Browsing by Subject "Transcriptome analysis"
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- ItemOpen AccessHeritability in the efficiency of nonsense-mediated mRNA decay in humans(Public Library of Science, 2010) Seoighe, Cathal; Gehring, ChrisBACKGROUND: In eukaryotes mRNA transcripts of protein-coding genes in which an intron has been retained in the coding region normally result in premature stop codons and are therefore degraded through the nonsense-mediated mRNA decay (NMD) pathway. There is evidence in the form of selective pressure for in-frame stop codons in introns and a depletion of length three introns that this is an important and conserved quality-control mechanism. Yet recent reports have revealed that the efficiency of NMD varies across tissues and between individuals, with important clinical consequences. Principal FINDINGS: Using previously published Affymetrix exon microarray data from cell lines genotyped as part of the International HapMap project, we investigated whether there are heritable, inter-individual differences in the abundance of intron-containing transcripts, potentially reflecting differences in the efficiency of NMD. We identified intronic probesets using EST data and report evidence of heritability in the extent of intron expression in 56 HapMap trios. We also used a genome-wide association approach to identify genetic markers associated with intron expression. Among the top candidates was a SNP in the DCP1A gene, which forms part of the decapping complex, involved in NMD. CONCLUSIONS: While we caution that some of the apparent inter-individual difference in intron expression may be attributable to different handling or treatments of cell lines, we hypothesize that there is significant polymorphism in the process of NMD, resulting in heritable differences in the abundance of intronic mRNA. Part of this phenotype is likely to be due to a polymorphism in a decapping enzyme on human chromosome 3.
- ItemOpen AccessIn vivo molecular dissection of the effects of HIV-1 in active tuberculosis(Public Library of Science, 2016) Bell, Lucy C K; Pollara, Gabriele; Pascoe, Mellissa; Tomlinson, Gillian S; Lehloenya, Rannakoe J; Roe, Jennifer; Meldau, Richard; Miller, Robert F; Ramsay, Alan; Chain, Benjamin M; Dheda, Keertan; Noursadeghi, MahdadAuthor Summary HIV-1 infected people have substantially increased risk of tuberculosis (TB) leading to a large burden of disease worldwide. We aimed to investigate how HIV-1 causes this effect by altering human immune responses. We measured the products of all immune genes at injection sites of sterilized TB under the skin, in order to look for differences between TB patients with and without HIV-1. We found that the predominant effect of early HIV-1 infection was to diminish a component of immune responses that contributes to prevention of harmful inflammation. In more advanced HIV-1, we found almost complete absence of any immune response to TB except for immune activity which is normally part of our defence against viruses, but may also weaken immune protection against TB. In some patients, TB becomes apparent after starting treatment for HIV-1. In these patients we found that most immune responses had recovered to normal levels, but that one type of response sometimes associated with asthma and allergies was exaggerated. Our findings provide new insights into how HIV-1 can affect immune responses and changes to the immune system that are associated with risk of TB, which will inform the development of new strategies to improve protective immunity.