Dahlke C

References (2)

Title : The sequence of the human genome - Venter_2001_Science_291_1304
Author(s) : Venter JC , Adams MD , Myers EW , Li PW , Mural RJ , Sutton GG , Smith HO , Yandell M , Evans CA , Holt RA , Gocayne JD , Amanatides P , Ballew RM , Huson DH , Wortman JR , Zhang Q , Kodira CD , Zheng XH , Chen L , Skupski M , Subramanian G , Thomas PD , Zhang J , Gabor Miklos GL , Nelson C , Broder S , Clark AG , Nadeau J , McKusick VA , Zinder N , Levine AJ , Roberts RJ , Simon M , Slayman C , Hunkapiller M , Bolanos R , Delcher A , Dew I , Fasulo D , Flanigan M , Florea L , Halpern A , Hannenhalli S , Kravitz S , Levy S , Mobarry C , Reinert K , Remington K , Abu-Threideh J , Beasley E , Biddick K , Bonazzi V , Brandon R , Cargill M , Chandramouliswaran I , Charlab R , Chaturvedi K , Deng Z , Di Francesco V , Dunn P , Eilbeck K , Evangelista C , Gabrielian AE , Gan W , Ge W , Gong F , Gu Z , Guan P , Heiman TJ , Higgins ME , Ji RR , Ke Z , Ketchum KA , Lai Z , Lei Y , Li Z , Li J , Liang Y , Lin X , Lu F , Merkulov GV , Milshina N , Moore HM , Naik AK , Narayan VA , Neelam B , Nusskern D , Rusch DB , Salzberg S , Shao W , Shue B , Sun J , Wang Z , Wang A , Wang X , Wang J , Wei M , Wides R , Xiao C , Yan C , Yao A , Ye J , Zhan M , Zhang W , Zhang H , Zhao Q , Zheng L , Zhong F , Zhong W , Zhu S , Zhao S , Gilbert D , Baumhueter S , Spier G , Carter C , Cravchik A , Woodage T , Ali F , An H , Awe A , Baldwin D , Baden H , Barnstead M , Barrow I , Beeson K , Busam D , Carver A , Center A , Cheng ML , Curry L , Danaher S , Davenport L , Desilets R , Dietz S , Dodson K , Doup L , Ferriera S , Garg N , Gluecksmann A , Hart B , Haynes J , Haynes C , Heiner C , Hladun S , Hostin D , Houck J , Howland T , Ibegwam C , Johnson J , Kalush F , Kline L , Koduru S , Love A , Mann F , May D , McCawley S , McIntosh T , McMullen I , Moy M , Moy L , Murphy B , Nelson K , Pfannkoch C , Pratts E , Puri V , Qureshi H , Reardon M , Rodriguez R , Rogers YH , Romblad D , Ruhfel B , Scott R , Sitter C , Smallwood M , Stewart E , Strong R , Suh E , Thomas R , Tint NN , Tse S , Vech C , Wang G , Wetter J , Williams S , Williams M , Windsor S , Winn-Deen E , Wolfe K , Zaveri J , Zaveri K , Abril JF , Guigo R , Campbell MJ , Sjolander KV , Karlak B , Kejariwal A , Mi H , Lazareva B , Hatton T , Narechania A , Diemer K , Muruganujan A , Guo N , Sato S , Bafna V , Istrail S , Lippert R , Schwartz R , Walenz B , Yooseph S , Allen D , Basu A , Baxendale J , Blick L , Caminha M , Carnes-Stine J , Caulk P , Chiang YH , Coyne M , Dahlke C , Mays A , Dombroski M , Donnelly M , Ely D , Esparham S , Fosler C , Gire H , Glanowski S , Glasser K , Glodek A , Gorokhov M , Graham K , Gropman B , Harris M , Heil J , Henderson S , Hoover J , Jennings D , Jordan C , Jordan J , Kasha J , Kagan L , Kraft C , Levitsky A , Lewis M , Liu X , Lopez J , Ma D , Majoros W , McDaniel J , Murphy S , Newman M , Nguyen T , Nguyen N , Nodell M , Pan S , Peck J , Peterson M , Rowe W , Sanders R , Scott J , Simpson M , Smith T , Sprague A , Stockwell T , Turner R , Venter E , Wang M , Wen M , Wu D , Wu M , Xia A , Zandieh A , Zhu X
Ref : Science , 291 :1304 , 2001
Abstract : A 2.91-billion base pair (bp) consensus sequence of the euchromatic portion of the human genome was generated by the whole-genome shotgun sequencing method. The 14.8-billion bp DNA sequence was generated over 9 months from 27,271,853 high-quality sequence reads (5.11-fold coverage of the genome) from both ends of plasmid clones made from the DNA of five individuals. Two assembly strategies-a whole-genome assembly and a regional chromosome assembly-were used, each combining sequence data from Celera and the publicly funded genome effort. The public data were shredded into 550-bp segments to create a 2.9-fold coverage of those genome regions that had been sequenced, without including biases inherent in the cloning and assembly procedure used by the