| Gene Symbol | Dgri\GH20939 |
| Entrez Gene ID | 6560072 |
| Full Name | GH20939 gene product from transcript GH20939-RA |
| Synonyms | GH20939,dgri_GLEANR_5147 |
| Gene Type | protein-coding |
| Organism | Drosophila grimshawi |
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Dgri\GH20939 cDNA ORF clone, Drosophila grimshawi
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Gene
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Clones
gRNAs
The following Dgri\GH20939 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Dgri\GH20939 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.
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Reference Sequences (Refseq)
CloneID ODj02883 Clone ID Related Accession (Same CDS sequence) XM_001985661.1 Accession Version XM_001985661.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4296bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1217520000000 Organism Drosophila grimshawi Product Dgri\GH20939-PA Comment Comment: PROVISIONAL REFSEQ: This record is based on preliminary annotation provided by FlyBase. This record is derived from an annotated genomic sequence (NW_001961673). COMPLETENESS: incomplete on both ends.
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261ATGGCCCAGC CAAATGTACC AAAAGTCCCG GACGCTGTCA ACGCTGAGGC GGAACAGCTG
CAGCAGGATC CAAGGCATGC GGCGTTGACG TCAGATATGC CAAATATGCG GGTGCTACGT
CATCGTCGCA GCATCTCACA GCTGATGGCC AGCATGGTTG AATATCCGAC GGATGATGCC
TACAGACCGA GTAATTATGG CGGCTATATC AATCGCGGCT ATGACTATGA TTTAGATAGT
TCCTACTACT TTCCACAATA CTCGGACATG TCGGAAGCCA GAAATAGTGG GCCACTGCCG
CCCTACACAC CCGAACAGCA GCTCGATCCC GTTGCGGATA CGGTTGTGGA TGGGCATGGG
AATAGGGATG GGAATGGGGA TGGGGATGCG GATGAGGAGG AGAACTACGA TGAGATTGAT
GCCGAACACC ATGATGATGG CGATGATGTG TTCAAGGACT GCACAGATGA GAACATCGCC
GAGGAAGAGG AGACAGCACA CAATAGTCGC TGCCTGCCCG AATTTCAGTT CTCAATTGTC
GAATCGGAAT ACGACGAAAC GCTGGCGTTT CCCGATTCCG TCACCATATT GTCAACGGGC
GGCGATGAGC CCCGATTTGT GGAGCGCAAG GAGACCGACG ATGATGACGA GGAGTTCGAT
GATGAGAACA GTGTCCAGAT GCGCCAAGAT GTGCCCTTCA CCAGCATCTA TGGGCCCAGC
GTCAAATTCA ATTCGTTTCA GCGAAAAGTC TTCATTCCGG GCAGGGAGAT TCATGTGCGC
ATCGTGGACA CGGAGAGGAG TGTGACCACC CATCTATTGA ATCCCAATTT ATACACCATT
GAGCTGACCC ATGGCCCCTT CAAGTGGACG ATCAAGAAGC GCTACAAACA CTTCAATTCA
CTGCACCAGC AGCTGAGCTA CTTTCGCACC AAGCTGAAGC TGCCCTTTCC GAGTCGAGCG
TTGAAGGAGA AGCGCACCAC GTTGAAGGCT TCGGCCAGTC AAATGGCCGA TGAGTCTACG
