Draft Genome of the Filarial Nematode Parasite <i>Brugia malayi</i>

Elodie Ghedin; Shiliang Wang; David Spiro; Elisabet Caler; Qi Zhao; Jonathan Crabtree; Jonathan Allen; Arthur L. Delcher; David B. Guiliano; Diego Miranda‐Saavedra; Samuel V. Angiuoli; Todd Creasy; Paolo Amedeo; Brian J. Haas; Najib M. El-Sayed; Jennifer R. Wortman; Tamara V. Feldblyum; Luke J. Tallon; Michael C. Schatz; Martin Shumway; Hyunwoo Koo; Steven L. Salzberg; Seth Schobel; Mihaela Pertea; Mihai Pop; Owen White; Geoffrey J. Barton; Clotilde K. S. Carlow; Michael J. Crawford; Jennifer Daub; Matthew W. Dimmic; Chris F. Estes; Jeremy M. Foster; Mehul B. Ganatra; William F. Gregory; Nicholas Johnson; Jinming Jin; Richard Komuniecki; Ian Korf; Sanjay Kumar; Sandra J. Laney; Ben‐Wen Li; Wen Li; Tim H. Lindblom; Sara Lustigman; Dong Ma; Claude V. Maina; David Martin; James P. McCarter; Larry McReynolds; Makedonka Mitreva; Thomas B. Nutman; John Parkinson; José M. Peregrín-Alvarez; Catherine B. Poole; Qinghu Ren; Lori Saunders; Ann E. Sluder; Katherine A. Smith; Mario Stanke; Thomas R. Unnasch; Jenna Ware; Aguan Wei; Gary J. Weil; Deryck J. Williams; Yinhua Zhang; Steven A. Williams; Claire M. Fraser; Barton E. Slatko; Mark Blaxter; Alan L. Scott

doi:10.1126/science.1145406

Draft Genome of the Filarial Nematode Parasite <i>Brugia malayi</i>

Elodie Ghedin(New England Biolabs (United States)), Shiliang Wang(New England Biolabs (United States)), David Spiro(New England Biolabs (United States)), Elisabet Caler(New England Biolabs (United States)), Qi Zhao(New England Biolabs (United States)), Jonathan Crabtree(New England Biolabs (United States)), Jonathan Allen(New England Biolabs (United States)), Arthur L. Delcher(New England Biolabs (United States)), David B. Guiliano(New England Biolabs (United States)), Diego Miranda‐Saavedra(New England Biolabs (United States)), Samuel V. Angiuoli(New England Biolabs (United States)), Todd Creasy(New England Biolabs (United States)), Paolo Amedeo(New England Biolabs (United States)), Brian J. Haas(New England Biolabs (United States)), Najib M. El-Sayed(New England Biolabs (United States)), Jennifer R. Wortman(New England Biolabs (United States)), Tamara V. Feldblyum(New England Biolabs (United States)), Luke J. Tallon(New England Biolabs (United States)), Michael C. Schatz(New England Biolabs (United States)), Martin Shumway(New England Biolabs (United States)), Hyunwoo Koo(New England Biolabs (United States)), Steven L. Salzberg(New England Biolabs (United States)), Seth Schobel(New England Biolabs (United States)), Mihaela Pertea(New England Biolabs (United States)), Mihai Pop(New England Biolabs (United States)), Owen White(New England Biolabs (United States)), Geoffrey J. Barton(New England Biolabs (United States)), Clotilde K. S. Carlow(New England Biolabs (United States)), Michael J. Crawford(New England Biolabs (United States)), Jennifer Daub(New England Biolabs (United States)), Matthew W. Dimmic(New England Biolabs (United States)), Chris F. Estes(New England Biolabs (United States)), Jeremy M. Foster(New England Biolabs (United States)), Mehul B. Ganatra(New England Biolabs (United States)), William F. Gregory(New England Biolabs (United States)), Nicholas Johnson(New England Biolabs (United States)), Jinming Jin(New England Biolabs (United States)), Richard Komuniecki(New England Biolabs (United States)), Ian Korf(New England Biolabs (United States)), Sanjay Kumar(New England Biolabs (United States)), Sandra J. Laney(New England Biolabs (United States)), Ben‐Wen Li(New England Biolabs (United States)), Wen Li(New England Biolabs (United States)), Tim H. Lindblom(New England Biolabs (United States)), Sara Lustigman(New England Biolabs (United States)), Dong Ma(New England Biolabs (United States)), Claude V. Maina(New England Biolabs (United States)), David Martin(New England Biolabs (United States)), James P. McCarter(New England Biolabs (United States)), Larry McReynolds(New England Biolabs (United States)), Makedonka Mitreva(New England Biolabs (United States)), Thomas B. Nutman(New England Biolabs (United States)), John Parkinson(New England Biolabs (United States)), José M. Peregrín-Alvarez(New England Biolabs (United States)), Catherine B. Poole(New England Biolabs (United States)), Qinghu Ren(New England Biolabs (United States)), Lori Saunders(New England Biolabs (United States)), Ann E. Sluder(New England Biolabs (United States)), Katherine A. Smith(New England Biolabs (United States)), Mario Stanke(New England Biolabs (United States)), Thomas R. Unnasch(New England Biolabs (United States)), Jenna Ware(New England Biolabs (United States)), Aguan Wei(New England Biolabs (United States)), Gary J. Weil(New England Biolabs (United States)), Deryck J. Williams(New England Biolabs (United States)), Yinhua Zhang(New England Biolabs (United States)), Steven A. Williams(New England Biolabs (United States)), Claire M. Fraser(New England Biolabs (United States)), Barton E. Slatko(New England Biolabs (United States)), Mark Blaxter(New England Biolabs (United States)), Alan L. Scott(New England Biolabs (United States))

Science

September 20, 2007

10.1126/science.1145406

Cited by 623Open Access

Full Text

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.

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