGGCCATGT GGCGGAGTTC 
CTGCGTCCCT ATCGCAAGGA CAGCTGCCAG CTGGGAAGGA TAACCAGCGA CGAGGACTAC 
AAGTTCCTTA TCAAGAGATT GAGCCATCAC ATCACCACCA AGGAGATGCG CTACTGCGAC 
ATGACCGGGA ATCCACTGGC CTGCACCGAG TCGGTGAAGC ACAAGTCCTA CGACTTCATC 
AACCAGTACA TGCGCAAGAA GGGACGCGTG TACAGGAAGC CGGCCGACGA GACCGTATTT 
TAA

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

RefSeq	XP_001965501.2
CDS	220..7542
Translation	MTPFPPRPTPVPVACQFAEKLRSVVAMEDSTAAPPPLGLTLSVDGGGGGAVPPPIVSTAAPRTTTTTGVASRGRGRGRPPKVAPQPSAPSPAPTRASPLPSAAVTSPPSPSSLEDGDSTCRRSSRKKIIKFDVRDLLNKNRKAHKIQIEARIDSNTSCPPNPNPMAASPSGTTPPVNRVFSMFENSKVMPPKPPPTALELFAKPRPTQSLIVAQVTSEPSTTAATSVAPTPPVRKRGRPRKIQPTAEQQAPMPITSDSDTTTSTGSGGDSGDVVAAALDPAKRKPKSKLRVSLKRLNMCRRQESTDSGEMPLNIRMLGAGGNSSSSSPSLSAPMIQDENAMDEQPKPMAKDPVTSVISVPDENTDSDSQIIFIEIETEGKDDDTGIDGGDGQEIQVLMPRSGADHDSDDMMVEVLSGPPSLWSADDEAEDEEEVARRAAPEPEETESLSAAPRRSRRSVRGGSSNSHQGKTLEETFAEIAAESSKQILEQEQEQEQEEHLLIDLIEDSQSQPGASGAEKDLVKAGSALHKALNSLEPLDKDLPEGTSNIVVMMKKLDPTQYSLKTSPKVLIEEMAPELMAKKELEGEKEQEKAKEQVPEPEEVKETETEPEPEKPPSSEPEQETVPAEATPAEPEPEATRTTPNQTTSAEATKSTTETEEAKTETAETSPDDDTTRLEAKQSEEPARDQVAGRPGPSDTEVSAGEVPLGDRVAAAISEKSPEKVEAKAEAAEGTEVEVESKLVETEAETETEAKTDHITLKTEPAKSEERPEESDPQPQPEPQPQPEPEPGKLKSLPQKKEATKMPTDSRKSSRKDNELSKSSSTEDSEPGKSSRKGDKEEKSSKDSTKREKLKDSSRKNSLSKKDSDSEKTPPERISSVESTAKKEVSASSEKSKSQPESEASEESLKKPSSSQEASKAKEKSSATVFVECDAMFKAMDKANAQLRLEEKSKKKLKKVAPPPPQPQPQSQPQTHTKATKSSSASTTPAPSKKSHTKGLSKFRRNTMFEDADALWSPSSPADSDSSRVATPKPKKSRPKKKPAGSRRSTISEEAKHLGARGTPSVDLTGGSSPISTSSDASSKKARSKRSTPELVPATGLSKLELRRNTICEDRHPVEKPKAAVPLTKRRYSVHPKASASPQPQEAGKSAAAKKKPRKTPKGAMSRQNSLDSSSSASLAGGATATAAKRKAQKSTEALHAALTETESSESTSSGSKMRRCDVQISPELEAPDPLKDIAKFIEDGVNLLKRDYKLDEDQKEEQPGEPTKVEPPQQDNQEDEFAQRVANIETPATTPSPSPTEESSSTSASGTQLQEGNGGVRRSHRIKKKPQGFKAGQARGVTSMALAPLSMDEQLTELANIEAINEQFLRSEGLNTFQPLRENYYRCARQVSQENAEMQCDCFLTGDEEAQGHLCCGSGCINRMLMIECGPLCSNGDRCTNKRFQQHQCWPCRVFRTEKKGCGITAELQIPPGEFIMEYVGEVIDSEEFERRQHLYSRDRKRHYYFMALRGEAIIDATSKGNISRYINHSCDPNAETQKWTVNGELRIGFFSVKTIQPGEEITFDYQYQRYGRDAQRCYCEATNCRGWIGGEPDSDEGEQLDVSSESDGDEEEEVETTATASASEGAEAKAPKIKARTRVKGKPATAKPGKRKEQPKAKDREYKAGRWLKPSGGGAAGSSAPGEKASRAKPKVSKFHAMLEDPDVVEELNRLSRSGLKNQLDTLRFSRCMVRAKLLPTRLQLLGVLTRGELPCRRLFLDYHGLRLLHAWISESGSDTQLRLALLEALESLPIPNRTMLNDSKIYQSVQLWSSSLEEPGQGEDGAAAAQQALRSRMTALLKKWQALPEIFRIPKRERIEQMKEHEREADRPQKPPFHTSTALEDQRERGETSSSDRYRQDRFRRDTTNNRNNNKPTRMSGNNTICTITTQQKGNNGAMDNMNRMDRRRSDLGPTVGGEPRRVLSKELRRSLFERKVALDEAEKRVCSEDWREHEARCEFFGADLSTDPKLLPFYQNTETGEWFNTEDMPLPTPQRTDLQAQAMLSPESDGGPTASGTVEYKLPAGVDPLPPAWHWRLTPEGDIYYYNLRERISQWEPPSPEQRLQTLIDAEDPTKQPPLQELQIDAEQLASELIQVDVDYVGSLSTKSLAQYIEGKVKERREMRRNRLVSICLISPRRDEDRLYNQLESRKYKENKEKIRRRKELYRRRRLDMAIAAPGGSGTSDGSSPSNSLPIQGYLYSSDEDAATDAPAAELPLIDGVVAGGMQVDELDALNLEPSTSQAAAAAAAALAKQEEVAASPAQVGGKRKLPMPPHISDMKRQRPDQRIKKSKTSMLNNISIGGREAHDKFRFEISGHVAEFLRPYRKDSCQLGRITSDEDYKFLIKRLSHHITTKEMRYCDMTGNPLACTESVKHKSYDFINQYMRKKGRVYRKPADETVF