CTCAAGGATC TGTCCGCCCA CACCAAAGTC AAGCAGTCCA GCACACCAGC GACCAATACT
AACAACAATA ATAATAACAA TAATAATAAT ACGAATGGTG CTGTGGTTGG TCCGAGTGCT
GCGGCGAGGA TCTTAAGTCC TGCACATGGC TCGATCCTGT CGAGTCTGAC CTTTCGACGC
AGCCAAAGGA AACGCAAGAA AAAGAAACGA AAACTGCCGC GATTCCCAAA TCGGCCAGAC
AGTCTCATCA CTGTGGAGCA TTTACCTGTG AGGATCAAGC AGCTGGAGGA CTATCTGTAC
AATCTGCTCA ACATTAGCCT ATATCGCAAT CATCATGATA CGCTCGACTT TGTGGAGGTG
TCCAGTGTGT CCTTTGTCTC TGGTCTGGGC ATCAAGGGCA AGGAGGGCGA GATATTGAAG
CGAACGGGAT CGACACGACC CGGCCAGGCT GGTTGCAACT TCTTTGGTTG CTTTCAGCGC
AATTGTTGTG TGCGTTGCAA CTACTTCTGC TCGGATGTTG TGTGTGGCAC ATGGCGGAAT
CGTTGGTTCT TCGTTAAGGA GACCTGCTTC GGCTATGTGC GGCCAACAGA TGGCAGCATA
CGCTCGGTGA TACTGTTCGA TCAGGGCTTC GATGTGTCCA CGGGCATCTA TCAGACGGGC
ATGCGAAAGG GCCTCCAAGT GCTGACCAAC AATCGACACA TCGTACTCAA GTGCTGGACA
AAGCGCAAGT GCAAAGAGTG GATGCAACAT CTGAAGCGCA TTGCTAACAG CTATGCTCGT
GATTTCACTT GCCCCAATCC GCATATGTCG TATGCCCCGA TGCGTGCCAA TACTCAGGCC
GTGTGGTATG TGGATGGGGC ACAGTATATG GCTGCTGTGG CCGATGGCCT CGAGGCAGCC
ACCGAGGAGA TCTACATTGC CGACTGGTGG CTCAGTCCAG AGATCTACAT GAAGCGCCCA
GCATTGAATG GCGACTACTG GCGACTGGAC AAGATTCTGT TGCGCAAAGC CCAACAGGGC
ATTAAGGTGT TTGTGCTGCT CTACAAGGAG GTCGAAATGG CACTGGGCAT CAATAGCTAC
TACAGCAAGT CCACGCTGGC CAAGCACGCC AACATCAAGG TCATGCGTCA TCCGGATCAT
GCTCGAGGTG GCATTCTGCT GTGGGCACAT CACGAGAAGA TCGTTGTGAT CGATCAGACT
TATGCATTTA CGGGCGGCAT AGATCTGTGC TATGGTCGCT GGGATGATCG AGCGCATCGC
CTGACCGATT TGGGCAGCAT CTCGACCACC TCCGTGTCGG GGAGTACGCG ACGCACGCCG
ACCATCCAGT TCAACCGAGA TGACGAGGAT TCGGCGTTCG GTTCACGCAA ATCCTCACGC
AATGCCAACT ACGAAACGTT GCCCAAGGAG CCAAAGGAAT CGCGTTCCCG GCCAGAGAGT
GGGGAATCCA ATGCAATCGA ATTGCGTACG CTGAAGCCGG GAGATCGTCT GCTGATCCCC
GAGCTGCTGT CGGCGGCATC GAGTGAGCTC AACATAGCAG ATTCCACAGC GCTGGAGGGC
ATGAAACTGA ACACACCCGA AATGGAACGC AAGAACATGT TGGATCGTTT CAAGGATAAT
GCCATGAAGG GCGCACGCAA GGGCAAGGAT TTTATGCAGC GATTAACCTA CGACAGTTCA
GCGATGGACA AGGGCAGTGA TCAGGAGCAG CAGCAGGAGA CGCAAGAAGA GAAGGCAACG
CAAGCTGGAG CAATCTATAG CATTGACACC ACGGATGGCA CAGCGGCTTC AGCACATGCC
CAACTGCACA TGGATGCTGC CACATGTTCG AGTACGAGTG GGGCAGCAGC AGTAGCAGCG
GGTGCAAATG CCACAGCTAC CAGCACCCAA ATCCAAAGTG AATTCTATGG CCAGGCAAAG
TATTGGTTCG GCAAGGACTA TTCCAATTTT ATACTCAAGG ATTGGATGAA CCTCAATGCG
CCGTTTGTGG ACATCATTGA TCGGACGACG ACGCCGCGAA TGCCGTGGCA TGATGTCGGC
ATCTGTGTGG TGGGTGCCTC CGCACGAGAT GCGGCCAGGC ATTTCATACA GCGCTGGAAT
GCCATGAAGC TGGAGAAGTT GCGGGATAAT GTCAAATATC CGTATCTGAT GCCTAAGAGC