publicly funded group. This brought the effective coverage in the assemblies to eightfold, reducing the number and size of gaps in the final assembly over what would be obtained with 5.11-fold coverage. The two assembly strategies yielded very similar results that largely agree with independent mapping data. The assemblies effectively cover the euchromatic regions of the human chromosomes. More than 90% of the genome is in scaffold assemblies of 100,000 bp or more, and 25% of the genome is in scaffolds of 10 million bp or larger. Analysis of the genome sequence revealed 26,588 protein-encoding transcripts for which there was strong corroborating evidence and an additional approximately 12,000 computationally derived genes with mouse matches or other weak supporting evidence. Although gene-dense clusters are obvious, almost half the genes are dispersed in low G+C sequence separated by large tracts of apparently noncoding sequence. Only 1.1% of the genome is spanned by exons, whereas 24% is in introns, with 75% of the genome being intergenic DNA. Duplications of segmental blocks, ranging in size up to chromosomal lengths, are abundant throughout the genome and reveal a complex evolutionary history. Comparative genomic analysis indicates vertebrate expansions of genes associated with neuronal function, with tissue-specific developmental regulation, and with the hemostasis and immune systems. DNA sequence comparisons between the consensus sequence and publicly funded genome data provided locations of 2.1 million single-nucleotide polymorphisms (SNPs). A random pair of human haploid genomes differed at a rate of 1 bp per 1250 on average, but there was marked heterogeneity in the level of polymorphism across the genome. Less than 1% of all SNPs resulted in variation in proteins, but the task of determining which SNPs have functional consequences remains an open challenge.
ESTHER : Venter_2001_Science_291_1304
PubMedSearch : Venter_2001_Science_291_1304
PubMedID: 11181995
Gene_locus related to this paper: human-AADAC , human-ABHD1 , human-ABHD10 , human-ABHD11 , human-ACHE , human-BCHE , human-LDAH , human-ABHD18 , human-CMBL , human-ABHD17A , human-KANSL3 , human-LIPA , human-LYPLAL1 , human-NDRG2 , human-NLGN3 , human-NLGN4X , human-NLGN4Y , human-PAFAH2 , human-PREPL , human-RBBP9 , human-SPG21

Title : The genome sequence of Drosophila melanogaster - Adams_2000_Science_287_2185
Author(s) : Adams MD , Celniker SE , Holt RA , Evans CA , Gocayne JD , Amanatides PG , Scherer SE , Li PW , Hoskins RA , Galle RF , George RA , Lewis SE , Richards S , Ashburner M , Henderson SN , Sutton GG , Wortman JR , Yandell MD , Zhang Q , Chen LX , Brandon RC , Rogers YH , Blazej RG , Champe M , Pfeiffer BD , Wan KH , Doyle C , Baxter EG , Helt G , Nelson CR , Gabor GL , Abril JF , Agbayani A , An HJ , Andrews-Pfannkoch C , Baldwin D , Ballew RM , Basu A , Baxendale J , Bayraktaroglu L , Beasley EM , Beeson KY , Benos PV , Berman BP , Bhandari D , Bolshakov S , Borkova D , Botchan MR , Bouck J , Brokstein P , Brottier P , Burtis KC , Busam DA , Butler H , Cadieu E , Center A , Chandra I , Cherry JM , Cawley S , Dahlke C , Davenport LB , Davies P , de Pablos B , Delcher A , Deng Z , Mays AD , Dew I , Dietz SM , Dodson K , Doup LE , Downes M , Dugan-Rocha S , Dunkov BC , Dunn P , Durbin KJ , Evangelista CC , Ferraz C , Ferriera S , Fleischmann W , Fosler C , Gabrielian AE , Garg NS , Gelbart WM , Glasser K , Glodek A , Gong F , Gorrell JH , Gu Z , Guan P , Harris M , Harris NL , Harvey D , Heiman TJ , Hernandez JR , Houck J , Hostin D , Houston KA , Howland TJ , Wei MH , Ibegwam C , Jalali M , Kalush F , Karpen GH , Ke Z , Kennison JA , Ketchum KA , Kimmel BE , Kodira CD , Kraft C , Kravitz S , Kulp D , Lai Z , Lasko P , Lei Y , Levitsky AA , Li J , Li Z , Liang Y , Lin X , Liu X , Mattei B , McIntosh TC , McLeod MP , McPherson D , Merkulov G , Milshina NV , Mobarry C , Morris J , Moshrefi A , Mount