Target ORF information:

RefSeq Version	XM_001965465.2
Organism	Drosophila ananassae
Definition	Drosophila ananassae uncharacterized protein (Dana\GF22528), mRNA.

Target ORF information:

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

XM_001965465.2

ORF Insert Sequence:

ATGACCCCCT TCCCGCCCCG CCCCACTCCA GTGCCAGTGG CCTGCCAGTT TGCCGAAAAA 
TTACGGTCAG TGGTAGCTAT GGAGGATTCC ACTGCGGCAC CACCACCACT CGGTCTCACT 
TTGTCGGTGG ATGGTGGTGG GGGTGGAGCT GTTCCTCCCC CCATCGTTTC AACCGCGGCC 
CCCCGCACTA CAACAACAAC AGGCGTTGCA TCACGTGGCC GTGGGCGGGG ACGACCGCCC 
AAGGTAGCCC CACAGCCATC TGCTCCGTCA CCAGCACCGA CTAGAGCCTC CCCACTGCCC 
AGTGCTGCTG TTACGTCGCC CCCCTCGCCA TCCTCGCTGG AGGACGGAGA TTCGACGTGC 
CGGCGCAGCT CCCGGAAGAA AATCATCAAG TTCGATGTTA GGGATCTGTT GAACAAGAAC 
CGGAAAGCGC ACAAAATCCA AATCGAAGCT CGGATTGATT CCAATACCAG CTGCCCCCCA 
AATCCAAATC CGATGGCCGC CAGTCCATCT GGGACGACGC CGCCGGTCAA TCGGGTCTTC 
TCCATGTTCG AGAATAGCAA GGTGATGCCA CCGAAGCCGC CGCCCACTGC CCTGGAGCTG 
TTCGCCAAGC CCCGACCCAC CCAGAGCCTG ATCGTCGCCC AGGTGACCAG CGAACCGAGC 
ACCACTGCCG CCACTTCGGT GGCCCCCACT CCGCCGGTGC GGAAGCGAGG ACGACCCCGG 
AAGATCCAGC CAACAGCCGA GCAACAGGCA CCCATGCCGA TAACCTCCGA CTCGGATACC 
ACCACCTCCA CGGGCAGTGG AGGCGACAGT GGTGACGTGG TGGCTGCCGC CCTCGATCCC 
GCCAAGCGGA AGCCCAAGTC CAAGCTGCGG GTGTCTCTCA AGCGGCTGAA CATGTGCCGG 
CGGCAGGAGT CCACCGATTC CGGGGAGATG CCTCTGAACA TTCGAATGCT GGGAGCCGGA 
GGCAACTCCT CCTCCTCCTC GCCGTCTCTG TCGGCGCCCA TGATCCAGGA CGAGAATGCC 
ATGGACGAGC AGCCGAAGCC CATGGCCAAG GATCCAGTCA CTTCTGTTAT TTCCGTTCCG 
GATGAGAACA CCGACTCCGA CTCCCAGATC ATATTCATCG AGATCGAGAC GGAGGGCAAG 
GACGACGACA CGGGGATCGA TGGAGGCGAC GGCCAGGAGA TCCAGGTACT GATGCCGAGG 
TCGGGAGCCG ACCACGACTC CGATGACATG ATGGTGGAGG TGCTGAGTGG CCCGCCCAGT 
CTCTGGTCGG CCGACGACGA GGCCGAGGAT GAGGAGGAGG TGGCCCGGAG AGCCGCTCCC 
GAGCCCGAGG AGACCGAGTC CTTGTCGGCA GCACCGCGCC GCAGTCGCCG GTCCGTTCGG 
GGCGGGAGCA GCAACAGCCA CCAGGGCAAG ACCCTGGAGG AGACCTTTGC CGAGATAGCC 
GCCGAGAGCA GCAAGCAGAT CCTGGAGCAG GAACAGGAGC AGGAGCAGGA GGAGCATCTG 
CTGATCGATC TCATCGAGGA CAGCCAGAGC CAGCCGGGAG CCAGTGGCGC TGAAAAGGAT 
TTGGTGAAGG CGGGCTCGGC ACTGCACAAG GCTCTTAACA GTCTGGAGCC TCTGGACAAG 