TATGAGCACA TCCGACTCAA TGCGCACTTG CAACAGGTGC AACAGCGACG GCAGCAGCGT
GTCACGTGTC AACTGTTGCG CAGCGTCTCC GCCTGGAGTT GTGGCTTCAT CGAACCGGAT
CTGGTCGAGC AGAGCATCCA CGATGCCTAC ATTGTCACCA TAACGAAGGC CCAACATTAT
GTCTACATCG AGAATCAGTT CTTTATCACC ATGCAGCTGG GCATGAATGT CTCGGGTGCC
CACAACAATG TGCGCAATCA AATCGGGGAA ACTCTCTACA AACGCATCGT GCGTGCGCAC
AAGGAACGCA AGCGTTTTCG TGTTTATGTG ATAATGCCGC TATTGCCGGG CTTCGAGGGC
GATGTCGGCG GCAATACGGG CATTGCTGTG CGTGCGATAA CCCATTGGAA TTATGCATCC
ATTTCCAGAG GACGCACTGC GATTTTGACC CGGCTTCAGG AGGCTGGCAT TGCCAAGCCG
GAGAATTATA TATCGTTTCA CAGTCTGCGC AATCATTCGT ATCTGAACAA TACACCGATT
ACGGAGCTGA TCTATGTGCA TTCCAAGCTG CTAATTGCCG ACGATCGAGT TGTCATCTGT
GGATCGGCGA ACATTAACGA TCGCTCAATG ATCGGCAAAC GGGATTCGGA AATAGCAGCG
ATTATCATGG ATGAGGAGTA CGAAGATGGA CGCATGAATG GCAAGAAGTA TCCGAGCGGC
ATCTTTGCCG GCAGACTGCG CAAATATCTA TTCAAAGAGC ATTTGGGTTT ACTGGATTTG
GATGCTGCCA CATCGCACTC TGATATCAAT ATAAGTGATC CTGTCTGTGA TCAGTTCTGG
CACAACACCT GGCGTCGCAT CTCATCGAAA AACACGGAGA TTTACGATGA GGTATTCAAA
TGCATTCCAA CGGATTTTGT GAGGACATTC GCCAGTCTGC GCAAATATCA GGAGGAGCCA
CCGTTGTCCA AAACTGAACC CGAAACGGCC GCCAAGCGTG CCACAGAAAT TCAGGGACAT
CTGGTGAATC TGCCGCTGGA GTTCCTCAAT AAGGAGGTGC TAACGCCGCC CAATACCAGC
AAGGAGGGCC TCATACCTAC CTCTGTATGG ACATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001985697.1 CDS 1..4296 Translation 
Target ORF information:
RefSeq Version XM_001985661.1 Organism Drosophila grimshawi Definition Drosophila grimshawi GH20939 (Dgri\GH20939), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_001985661.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261ATGGCCCAGC CAAATGTACC AAAAGTCCCG GACGCTGTCA ACGCTGAGGC GGAACAGCTG
CAGCAGGATC CAAGGCATGC GGCGTTGACG TCAGATATGC CAAATATGCG GGTGCTACGT
CATCGTCGCA GCATCTCACA GCTGATGGCC AGCATGGTTG AATATCCGAC GGATGATGCC
TACAGACCGA GTAATTATGG CGGCTATATC AATCGCGGCT ATGACTATGA TTTAGATAGT
TCCTACTACT TTCCACAATA CTCGGACATG TCGGAAGCCA GAAATAGTGG GCCACTGCCG
CCCTACACAC CCGAACAGCA GCTCGATCCC GTTGCGGATA CGGTTGTGGA TGGGCATGGG
AATAGGGATG GGAATGGGGA TGGGGATGCG GATGAGGAGG AGAACTACGA TGAGATTGAT
GCCGAACACC ATGATGATGG CGATGATGTG TTCAAGGACT GCACAGATGA GAACATCGCC
GAGGAAGAGG AGACAGCACA CAATAGTCGC TGCCTGCCCG AATTTCAGTT CTCAATTGTC
GAATCGGAAT ACGACGAAAC GCTGGCGTTT CCCGATTCCG TCACCATATT GTCAACGGGC
GGCGATGAGC CCCGATTTGT GGAGCGCAAG GAGACCGACG ATGATGACGA GGAGTTCGAT
GATGAGAACA GTGTCCAGAT GCGCCAAGAT GTGCCCTTCA CCAGCATCTA TGGGCCCAGC