SM , Moy M , Murphy B , Murphy L , Muzny DM , Nelson DL , Nelson DR , Nelson KA , Nixon K , Nusskern DR , Pacleb JM , Palazzolo M , Pittman GS , Pan S , Pollard J , Puri V , Reese MG , Reinert K , Remington K , Saunders RD , Scheeler F , Shen H , Shue BC , Siden-Kiamos I , Simpson M , Skupski MP , Smith T , Spier E , Spradling AC , Stapleton M , Strong R , Sun E , Svirskas R , Tector C , Turner R , Venter E , Wang AH , Wang X , Wang ZY , Wassarman DA , Weinstock GM , Weissenbach J , Williams SM , WoodageT , Worley KC , Wu D , Yang S , Yao QA , Ye J , Yeh RF , Zaveri JS , Zhan M , Zhang G , Zhao Q , Zheng L , Zheng XH , Zhong FN , Zhong W , Zhou X , Zhu S , Zhu X , Smith HO , Gibbs RA , Myers EW , Rubin GM , Venter JC
Ref : Science , 287 :2185 , 2000
Abstract : The fly Drosophila melanogaster is one of the most intensively studied organisms in biology and serves as a model system for the investigation of many developmental and cellular processes common to higher eukaryotes, including humans. We have determined the nucleotide sequence of nearly all of the approximately 120-megabase euchromatic portion of the Drosophila genome using a whole-genome shotgun sequencing strategy supported by extensive clone-based sequence and a high-quality bacterial artificial chromosome physical map. Efforts are under way to close the remaining gaps; however, the sequence is of sufficient accuracy and contiguity to be declared substantially complete and to support an initial analysis of genome structure and preliminary gene annotation and interpretation. The genome encodes approximately 13,600 genes, somewhat fewer than the smaller Caenorhabditis elegans genome, but with comparable functional diversity.
ESTHER : Adams_2000_Science_287_2185
PubMedSearch : Adams_2000_Science_287_2185
PubMedID: 10731132
Gene_locus related to this paper: drome-1vite , drome-2vite , drome-3vite , drome-a1z6g9 , drome-abhd2 , drome-ACHE , drome-b6idz4 , drome-BEM46 , drome-CG5707 , drome-CG5704 , drome-CG1309 , drome-CG1882 , drome-CG1986 , drome-CG2059 , drome-CG2493 , drome-CG2528 , drome-CG2772 , drome-CG3160 , drome-CG3344 , drome-CG3523 , drome-CG3524 , drome-CG3734 , drome-CG3739 , drome-CG3744 , drome-CG3841 , drome-CG4267 , drome-CG4382 , drome-CG4390 , drome-CG4572 , drome-CG4582 , drome-CG4851 , drome-CG4979 , drome-CG5068 , drome-CG5162 , drome-CG5355 , drome-CG5377 , drome-CG5397 , drome-CG5412 , drome-CG5665 , drome-CG5932 , drome-CG5966 , drome-CG6018 , drome-CG6113 , drome-CG6271 , drome-CG6283 , drome-CG6295 , drome-CG6296 , drome-CG6414 , drome-CG6431 , drome-CG6472 , drome-CG6567 , drome-CG6675 , drome-CG6753 , drome-CG6847 , drome-CG7329 , drome-CG7367 , drome-CG7529 , drome-CG7632 , drome-CG8058 , drome-CG8093 , drome-CG8233 , drome-CG8424 , drome-CG8425 , drome-CG9059 , drome-CG9186 , drome-CG9287 , drome-CG9289 , drome-CG9542 , drome-CG9858 , drome-CG9953 , drome-CG9966 , drome-CG10116 , drome-CG10163 , drome-CG10175 , drome-CG10339 , drome-CG10357 , drome-CG10982 , drome-CG11034 , drome-CG11055 , drome-CG11309 , drome-CG11319 , drome-CG11406 , drome-CG11598 , drome-CG11600 , drome-CG11608 , drome-CG11626 , drome-CG11935 , drome-CG12108 , drome-CG12869 , drome-CG13282 , drome-CG13562 , drome-CG13772 , drome-CG14034 , drome-nlg3 , drome-CG14717 , drome-CG15101 , drome-CG15102 , drome-CG15106 , drome-CG15111 , drome-CG15820 , drome-CG15821 , drome-CG15879 , drome-CG17097 , drome-CG17099 , drome-CG17101 , drome-CG17191 , drome-CG17192 , drome-CG17292 , drome-CG18258 , drome-CG18284 , drome-CG18301 , drome-CG18302 , drome-CG18493 , drome-CG18530 , drome-CG18641 , drome-CG18815 , drome-CG31089 , drome-CG31091 , drome-CG32333 , drome-CG32483 , drome-CG33174 , drome-dnlg1 , drome-este4 , drome-este6 , drome-GH02384 , drome-GH02439 , drome-glita , drome-KRAKEN , drome-lip1 , drome-LIP2 , drome-lip3 , drome-MESK2 , drome-nrtac , drome-OME , drome-q7k274 , drome-Q9VJN0 , drome-Q8IP31 , drome-q9vux3