GATCTCCCGG AGGGCACATC GAATATCGTG GTCATGATGA AGAAGCTGGA TCCCACTCAG 
TACAGCCTAA AGACCAGTCC AAAGGTGCTG ATCGAGGAGA TGGCGCCGGA GCTGATGGCG 
AAGAAGGAGC TGGAGGGGGA GAAGGAGCAG GAGAAGGCTA AGGAGCAAGT GCCAGAGCCG 
GAGGAGGTAA AGGAGACAGA GACAGAGCCA GAGCCGGAGA AGCCGCCTTC CTCAGAGCCG 
GAGCAAGAGA CAGTACCAGC AGAAGCTACT CCCGCAGAGC CAGAACCAGA AGCCACCAGA 
ACCACTCCCA ACCAGACCAC CTCAGCTGAA GCAACAAAGT CCACGACCGA GACAGAAGAG 
GCGAAGACGG AGACTGCCGA GACATCTCCC GACGATGACA CCACCCGACT GGAGGCTAAA 
CAATCCGAGG AGCCAGCTCG GGATCAGGTG GCGGGGCGGC CAGGTCCATC CGACACCGAG 
GTGAGTGCCG GAGAAGTGCC GCTCGGCGAT CGGGTTGCAG CGGCGATCTC CGAGAAGTCA 
CCAGAGAAGG TGGAGGCCAA GGCGGAGGCG GCGGAGGGCA CTGAGGTGGA GGTGGAAAGC 
AAGCTCGTCG AGACGGAGGC GGAGACGGAG ACGGAAGCGA AGACTGATCA CATCACTTTG 
AAGACTGAGC CGGCAAAGAG CGAAGAGAGG CCGGAAGAAT CAGACCCACA ACCACAACCA 
GAACCACAAC CACAACCAGA ACCAGAACCA GGAAAGCTCA AATCCCTGCC ACAGAAGAAG 
GAGGCGACCA AGATGCCCAC AGATTCCAGA AAGTCTTCCA GGAAAGACAA CGAACTATCG 
AAATCTTCCA GCACAGAAGA CAGCGAACCG GGAAAGTCCA GCCGAAAGGG GGACAAGGAG 
GAGAAGAGTT CCAAGGACTC CACGAAAAGG GAGAAGCTCA AGGACTCCTC CCGCAAGAAC 
TCCCTCTCCA AGAAGGATTC CGACTCGGAG AAGACTCCCC CGGAGCGCAT TTCTTCCGTA 
GAATCGACTG CCAAGAAAGA GGTTTCTGCC TCTTCGGAGA AATCCAAATC TCAGCCAGAA 
TCGGAGGCTT CCGAGGAGAG TCTGAAGAAG CCATCTTCCA GCCAGGAAGC CTCAAAGGCC 
AAGGAGAAGT CCTCCGCCAC CGTTTTTGTG GAGTGCGATG CCATGTTCAA GGCCATGGAC 
AAGGCCAATG CCCAGCTGCG TCTGGAGGAG AAGAGCAAGA AGAAGCTCAA GAAGGTAGCT 
CCACCACCGC CCCAGCCCCA GCCGCAGTCC CAGCCCCAGA CCCACACCAA GGCGACCAAG 
TCCTCCTCCG CATCCACCAC GCCAGCCCCG TCGAAGAAGT CCCACACTAA GGGCTTGTCC 
AAGTTCCGGA GGAACACCAT GTTCGAGGAC GCCGATGCCC TGTGGAGTCC CAGCTCGCCC 
GCCGACTCCG ACTCCAGCCG GGTCGCCACG CCCAAGCCGA AGAAGTCCCG GCCGAAGAAG 
AAGCCCGCCG GGTCGCGGCG CAGCACGATC TCGGAGGAGG CCAAGCACCT GGGCGCCAGG 
GGCACTCCCA GCGTGGACCT GACCGGCGGC TCCTCGCCCA TCTCCACCTC CTCGGATGCC 
AGCTCCAAGA AGGCCCGTTC CAAGCGCTCC ACCCCGGAAC TGGTCCCGGC TACGGGTCTT 
AGCAAGCTGG AGCTGCGCCG GAACACCATC TGCGAGGACC GCCACCCGGT GGAGAAGCCC 
AAGGCGGCAG TGCCTCTCAC CAAGCGACGG TACTCGGTGC ATCCCAAGGC CTCGGCCAGC 
CCCCAGCCCC AGGAGGCGGG CAAGTCGGCG GCCGCCAAGA AGAAGCCCCG GAAGACGCCC 
AAGGGCGCCA TGAGTCGCCA GAACTCGCTG GACTCCAGTT CGAGTGCCTC GCTGGCCGGA 