GTCAAATTCA ATTCGTTTCA GCGAAAAGTC TTCATTCCGG GCAGGGAGAT TCATGTGCGC
ATCGTGGACA CGGAGAGGAG TGTGACCACC CATCTATTGA ATCCCAATTT ATACACCATT
GAGCTGACCC ATGGCCCCTT CAAGTGGACG ATCAAGAAGC GCTACAAACA CTTCAATTCA
CTGCACCAGC AGCTGAGCTA CTTTCGCACC AAGCTGAAGC TGCCCTTTCC GAGTCGAGCG
TTGAAGGAGA AGCGCACCAC GTTGAAGGCT TCGGCCAGTC AAATGGCCGA TGAGTCTACG
CTCAAGGATC TGTCCGCCCA CACCAAAGTC AAGCAGTCCA GCACACCAGC GACCAATACT
AACAACAATA ATAATAACAA TAATAATAAT ACGAATGGTG CTGTGGTTGG TCCGAGTGCT
GCGGCGAGGA TCTTAAGTCC TGCACATGGC TCGATCCTGT CGAGTCTGAC CTTTCGACGC
AGCCAAAGGA AACGCAAGAA AAAGAAACGA AAACTGCCGC GATTCCCAAA TCGGCCAGAC
AGTCTCATCA CTGTGGAGCA TTTACCTGTG AGGATCAAGC AGCTGGAGGA CTATCTGTAC
AATCTGCTCA ACATTAGCCT ATATCGCAAT CATCATGATA CGCTCGACTT TGTGGAGGTG
TCCAGTGTGT CCTTTGTCTC TGGTCTGGGC ATCAAGGGCA AGGAGGGCGA GATATTGAAG
CGAACGGGAT CGACACGACC CGGCCAGGCT GGTTGCAACT TCTTTGGTTG CTTTCAGCGC
AATTGTTGTG TGCGTTGCAA CTACTTCTGC TCGGATGTTG TGTGTGGCAC ATGGCGGAAT
CGTTGGTTCT TCGTTAAGGA GACCTGCTTC GGCTATGTGC GGCCAACAGA TGGCAGCATA
CGCTCGGTGA TACTGTTCGA TCAGGGCTTC GATGTGTCCA CGGGCATCTA TCAGACGGGC
ATGCGAAAGG GCCTCCAAGT GCTGACCAAC AATCGACACA TCGTACTCAA GTGCTGGACA
AAGCGCAAGT GCAAAGAGTG GATGCAACAT CTGAAGCGCA TTGCTAACAG CTATGCTCGT
GATTTCACTT GCCCCAATCC GCATATGTCG TATGCCCCGA TGCGTGCCAA TACTCAGGCC
GTGTGGTATG TGGATGGGGC ACAGTATATG GCTGCTGTGG CCGATGGCCT CGAGGCAGCC
ACCGAGGAGA TCTACATTGC CGACTGGTGG CTCAGTCCAG AGATCTACAT GAAGCGCCCA
GCATTGAATG GCGACTACTG GCGACTGGAC AAGATTCTGT TGCGCAAAGC CCAACAGGGC
ATTAAGGTGT TTGTGCTGCT CTACAAGGAG GTCGAAATGG CACTGGGCAT CAATAGCTAC
TACAGCAAGT CCACGCTGGC CAAGCACGCC AACATCAAGG TCATGCGTCA TCCGGATCAT
GCTCGAGGTG GCATTCTGCT GTGGGCACAT CACGAGAAGA TCGTTGTGAT CGATCAGACT
TATGCATTTA CGGGCGGCAT AGATCTGTGC TATGGTCGCT GGGATGATCG AGCGCATCGC
CTGACCGATT TGGGCAGCAT CTCGACCACC TCCGTGTCGG GGAGTACGCG ACGCACGCCG
ACCATCCAGT TCAACCGAGA TGACGAGGAT TCGGCGTTCG GTTCACGCAA ATCCTCACGC
AATGCCAACT ACGAAACGTT GCCCAAGGAG CCAAAGGAAT CGCGTTCCCG GCCAGAGAGT
GGGGAATCCA ATGCAATCGA ATTGCGTACG CTGAAGCCGG GAGATCGTCT GCTGATCCCC
GAGCTGCTGT CGGCGGCATC GAGTGAGCTC AACATAGCAG ATTCCACAGC GCTGGAGGGC
ATGAAACTGA ACACACCCGA AATGGAACGC AAGAACATGT TGGATCGTTT CAAGGATAAT
GCCATGAAGG GCGCACGCAA GGGCAAGGAT TTTATGCAGC GATTAACCTA CGACAGTTCA
GCGATGGACA AGGGCAGTGA TCAGGAGCAG CAGCAGGAGA CGCAAGAAGA GAAGGCAACG
CAAGCTGGAG CAATCTATAG CATTGACACC ACGGATGGCA CAGCGGCTTC AGCACATGCC
CAACTGCACA TGGATGCTGC CACATGTTCG AGTACGAGTG GGGCAGCAGC AGTAGCAGCG
