Allen JE

References (4)

Title : Draft genome of the filarial nematode parasite Brugia malayi - Ghedin_2007_Science_317_1756
Author(s) : Ghedin E , Wang S , Spiro D , Caler E , Zhao Q , Crabtree J , Allen JE , Delcher AL , Guiliano DB , Miranda-Saavedra D , Angiuoli SV , Creasy T , Amedeo P , Haas B , El-Sayed NM , Wortman JR , Feldblyum T , Tallon L , Schatz M , Shumway M , Koo H , Salzberg SL , Schobel S , Pertea M , Pop M , White O , Barton GJ , Carlow CK , Crawford MJ , Daub J , Dimmic MW , Estes CF , Foster JM , Ganatra M , Gregory WF , Johnson NM , Jin J , Komuniecki R , Korf I , Kumar S , Laney S , Li BW , Li W , Lindblom TH , Lustigman S , Ma D , Maina CV , Martin DM , McCarter JP , McReynolds L , Mitreva M , Nutman TB , Parkinson J , Peregrin-Alvarez JM , Poole C , Ren Q , Saunders L , Sluder AE , Smith K , Stanke M , Unnasch TR , Ware J , Wei AD , Weil G , Williams DJ , Zhang Y , Williams SA , Fraser-Liggett C , Slatko B , Blaxter ML , Scott AL
Ref : Science , 317 :1756 , 2007
Abstract : Parasitic nematodes that cause elephantiasis and river blindness threaten hundreds of millions of people in the developing world. We have sequenced the approximately 90 megabase (Mb) genome of the human filarial parasite Brugia malayi and predict approximately 11,500 protein coding genes in 71 Mb of robustly assembled sequence. Comparative analysis with the free-living, model nematode Caenorhabditis elegans revealed that, despite these genes having maintained little conservation of local synteny during approximately 350 million years of evolution, they largely remain in linkage on chromosomal units. More than 100 conserved operons were identified. Analysis of the predicted proteome provides evidence for adaptations of B. malayi to niches in its human and vector hosts and insights into the molecular basis of a mutualistic relationship with its Wolbachia endosymbiont. These findings offer a foundation for rational drug design.
ESTHER : Ghedin_2007_Science_317_1756
PubMedSearch : Ghedin_2007_Science_317_1756
PubMedID: 17885136
Gene_locus related to this paper: bruma-a8ndk6 , bruma-a8njt8 , bruma-a8nl88 , bruma-a8npi4 , bruma-a8npi6 , bruma-a8p6g9 , bruma-a8pah3 , bruma-a8pc38 , bruma-a8pek5 , bruma-a8piq4 , bruma-a8pnw8 , bruma-a8psu4 , bruma-a8pte1 , bruma-a8q606 , bruma-a8q632 , bruma-a8q937 , bruma-a8qav5 , bruma-a8qbd9 , bruma-a8qgj6 , bruma-a8qh78 , bruma-a8q143 , bruma-a0a024mej5 , bruma-a0a0k0jju9 , bruma-a0a0i9n517

