Shoaibi A

References (3)

Title : Genome sequence of Theileria parva, a bovine pathogen that transforms lymphocytes - Gardner_2005_Science_309_134
Author(s) : Gardner MJ , Bishop R , Shah T , de Villiers EP , Carlton JM , Hall N , Ren Q , Paulsen IT , Pain A , Berriman M , Wilson RJ , Sato S , Ralph SA , Mann DJ , Xiong Z , Shallom SJ , Weidman J , Jiang L , Lynn J , Weaver B , Shoaibi A , Domingo AR , Wasawo D , Crabtree J , Wortman JR , Haas B , Angiuoli SV , Creasy TH , Lu C , Suh B , Silva JC , Utterback TR , Feldblyum TV , Pertea M , Allen J , Nierman WC , Taracha EL , Salzberg SL , White OR , Fitzhugh HA , Morzaria S , Venter JC , Fraser CM , Nene V
Ref : Science , 309 :134 , 2005
Abstract : We report the genome sequence of Theileria parva, an apicomplexan pathogen causing economic losses to smallholder farmers in Africa. The parasite chromosomes exhibit limited conservation of gene synteny with Plasmodium falciparum, and its plastid-like genome represents the first example where all apicoplast genes are encoded on one DNA strand. We tentatively identify proteins that facilitate parasite segregation during host cell cytokinesis and contribute to persistent infection of transformed host cells. Several biosynthetic pathways are incomplete or absent, suggesting substantial metabolic dependence on the host cell. One protein family that may generate parasite antigenic diversity is not telomere-associated.
ESTHER : Gardner_2005_Science_309_134
PubMedSearch : Gardner_2005_Science_309_134
PubMedID: 15994558
Gene_locus related to this paper: thepa-q4mzr2 , thepa-q4n0b4 , thepa-q4n2i4 , thepa-q4n4i8 , thepa-q4n5d6 , thepa-q4n5m4 , thepa-q4n006 , thepa-q4n9g7 , thepa-q4n315 , thepa-q4n349 , thepa-q4n803

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

Title : Sequence of Plasmodium falciparum chromosomes 2, 10, 11 and 14 - Gardner_2002_Nature_419_531
Author(s) : Gardner MJ , Shallom SJ , Carlton JM , Salzberg SL , Nene V , Shoaibi A , Ciecko A , Lynn J , Rizzo M , Weaver B , Jarrahi B , Brenner M , Parvizi B , Tallon L , Moazzez A , Granger D , Fujii C , Hansen C , Pederson J , Feldblyum T , Peterson J , Suh B , Angiuoli S , Pertea M , Allen J , Selengut J , White O , Cummings LM , Smith HO , Adams MD , Venter JC , Carucci DJ , Hoffman SL , Fraser CM
Ref : Nature , 419 :531 , 2002
Abstract : The mosquito-borne malaria parasite Plasmodium falciparum kills an estimated 0.7-2.7 million people every year, primarily children in sub-Saharan Africa. Without effective interventions, a variety of factors-including the spread of parasites resistant to antimalarial drugs and the increasing insecticide resistance of mosquitoes-may cause the number of malaria cases to double over the next two decades. To stimulate basic research and facilitate the development of new drugs and vaccines, the genome of Plasmodium falciparum clone 3D7 has been sequenced using a chromosome-by-chromosome shotgun strategy. We report here the nucleotide sequences of chromosomes 10, 11 and 14, and a re-analysis of the chromosome 2 sequence. These chromosomes represent about 35% of the 23-megabase P. falciparum genome.
ESTHER : Gardner_2002_Nature_419_531
PubMedSearch : Gardner_2002_Nature_419_531
PubMedID: 12368868
Gene_locus related to this paper: plafa-MAL3P8.11