GGAGCCACCG CCACTGCCGC CAAGAGGAAG GCCCAGAAGT CCACGGAGGC CCTCCATGCG 
GCTCTCACCG AAACCGAGTC CTCGGAGTCC ACGTCCTCCG GCAGCAAGAT GCGGCGCTGC 
GACGTCCAGA TCTCCCCGGA ACTGGAGGCG CCCGATCCCC TCAAGGACAT CGCCAAGTTC 
ATCGAGGACG GCGTGAATCT CCTCAAGCGG GACTACAAGC TGGACGAGGA CCAGAAGGAG 
GAGCAGCCGG GCGAGCCGAC CAAGGTGGAG CCGCCCCAGC AGGACAACCA GGAGGACGAG 
TTCGCCCAGC GAGTGGCCAA CATAGAGACG CCGGCCACCA CGCCCTCACC CTCGCCCACG 
GAGGAGTCAT CCTCCACCTC CGCCTCTGGG ACGCAGCTCC AGGAGGGGAA TGGCGGCGTG 
AGGCGCTCCC ATCGCATCAA GAAGAAGCCG CAGGGATTCA AGGCCGGCCA GGCCAGAGGA 
GTGACCAGCA TGGCCCTGGC GCCGCTCAGC ATGGACGAGC AGCTGACCGA ACTGGCCAAC 
ATCGAGGCCA TCAACGAGCA GTTCCTCCGG AGCGAGGGCC TCAACACATT CCAGCCGCTG 
AGGGAGAACT ACTACCGCTG TGCCCGCCAG GTGAGCCAGG AGAACGCGGA GATGCAGTGC 
GACTGCTTCC TGACCGGCGA CGAGGAGGCC CAGGGACATC TCTGCTGCGG CTCTGGGTGC 
ATCAACCGGA TGCTGATGAT CGAGTGCGGA CCGCTGTGCT CCAACGGGGA TCGGTGCACC 
AACAAGCGCT TCCAGCAGCA CCAGTGCTGG CCCTGCCGCG TCTTCCGGAC GGAGAAGAAG 
GGCTGCGGCA TCACCGCCGA GCTCCAGATC CCGCCCGGCG AGTTCATCAT GGAGTACGTG 
GGCGAGGTGA TCGACAGCGA GGAGTTCGAG CGGCGGCAGC ACCTCTACTC GCGGGATCGG 
AAGCGCCACT ACTACTTCAT GGCGCTGCGG GGCGAGGCGA TCATCGACGC CACCTCCAAG 
GGTAACATCT CGCGGTACAT AAACCACAGC TGCGACCCGA ACGCCGAGAC CCAGAAGTGG 
ACGGTGAACG GGGAGCTGCG GATCGGGTTC TTCAGCGTGA AGACCATCCA GCCGGGCGAG 
GAGATCACCT TCGACTACCA GTACCAGCGG TATGGCAGGG ATGCCCAGCG GTGCTACTGC 
GAGGCGACCA ACTGCCGGGG ATGGATCGGC GGGGAGCCGG ACTCGGACGA GGGCGAGCAG 
CTGGACGTGA GCAGCGAGAG CGACGGCGAT GAGGAGGAGG AGGTCGAGAC GACGGCGACG 
GCGTCGGCGT CCGAGGGGGC AGAGGCGAAG GCGCCCAAGA TCAAGGCCAG GACTAGGGTG 
AAGGGCAAGC CGGCCACCGC CAAGCCCGGC AAGCGCAAGG AGCAGCCCAA GGCCAAGGAT 
CGCGAGTACA AGGCCGGAAG GTGGCTGAAG CCGAGTGGCG GAGGAGCAGC CGGCTCATCC 
GCTCCGGGGG AGAAGGCATC CCGGGCCAAG CCGAAGGTCA GCAAGTTCCA TGCCATGCTG 
GAGGATCCGG ATGTCGTCGA GGAGCTCAAC CGGCTCAGCC GCAGCGGCCT GAAGAACCAG 
CTGGACACGT TACGGTTCTC GCGGTGCATG GTCCGCGCCA AGCTGCTCCC GACCCGCCTC 
CAGCTGCTGG GCGTCCTGAC CCGCGGCGAG CTGCCCTGCC GGCGGCTCTT CCTCGACTAC 
CACGGCCTCC GGCTGCTCCA CGCCTGGATC AGCGAGAGCG GCAGCGACAC CCAGCTGCGG 
CTGGCCCTCC TGGAGGCGCT CGAGTCACTG CCCATTCCCA ACCGCACCAT GCTCAACGAC 
AGCAAGATCT ACCAGAGCGT CCAGCTGTGG AGCAGCAGTC TGGAGGAGCC GGGTCAGGGA 