GGTGCAAATG CCACAGCTAC CAGCACCCAA ATCCAAAGTG AATTCTATGG CCAGGCAAAG
TATTGGTTCG GCAAGGACTA TTCCAATTTT ATACTCAAGG ATTGGATGAA CCTCAATGCG
CCGTTTGTGG ACATCATTGA TCGGACGACG ACGCCGCGAA TGCCGTGGCA TGATGTCGGC
ATCTGTGTGG TGGGTGCCTC CGCACGAGAT GCGGCCAGGC ATTTCATACA GCGCTGGAAT
GCCATGAAGC TGGAGAAGTT GCGGGATAAT GTCAAATATC CGTATCTGAT GCCTAAGAGC
TATGAGCACA TCCGACTCAA TGCGCACTTG CAACAGGTGC AACAGCGACG GCAGCAGCGT
GTCACGTGTC AACTGTTGCG CAGCGTCTCC GCCTGGAGTT GTGGCTTCAT CGAACCGGAT
CTGGTCGAGC AGAGCATCCA CGATGCCTAC ATTGTCACCA TAACGAAGGC CCAACATTAT
GTCTACATCG AGAATCAGTT CTTTATCACC ATGCAGCTGG GCATGAATGT CTCGGGTGCC
CACAACAATG TGCGCAATCA AATCGGGGAA ACTCTCTACA AACGCATCGT GCGTGCGCAC
AAGGAACGCA AGCGTTTTCG TGTTTATGTG ATAATGCCGC TATTGCCGGG CTTCGAGGGC
GATGTCGGCG GCAATACGGG CATTGCTGTG CGTGCGATAA CCCATTGGAA TTATGCATCC
ATTTCCAGAG GACGCACTGC GATTTTGACC CGGCTTCAGG AGGCTGGCAT TGCCAAGCCG
GAGAATTATA TATCGTTTCA CAGTCTGCGC AATCATTCGT ATCTGAACAA TACACCGATT
ACGGAGCTGA TCTATGTGCA TTCCAAGCTG CTAATTGCCG ACGATCGAGT TGTCATCTGT
GGATCGGCGA ACATTAACGA TCGCTCAATG ATCGGCAAAC GGGATTCGGA AATAGCAGCG
ATTATCATGG ATGAGGAGTA CGAAGATGGA CGCATGAATG GCAAGAAGTA TCCGAGCGGC
ATCTTTGCCG GCAGACTGCG CAAATATCTA TTCAAAGAGC ATTTGGGTTT ACTGGATTTG
GATGCTGCCA CATCGCACTC TGATATCAAT ATAAGTGATC CTGTCTGTGA TCAGTTCTGG
CACAACACCT GGCGTCGCAT CTCATCGAAA AACACGGAGA TTTACGATGA GGTATTCAAA
TGCATTCCAA CGGATTTTGT GAGGACATTC GCCAGTCTGC GCAAATATCA GGAGGAGCCA
CCGTTGTCCA AAACTGAACC CGAAACGGCC GCCAAGCGTG CCACAGAAAT TCAGGGACAT
CTGGTGAATC TGCCGCTGGA GTTCCTCAAT AAGGAGGTGC TAACGCCGCC CAATACCAGC
AAGGAGGGCC TCATACCTAC CTCTGTATGG ACATAGThe 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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- DNA Microarrays Enable New CRISPR/Cas9-based Peptide Library Display
- Cerebral Organoids Provide a Platform to Screen Alzheimer’s Drugs
- Driving Antibody Development through Improved Engineering Technologies
- Genetically Engineered Immune Cells
- Scientists developed an innovative, label-free approach for visualizing whole-brain changes in Alzheimer’s disease
- Anti-HIV Neutralizing and Non-neutralizing Antibody Functions: Relevance to Vaccine Development
- Researchers uncovered a new approach to treating antibiotic-resistant bacterial infections
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PubMed
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