A comprehensive genetic analysis of candidate genes regulating response to Trypanosoma congolense infection in mice.

A comprehensive genetic analysis of candidate genes regulating response to Trypanosoma congolense infection in mice.

African trypanosomes are protozoan parasites that cause "sleeping sickness" in humans and a similar disease in livestock. Trypanosomes also infect laboratory mice and three major quantitative trait loci (QTL) that regulate survival time after infection with T. congolense have been identifi...

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Main Authors: Ian Goodhead, Alan Archibald, Peris Amwayi, Andy Brass, John Gibson, Neil Hall, Margaret A Hughes, Moses Limo, Fuad Iraqi, Stephen J Kemp, Harry A Noyes
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2010-11-01
Series:PLoS Neglected Tropical Diseases
Online Access:http://europepmc.org/articles/PMC2976683?pdf=render
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spelling doaj-7ae0bb17c8334b9cbb8ff0ba766c01cf2020-11-24T20:51:03ZengPublic Library of Science (PLoS)PLoS Neglected Tropical Diseases1935-27271935-27352010-11-01411e88010.1371/journal.pntd.0000880A comprehensive genetic analysis of candidate genes regulating response to Trypanosoma congolense infection in mice.Ian GoodheadAlan ArchibaldPeris AmwayiAndy BrassJohn GibsonNeil HallMargaret A HughesMoses LimoFuad IraqiStephen J KempHarry A NoyesAfrican trypanosomes are protozoan parasites that cause "sleeping sickness" in humans and a similar disease in livestock. Trypanosomes also infect laboratory mice and three major quantitative trait loci (QTL) that regulate survival time after infection with T. congolense have been identified in two independent crosses between susceptible A/J and BALB/c mice, and the resistant C57BL/6. These were designated Tir1, Tir2 and Tir3 for Trypanosoma infection response, and range in size from 0.9-12 cM.Mapping loci regulating survival time after T. congolense infection in an additional cross revealed that susceptible C3H/HeJ mice have alleles that reduce survival time after infection at Tir1 and Tir3 QTL, but not at Tir2. Next-generation resequencing of a 6.2 Mbp region of mouse chromosome 17, which includes Tir1, identified 1,632 common single nucleotide polymorphisms (SNP) including a probably damaging non-synonymous SNP in Pram1 (PML-RAR alpha-regulated adaptor molecule 1), which was the most plausible candidate QTL gene in Tir1. Genome-wide comparative genomic hybridisation identified 12 loci with copy number variants (CNV) that correlate with differential gene expression, including Cd244 (natural killer cell receptor 2B4), which lies close to the peak of Tir3c and has gene expression that correlates with CNV and phenotype, making it a strong candidate QTL gene at this locus.By systematically combining next-generation DNA capture and sequencing, array-based comparative genomic hybridisation (aCGH), gene expression data and SNP annotation we have developed a strategy that can generate a short list of polymorphisms in candidate QTL genes that can be functionally tested.http://europepmc.org/articles/PMC2976683?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Ian Goodhead
Alan Archibald
Peris Amwayi
Andy Brass
John Gibson
Neil Hall
Margaret A Hughes
Moses Limo
Fuad Iraqi
Stephen J Kemp
Harry A Noyes
spellingShingle Ian Goodhead
Alan Archibald
Peris Amwayi
Andy Brass
John Gibson
Neil Hall
Margaret A Hughes
Moses Limo
Fuad Iraqi
Stephen J Kemp
Harry A Noyes
A comprehensive genetic analysis of candidate genes regulating response to Trypanosoma congolense infection in mice.
PLoS Neglected Tropical Diseases
author_facet Ian Goodhead
Alan Archibald
Peris Amwayi
Andy Brass
John Gibson
Neil Hall
Margaret A Hughes
Moses Limo
Fuad Iraqi
Stephen J Kemp
Harry A Noyes
author_sort Ian Goodhead
title A comprehensive genetic analysis of candidate genes regulating response to Trypanosoma congolense infection in mice.
title_short A comprehensive genetic analysis of candidate genes regulating response to Trypanosoma congolense infection in mice.
title_full A comprehensive genetic analysis of candidate genes regulating response to Trypanosoma congolense infection in mice.
title_fullStr A comprehensive genetic analysis of candidate genes regulating response to Trypanosoma congolense infection in mice.
title_full_unstemmed A comprehensive genetic analysis of candidate genes regulating response to Trypanosoma congolense infection in mice.
title_sort comprehensive genetic analysis of candidate genes regulating response to trypanosoma congolense infection in mice.
publisher Public Library of Science (PLoS)
series PLoS Neglected Tropical Diseases
issn 1935-2727
1935-2735
publishDate 2010-11-01
description African trypanosomes are protozoan parasites that cause "sleeping sickness" in humans and a similar disease in livestock. Trypanosomes also infect laboratory mice and three major quantitative trait loci (QTL) that regulate survival time after infection with T. congolense have been identified in two independent crosses between susceptible A/J and BALB/c mice, and the resistant C57BL/6. These were designated Tir1, Tir2 and Tir3 for Trypanosoma infection response, and range in size from 0.9-12 cM.Mapping loci regulating survival time after T. congolense infection in an additional cross revealed that susceptible C3H/HeJ mice have alleles that reduce survival time after infection at Tir1 and Tir3 QTL, but not at Tir2. Next-generation resequencing of a 6.2 Mbp region of mouse chromosome 17, which includes Tir1, identified 1,632 common single nucleotide polymorphisms (SNP) including a probably damaging non-synonymous SNP in Pram1 (PML-RAR alpha-regulated adaptor molecule 1), which was the most plausible candidate QTL gene in Tir1. Genome-wide comparative genomic hybridisation identified 12 loci with copy number variants (CNV) that correlate with differential gene expression, including Cd244 (natural killer cell receptor 2B4), which lies close to the peak of Tir3c and has gene expression that correlates with CNV and phenotype, making it a strong candidate QTL gene at this locus.By systematically combining next-generation DNA capture and sequencing, array-based comparative genomic hybridisation (aCGH), gene expression data and SNP annotation we have developed a strategy that can generate a short list of polymorphisms in candidate QTL genes that can be functionally tested.
url http://europepmc.org/articles/PMC2976683?pdf=render
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