GAAGATGGAG CTGCTGCCGC CCAGCAGGCT CTGCGATCCC GGATGACGGC GCTGCTGAAG 
AAGTGGCAGG CCCTGCCGGA GATATTCCGC ATCCCGAAAC GGGAGCGCAT CGAGCAGATG 
AAGGAGCACG AGCGGGAGGC CGATCGGCCG CAGAAGCCGC CCTTCCACAC CAGCACTGCC 
CTGGAGGATC AGCGGGAGCG GGGAGAGACC AGCTCCTCGG ATCGCTACCG GCAGGATCGC 
TTCCGGCGGG ACACGACCAA CAACCGGAAC AACAACAAGC CCACCCGGAT GAGCGGCAAC 
AACACCATCT GCACCATCAC CACCCAGCAG AAGGGCAACA ACGGCGCCAT GGACAACATG 
AACCGGATGG ACCGCCGCCG CTCCGATCTG GGACCCACTG TGGGCGGAGA GCCCCGCCGG 
GTGCTCTCCA AGGAGCTGAG AAGGAGTCTG TTCGAGAGGA AGGTGGCCCT GGACGAGGCG 
GAGAAGCGGG TCTGCAGCGA GGACTGGCGG GAGCACGAGG CCCGGTGCGA GTTCTTCGGG 
GCGGACCTGA GCACCGATCC CAAGCTGCTG CCCTTCTACC AGAACACCGA GACCGGGGAG 
TGGTTCAACA CGGAGGACAT GCCGCTGCCG ACGCCCCAGA GGACCGACCT GCAGGCTCAA 
GCCATGCTTT CCCCGGAGTC GGACGGGGGG CCGACGGCAT CGGGCACCGT GGAATACAAA 
CTGCCGGCCG GAGTGGATCC CCTGCCGCCC GCCTGGCACT GGCGGCTGAC GCCCGAGGGC 
GACATCTACT ACTACAACCT GCGGGAGCGC ATCTCCCAGT GGGAGCCACC CAGTCCGGAG 
CAGCGCCTGC AGACCCTGAT CGATGCCGAG GATCCTACGA AGCAGCCGCC CCTGCAGGAG 
CTTCAGATCG ACGCCGAGCA GCTGGCCAGC GAGCTCATCC AGGTGGATGT GGACTATGTG 
GGATCGCTGA GCACCAAGTC CCTGGCCCAG TACATCGAGG GCAAGGTGAA GGAGCGACGG 
GAGATGCGCC GGAACCGGCT GGTGTCGATC TGCCTGATCA GTCCGCGCCG GGACGAGGAT 
CGGCTCTACA ACCAGCTGGA GTCGCGCAAG TACAAGGAGA ACAAGGAGAA GATCCGGCGC 
CGCAAGGAGC TCTACCGCCG ACGGCGACTC GACATGGCCA TCGCTGCGCC CGGTGGCTCT 
GGCACTTCGG ATGGCAGTTC TCCAAGCAAC TCACTGCCCA TCCAGGGCTA TCTCTACTCC 
TCCGACGAGG ACGCCGCCAC GGATGCGCCG GCGGCGGAGT TGCCGCTGAT CGATGGCGTG 
GTGGCGGGCG GGATGCAGGT GGACGAACTG GATGCCCTTA ACCTGGAGCC GAGCACCAGT 
CAGGCGGCAG CAGCAGCAGC CGCGGCGCTG GCCAAGCAGG AGGAGGTGGC CGCCTCGCCG 
GCCCAAGTGG GCGGGAAGAG GAAGCTACCA ATGCCGCCAC ACATCAGCGA CATGAAGCGG 
CAGCGACCAG ACCAGCGCAT CAAGAAGAGC AAGACATCCA TGTTGAACAA CATCTCGATT 
GGAGGACGCG AAGCCCATGA CAAATTCCGG TTCGAGATCA GCGGCCATGT GGCGGAGTTC 
CTGCGTCCCT ATCGCAAGGA CAGCTGCCAG CTGGGAAGGA TAACCAGCGA CGAGGACTAC 
AAGTTCCTTA TCAAGAGATT GAGCCATCAC ATCACCACCA AGGAGATGCG CTACTGCGAC 
ATGACCGGGA ATCCACTGGC CTGCACCGAG TCGGTGAAGC ACAAGTCCTA CGACTTCATC 
AACCAGTACA TGCGCAAGAA GGGACGCGTG TACAGGAAGC CGGCCGACGA GACCGTATTT 
TAA

