Hyperdiverse Gene Cluster in Snail Host Conveys Resistance to Human Schistosome Parasites: e1005067

Schistosomiasis, a neglected global pandemic, may be curtailed by blocking transmission of the parasite via its intermediate hosts, aquatic snails. Elucidating the genetic basis of snail-schistosome interaction is a key to this strategy. Here we map a natural parasite-resistance polymorphism from a...

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Veröffentlicht in:	PLoS genetics 2015-03, Vol.11 (3)
Hauptverfasser:	Tennessen, Jacob A, Théron, André, Marine, Melanie, Yeh, Jan-Ying, Rognon, Anne, Blouin, Michael S
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Schlagworte:	Biomphalaria glabrata Experiments Genes Genetic engineering Genomics Haplotypes Infections Mollusks Parasites Schistosoma mansoni Tropical diseases
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creator	Tennessen, Jacob A Théron, André Marine, Melanie Yeh, Jan-Ying Rognon, Anne Blouin, Michael S
description	Schistosomiasis, a neglected global pandemic, may be curtailed by blocking transmission of the parasite via its intermediate hosts, aquatic snails. Elucidating the genetic basis of snail-schistosome interaction is a key to this strategy. Here we map a natural parasite-resistance polymorphism from a Caribbean population of the snail Biomphalaria glabrata. In independent experimental evolution lines, RAD genotyping shows that the same genomic region responds to selection for resistance to the parasite Schistosoma mansoni. A dominant allele in this region conveys an 8-fold decrease in the odds of infection. Fine-mapping and RNA-Seq characterization reveal a 25%) haplotypes across the GRC, a significantly non-neutral pattern, suggests that balancing selection maintains diversity at the GRC. Thus, the GRC resembles immune gene complexes seen in other taxa and is likely involved in parasite recognition. The GRC is a potential target for controlling transmission of schistosomiasis, including via genetic manipulation of snails.
doi_str_mv	10.1371/journal.pgen.1005067
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Elucidating the genetic basis of snail-schistosome interaction is a key to this strategy. Here we map a natural parasite-resistance polymorphism from a Caribbean population of the snail Biomphalaria glabrata. In independent experimental evolution lines, RAD genotyping shows that the same genomic region responds to selection for resistance to the parasite Schistosoma mansoni. A dominant allele in this region conveys an 8-fold decrease in the odds of infection. Fine-mapping and RNA-Seq characterization reveal a <1Mb region, the Guadeloupe Resistance Complex (GRC), with 15 coding genes. Seven genes are single-pass transmembrane proteins with putative immunological roles, most of which show strikingly high nonsynonymous divergence (5-10%) among alleles. High linkage disequilibrium among three intermediate-frequency (>25%) haplotypes across the GRC, a significantly non-neutral pattern, suggests that balancing selection maintains diversity at the GRC. Thus, the GRC resembles immune gene complexes seen in other taxa and is likely involved in parasite recognition. The GRC is a potential target for controlling transmission of schistosomiasis, including via genetic manipulation of snails.</abstract><cop>San Francisco</cop><pub>Public Library of Science</pub><doi>10.1371/journal.pgen.1005067</doi><oa>free_for_read</oa></addata></record>
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subjects	Biomphalaria glabrata Experiments Genes Genetic engineering Genomics Haplotypes Infections Mollusks Parasites Schistosoma mansoni Tropical diseases
title	Hyperdiverse Gene Cluster in Snail Host Conveys Resistance to Human Schistosome Parasites: e1005067
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