This is a proposal to examine the genome structure of the amitochondriate, parasitic protist, Giardia lamblia. The selection of G. lamblia as a model organism for genome analysis is based on its well-recognized impact on human health, its relatively modest sized genome containing 12 million base pairs distributed onto five chromosomes, its basal position in molecular phylogenies, and the lack of several of the prominent organelles, (e.g. mitochondria and peroxisomes) that characterize most eukaryotic cells. The investigators will determine 900-1000 base pair sequences from both ends of at least 22,500 randomly selected blue script clones containing 3-3.5 kb inserts. Collectively this will provide greater than a threefold """"""""pass"""""""" or primary data for 97 percent of the genome. They will incorporate the sequence data gathered above with existing and future mapping data to assemble contigs for each of G. lamblia's five chromosomes. The initial sequence data will allow them to assemble the cosmid library into contigs covering 98 percent of Giardia genome. The investigators will use directed strategies to construct complete physical maps. They will use primer walking strategies on existing cosmid and plasmid clones to determine complete double strand sequences for coding regions and their flanking sequences which correspond to genetic elements that are conserved in more recently diverged eukaryotes or among the three primary domains (Eukarya, Bacteria and Archaea). Regions that correspond to variable surface gene clusters or developmentally expressed sequences (DESTs) will also be sequenced on both strands. Molecular phylogenetic techniques will be employed to assess patterns of molecular evolution for conserved genes. Analyses of genomic sequences from G. lamblia will be coupled with the functional genomics of this IRPG proposed by Francis Gillin. Together these applications may yield novel insights into the evolution of key pathways and organelles, variable surface proteins used by parasites to avoid host defense mechanisms, and novel genetic elements that lead to eukaryotic genome organization. The investigators estimate the total direct cost of the sequencing and mapping proposal (including informatics and phylogenetics) translates into less than $0.20/base.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI043273-02
Application #
2871583
Study Section
Genome Study Section (GNM)
Program Officer
Gottlieb, Michael
Project Start
1998-02-15
Project End
2003-01-31
Budget Start
1999-02-01
Budget End
2000-01-31
Support Year
2
Fiscal Year
1999
Total Cost
Indirect Cost
Name
Marine Biological Laboratory
Department
Type
DUNS #
001933779
City
Woods Hole
State
MA
Country
United States
Zip Code
02543
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Morrison, Hilary G; McArthur, Andrew G; Gillin, Frances D et al. (2007) Genomic minimalism in the early diverging intestinal parasite Giardia lamblia. Science 317:1921-6
Prabhu, Anjali; Morrison, Hilary G; Martinez 3rd, Charles R et al. (2007) Characterisation of the subtelomeric regions of Giardia lamblia genome isolate WBC6. Int J Parasitol 37:503-13
Ramesh, Marilee A; Malik, Shehre-Banoo; Logsdon Jr, John M (2005) A phylogenomic inventory of meiotic genes; evidence for sex in Giardia and an early eukaryotic origin of meiosis. Curr Biol 15:185-91
Weiland, Malin E-L; McArthur, Andrew G; Morrison, Hilary G et al. (2005) Annexin-like alpha giardins: a new cytoskeletal gene family in Giardia lamblia. Int J Parasitol 35:617-26
Best, Aaron A; Morrison, Hilary G; McArthur, Andrew G et al. (2004) Evolution of eukaryotic transcription: insights from the genome of Giardia lamblia. Genome Res 14:1537-47
Seshadri, Vishwas; McArthur, Andrew G; Sogin, Mitchell L et al. (2003) Giardia lamblia RNA polymerase II: amanitin-resistant transcription. J Biol Chem 278:27804-10
Reiner, David S; Hetsko, Michael L; Meszaros, J Gary et al. (2003) Calcium signaling in excystation of the early diverging eukaryote, Giardia lamblia. J Biol Chem 278:2533-40
Collins, Lesley J; Poole, Anthony M; Penny, David (2003) Using ancestral sequences to uncover potential gene homologues. Appl Bioinformatics 2:S85-95
Nixon, Julie E J; Field, Jessica; McArthur, Andrew G et al. (2003) Iron-dependent hydrogenases of Entamoeba histolytica and Giardia lamblia: activity of the recombinant entamoebic enzyme and evidence for lateral gene transfer. Biol Bull 204:1-9

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