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

PubMed

Assembly reconciliation.
Bioinformatics (Oxford, England)24(1)42-5(2008 Jan)
Zimin AV,Smith DR,Sutton G,Yorke JA

Evolution of genes and genomes on the Drosophila phylogeny.
Nature450(7167)203-18(2007 Nov)
,Clark AG,Eisen MB,Smith DR,Bergman CM,Oliver B,Markow TA,Kaufman TC,Kellis M,Gelbart W,Iyer VN,Pollard DA,Sackton TB,Larracuente AM,Singh ND,Abad JP,Abt DN,Adryan B,Aguade M,Akashi H,Anderson WW,Aquadro CF,Ardell DH,Arguello R,Artieri CG,Barbash DA,Barker D,Barsanti P,Batterham P,Batzoglou S,Begun D,Bhutkar A,Blanco E,Bosak SA,Bradley RK,Brand AD,Brent MR,Brooks AN,Brown RH,Butlin RK,Caggese C,Calvi BR,Bernardo de Carvalho A,Caspi A,Castrezana S,Celniker SE,Chang JL,Chapple C,Chatterji S,Chinwalla A,Civetta A,Clifton SW,Comeron JM,Costello JC,Coyne JA,Daub J,David RG,Delcher AL,Delehaunty K,Do CB,Ebling H,Edwards K,Eickbush T,Evans JD,Filipski A,Findeiss S,Freyhult E,Fulton L,Fulton R,Garcia AC,Gardiner A,Garfield DA,Garvin BE,Gibson G,Gilbert D,Gnerre S,Godfrey J,Good R,Gotea V,Gravely B,Greenberg AJ,Griffiths-Jones S,Gross S,Guigo R,Gustafson EA,Haerty W,Hahn MW,Halligan DL,Halpern AL,Halter GM,Han MV,Heger A,Hillier L,Hinrichs AS,Holmes I,Hoskins RA,Hubisz MJ,Hultmark D,Huntley MA,Jaffe DB,Jagadeeshan S,Jeck WR,Johnson J,Jones CD,Jordan WC,Karpen GH,Kataoka E,Keightley PD,Kheradpour P,Kirkness EF,Koerich LB,Kristiansen K,Kudrna D,Kulathinal RJ,Kumar S,Kwok R,Lander E,Langley CH,Lapoint R,Lazzaro BP,Lee SJ,Levesque L,Li R,Lin CF,Lin MF,Lindblad-Toh K,Llopart A,Long M,Low L,Lozovsky E,Lu J,Luo M,Machado CA,Makalowski W,Marzo M,Matsuda M,Matzkin L,McAllister B,McBride CS,McKernan B,McKernan K,Mendez-Lago M,Minx P,Mollenhauer MU,Montooth K,Mount SM,Mu X,Myers E,Negre B,Newfeld S,Nielsen R,Noor MA,O'Grady P,Pachter L,Papaceit M,Parisi MJ,Parisi M,Parts L,Pedersen JS,Pesole G,Phillippy AM,Ponting CP,Pop M,Porcelli D,Powell JR,Prohaska S,Pruitt K,Puig M,Quesneville H,Ram KR,Rand D,Rasmussen MD,Reed LK,Reenan R,Reily A,Remington KA,Rieger TT,Ritchie MG,Robin C,Rogers YH,Rohde C,Rozas J,Rubenfield MJ,Ruiz A,Russo S,Salzberg SL,Sanchez-Gracia A,Saranga DJ,Sato H,Schaeffer SW,Schatz MC,Schlenke T,Schwartz R,Segarra C,Singh RS,Sirot L,Sirota M,Sisneros NB,Smith CD,Smith TF,Spieth J,Stage