Title : The genome of the basidiomycetous yeast and human pathogen Cryptococcus neoformans - Loftus_2005_Science_307_1321
Author(s) : Loftus BJ , Fung E , Roncaglia P , Rowley D , Amedeo P , Bruno D , Vamathevan J , Miranda M , Anderson IJ , Fraser JA , Allen JE , Bosdet IE , Brent MR , Chiu R , Doering TL , Donlin MJ , D'Souza CA , Fox DS , Grinberg V , Fu J , Fukushima M , Haas BJ , Huang JC , Janbon G , Jones SJ , Koo HL , Krzywinski MI , Kwon-Chung JK , Lengeler KB , Maiti R , Marra MA , Marra RE , Mathewson CA , Mitchell TG , Pertea M , Riggs FR , Salzberg SL , Schein JE , Shvartsbeyn A , Shin H , Shumway M , Specht CA , Suh BB , Tenney A , Utterback TR , Wickes BL , Wortman JR , Wye NH , Kronstad JW , Lodge JK , Heitman J , Davis RW , Fraser CM , Hyman RW
Ref : Science , 307 :1321 , 2005
Abstract : Cryptococcus neoformans is a basidiomycetous yeast ubiquitous in the environment, a model for fungal pathogenesis, and an opportunistic human pathogen of global importance. We have sequenced its approximately 20-megabase genome, which contains approximately 6500 intron-rich gene structures and encodes a transcriptome abundant in alternatively spliced and antisense messages. The genome is rich in transposons, many of which cluster at candidate centromeric regions. The presence of these transposons may drive karyotype instability and phenotypic variation. C. neoformans encodes unique genes that may contribute to its unusual virulence properties, and comparison of two phenotypically distinct strains reveals variation in gene content in addition to sequence polymorphisms between the genomes.
ESTHER : Loftus_2005_Science_307_1321
PubMedSearch : Loftus_2005_Science_307_1321
PubMedID: 15653466
Gene_locus related to this paper: cryne-apth1 , cryne-ppme1 , cryne-q5k7g1 , cryne-q5k7h2 , cryne-q5k7p6 , cryne-q5k8p2 , cryne-q5k8s0 , cryne-q5k9e7 , cryne-q5k9p3 , cryne-q5k9y9 , cryne-q5k721 , cryne-q5k987 , cryne-q5ka03 , cryne-q5ka24 , cryne-q5ka58 , cryne-q5kat4 , cryne-q5kav3 , cryne-q5kbu4 , cryne-q5kbw4 , cryne-q5kc00 , cryne-q5kec5 , cryne-q5kei3 , cryne-q5kei7 , cryne-q5ker2 , cryne-q5key5 , cryne-q5kf48 , cryne-q5kfk6 , cryne-q5kfz0 , cryne-q5kgq3 , cryne-q5kh37 , cryne-q5khb0 , cryne-q5khb9 , cryne-q5kip7 , cryne-q5kiu5 , cryne-q5kj56 , cryne-q5kjf8 , cryne-q5kjh3 , cryne-q5kjp9 , cryne-q5kjw7 , cryne-q5kky1 , cryne-q5kkz7 , cryne-q5kl13 , cryne-q5klu9 , cryne-q5km63 , cryne-q5kme9 , cryne-q5kni1 , cryne-q5knq0 , cryne-q5knr2 , cryne-q5knw0 , cryne-q5kq08 , cryne-Q5KCH9 , cryne-q55ta1 , cryne-q5kjh4 , crynj-q5knp8 , crynj-q5kpe0

Title : The transcriptional landscape of the mammalian genome - Carninci_2005_Science_309_1559
Author(s) : Carninci P , Kasukawa T , Katayama S , Gough J , Frith MC , Maeda N , Oyama R , Ravasi T , Lenhard B , Wells C , Kodzius R , Shimokawa K , Bajic VB , Brenner SE , Batalov S , Forrest AR , Zavolan M , Davis MJ , Wilming LG , Aidinis V , Allen JE , Ambesi-Impiombato A , Apweiler R , Aturaliya RN , Bailey TL , Bansal M , Baxter L , Beisel KW , Bersano T , Bono H , Chalk AM , Chiu KP , Choudhary V , Christoffels A , Clutterbuck DR , Crowe ML , Dalla E , Dalrymple BP , de Bono B , Della Gatta G , di Bernardo D , Down T , Engstrom P , Fagiolini M , Faulkner G , Fletcher CF , Fukushima T , Furuno M , Futaki S , Gariboldi M , Georgii-Hemming P , Gingeras TR , Gojobori T , Green RE , Gustincich S , Harbers M , Hayashi Y , Hensch TK , Hirokawa N , Hill D , Huminiecki L , Iacono M , Ikeo K , Iwama A , Ishikawa T , Jakt M , Kanapin A , Katoh M , Kawasawa Y , Kelso J , Kitamura H , Kitano H , Kollias G , Krishnan SP , Kruger A , Kummerfeld SK , Kurochkin IV , Lareau LF , Lazarevic D , Lipovich L , Liu J , Liuni S , McWilliam S , Madan Babu M , Madera M , Marchionni L , Matsuda H , Matsuzawa S , Miki H , Mignone F , Miyake S , Morris K , Mottagui-Tabar S , Mulder N , Nakano N , Nakauchi H , Ng P , Nilsson R , Nishiguchi S , Nishikawa S , Nori F , Ohara O , Okazaki Y , Orlando V , Pang KC , Pavan WJ , Pavesi G , Pesole G , Petrovsky N , Piazza S , Reed J , Reid JF , Ring BZ , Ringwald M , Rost B , Ruan Y , Salzberg SL , Sandelin A , Schneider C , Schonbach C , Sekiguchi K , Semple CA , Seno S , Sessa L , Sheng Y , Shibata Y , Shimada H , Shimada K , Silva D , Sinclair B , Sperling S , Stupka E , Sugiura K , Sultana R , Takenaka Y , Taki K , Tammoja K , Tan SL , Tang S , Taylor MS , Tegner J , Teichmann SA , Ueda HR , van Nimwegen E , Verardo R , Wei CL , Yagi K , Yamanishi H , Zabarovsky E , Zhu S , Zimmer A , Hide W , Bult C , Grimmond SM , Teasdale RD , Liu ET , Brusic V , Quackenbush J , Wahlestedt C , Mattick JS , Hume DA , Kai C , Sasaki D , Tomaru Y , Fukuda S , Kanamori-Katayama M , Suzuki M , Aoki J , Arakawa T , Iida J , Imamura K , Itoh M , Kato T , Kawaji H , Kawagashira N , Kawashima T , Kojima M , Kondo S , Konno H , Nakano K , Ninomiya N , Nishio T , Okada M , Plessy C , Shibata K , Shiraki T , Suzuki S , Tagami M , Waki K , Watahiki A , Okamura-Oho Y , Suzuki H , Kawai J , Hayashizaki Y
Ref : Science , 309 :1559 , 2005
Abstract : This study describes comprehensive polling of transcription start and termination sites and analysis of previously unidentified full-length complementary DNAs derived from the mouse genome. We identify the 5' and 3' boundaries of 181,047 transcripts with extensive variation in transcripts arising from alternative promoter usage, splicing, and polyadenylation. There are 16,247 new mouse protein-coding transcripts, including 5154 encoding previously unidentified proteins. Genomic mapping of the transcriptome reveals transcriptional forests, with overlapping transcription on both strands, separated by deserts in which few transcripts are observed. The data provide a comprehensive platform for the comparative analysis of mammalian transcriptional regulation in differentiation and development.
ESTHER : Carninci_2005_Science_309_1559
PubMedSearch : Carninci_2005_Science_309_1559
PubMedID: 16141072
Gene_locus related to this paper: mouse-abhd1 , mouse-abhd3 , mouse-abhd4 , mouse-acot4 , mouse-adcl4 , mouse-DGLB , mouse-ephx3 , mouse-Kansl3 , mouse-lipli , mouse-LIPN , mouse-Ppgb , mouse-q3uuq7 , mouse-srac1 , mouse-Tex30 , mouse-tmco4 , mouse-tmm53 , mouse-f172a

