Genomic Minimalism in the Early Diverging Intestinal Parasite <i>Giardia lamblia</i>

Hilary G. Morrison; Andrew G. McArthur; Frances D. Gillin; Stephen B. Aley; Rodney D. Adam; Gary J. Olsen; Aaron A. Best; W. Zacheus Cande; Feng Chen; Michael J. Cipriano; Barbara J. Davids; Scott C. Dawson; Heidi G. Elmendorf; Adrian B. Hehl; Michael Holder; Susan M. Huse; Ulandt U. Kim; Erica Lasek‐Nesselquist; Gerard Manning; Anuranjini Nigam; Julie Nixon; Daniel Palm; Nora E. Passamaneck; Anjali Prabhu; Claudia I. Reich; David S. Reiner; John Samuelson; Staffan G. Svärd; Mitchell L. Sogin

doi:10.1126/science.1143837

Genomic Minimalism in the Early Diverging Intestinal Parasite <i>Giardia lamblia</i>

Hilary G. Morrison(Marine Biological Laboratory), Andrew G. McArthur(Marine Biological Laboratory), Frances D. Gillin(Marine Biological Laboratory), Stephen B. Aley(Marine Biological Laboratory), Rodney D. Adam(Marine Biological Laboratory), Gary J. Olsen(Marine Biological Laboratory), Aaron A. Best(Marine Biological Laboratory), W. Zacheus Cande(Marine Biological Laboratory), Feng Chen(Marine Biological Laboratory), Michael J. Cipriano(Marine Biological Laboratory), Barbara J. Davids(Marine Biological Laboratory), Scott C. Dawson(Marine Biological Laboratory), Heidi G. Elmendorf(Marine Biological Laboratory), Adrian B. Hehl(Marine Biological Laboratory), Michael Holder(Marine Biological Laboratory), Susan M. Huse(Marine Biological Laboratory), Ulandt U. Kim(Marine Biological Laboratory), Erica Lasek‐Nesselquist(Marine Biological Laboratory), Gerard Manning(Marine Biological Laboratory), Anuranjini Nigam(Marine Biological Laboratory), Julie Nixon(Marine Biological Laboratory), Daniel Palm(Marine Biological Laboratory), Nora E. Passamaneck(Marine Biological Laboratory), Anjali Prabhu(Marine Biological Laboratory), Claudia I. Reich(Marine Biological Laboratory), David S. Reiner(Marine Biological Laboratory), John Samuelson(Marine Biological Laboratory), Staffan G. Svärd(Marine Biological Laboratory), Mitchell L. Sogin(Marine Biological Laboratory)

Science

September 27, 2007

10.1126/science.1143837

Cited by 829

Abstract

The genome of the eukaryotic protist Giardia lamblia, an important human intestinal parasite, is compact in structure and content, contains few introns or mitochondrial relics, and has simplified machinery for DNA replication, transcription, RNA processing, and most metabolic pathways. Protein kinases comprise the single largest protein class and reflect Giardia's requirement for a complex signal transduction network for coordinating differentiation. Lateral gene transfer from bacterial and archaeal donors has shaped Giardia's genome, and previously unknown gene families, for example, cysteine-rich structural proteins, have been discovered. Unexpectedly, the genome shows little evidence of heterozygosity, supporting recent speculations that this organism is sexual. This genome sequence will not only be valuable for investigating the evolution of eukaryotes, but will also be applied to the search for new therapeutics for this parasite.

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