DE,Stark A,Stephan W,Strausberg RL,Strempel S,Sturgill D,Sutton G,Sutton GG,Tao W,Teichmann S,Tobari YN,Tomimura Y,Tsolas JM,Valente VL,Venter E,Venter JC,Vicario S,Vieira FG,Vilella AJ,Villasante A,Walenz B,Wang J,Wasserman M,Watts T,Wilson D,Wilson RK,Wing RA,Wolfner MF,Wong A,Wong GK,Wu CI,Wu G,Yamamoto D,Yang HP,Yang SP,Yorke JA,Yoshida K,Zdobnov E,Zhang P,Zhang Y,Zimin AV,Baldwin J,Abdouelleil A,Abdulkadir J,Abebe A,Abera B,Abreu J,Acer SC,Aftuck L,Alexander A,An P,Anderson E,Anderson S,Arachi H,Azer M,Bachantsang P,Barry A,Bayul T,Berlin A,Bessette D,Bloom T,Blye J,Boguslavskiy L,Bonnet C,Boukhgalter B,Bourzgui I,Brown A,Cahill P,Channer S,Cheshatsang Y,Chuda L,Citroen M,Collymore A,Cooke P,Costello M,D'Aco K,Daza R,De Haan G,DeGray S,DeMaso C,Dhargay N,Dooley K,Dooley E,Doricent M,Dorje P,Dorjee K,Dupes A,Elong R,Falk J,Farina A,Faro S,Ferguson D,Fisher S,Foley CD,Franke A,Friedrich D,Gadbois L,Gearin G,Gearin CR,Giannoukos G,Goode T,Graham J,Grandbois E,Grewal S,Gyaltsen K,Hafez N,Hagos B,Hall J,Henson C,Hollinger A,Honan T,Huard MD,Hughes L,Hurhula B,Husby ME,Kamat A,Kanga B,Kashin S,Khazanovich D,Kisner P,Lance K,Lara M,Lee W,Lennon N,Letendre F,LeVine R,Lipovsky A,Liu X,Liu J,Liu S,Lokyitsang T,Lokyitsang Y,Lubonja R,Lui A,MacDonald P,Magnisalis V,Maru K,Matthews C,McCusker W,McDonough S,Mehta T,Meldrim J,Meneus L,Mihai O,Mihalev A,Mihova T,Mittelman R,Mlenga V,Montmayeur A,Mulrain L,Navidi A,Naylor J,Negash T,Nguyen T,Nguyen N,Nicol R,Norbu C,Norbu N,Novod N,O'Neill B,Osman S,Markiewicz E,Oyono OL,Patti C,Phunkhang P,Pierre F,Priest M,Raghuraman S,Rege F,Reyes R,Rise C,Rogov P,Ross K,Ryan E,Settipalli S,Shea T,Sherpa N,Shi L,Shih D,Sparrow T,Spaulding J,Stalker J,Stange-Thomann N,Stavropoulos S,Stone C,Strader C,Tesfaye S,Thomson T,Thoulutsang Y,Thoulutsang D,Topham K,Topping I,Tsamla T,Vassiliev H,Vo A,Wangchuk T,Wangdi T,Weiand M,Wilkinson J,Wilson A,Yadav S,Young G,Yu Q,Zembek L,Zhong D,Zimmer A,Zwirko Z,Jaffe DB,Alvarez P,Brockman W,Butler J,Chin C,Gnerre S,Grabherr M,Kleber M,Mauceli E,MacCallum I

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Dana\GF22528 cDNA ORF clone, Drosophila ananassae

Gene

Clones

gRNAs

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

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