Title : Genome sequence and comparative analysis of the model rodent malaria parasite Plasmodium yoelii yoelii - Carlton_2002_Nature_419_512
Author(s) : Carlton JM , Angiuoli SV , Suh BB , Kooij TW , Pertea M , Silva JC , Ermolaeva MD , Allen JE , Selengut JD , Koo HL , Peterson JD , Pop M , Kosack DS , Shumway MF , Bidwell SL , Shallom SJ , Van Aken SE , Riedmuller SB , Feldblyum TV , Cho JK , Quackenbush J , Sedegah M , Shoaibi A , Cummings LM , Florens L , Yates JR , Raine JD , Sinden RE , Harris MA , Cunningham DA , Preiser PR , Bergman LW , Vaidya AB , van Lin LH , Janse CJ , Waters AP , Smith HO , White OR , Salzberg SL , Venter JC , Fraser CM , Hoffman SL , Gardner MJ , Carucci DJ
Ref : Nature , 419 :512 , 2002
Abstract : Species of malaria parasite that infect rodents have long been used as models for malaria disease research. Here we report the whole-genome shotgun sequence of one species, Plasmodium yoelii yoelii, and comparative studies with the genome of the human malaria parasite Plasmodium falciparum clone 3D7. A synteny map of 2,212 P. y. yoelii contiguous DNA sequences (contigs) aligned to 14 P. falciparum chromosomes reveals marked conservation of gene synteny within the body of each chromosome. Of about 5,300 P. falciparum genes, more than 3,300 P. y. yoelii orthologues of predominantly metabolic function were identified. Over 800 copies of a variant antigen gene located in subtelomeric regions were found. This is the first genome sequence of a model eukaryotic parasite, and it provides insight into the use of such systems in the modelling of Plasmodium biology and disease.
ESTHER : Carlton_2002_Nature_419_512
PubMedSearch : Carlton_2002_Nature_419_512
PubMedID: 12368865
Gene_locus related to this paper: playo-PY04076 , playo-PY04938 , playo-PY05572 , playo-q7pdu6 , playo-q7r7y2 , playo-q7rbj8 , playo-q7rdk4 , playo-q7rgi9 , playo-q7rh25 , playo-q7rki0 , playo-q7rl68 , playo-q7rl69 , playo-q7rmm1 , playo-q7rn16 , playo-q7rpk0 , playo-q7rq09 , playo-q7rq49 , playo-q7rq68