Limma and time-course data
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@michael-watson-iah-c-378
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@sean-davis-490
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On 2/28/06 7:30 AM, "michael watson (IAH-C)" <michael.watson at="" bbsrc.ac.uk=""> wrote: > Hi > > Googling the list shows this up to be a rather hot topic, but I just > wanted to ask a few more questions. > > Firstly, it seems the plan for tackling time course data within limma is > to treat each time-point/treatment combination as a coefficient to be > estimated. Thus, to ask "which genes are changing over time", one must > fit contrasts that compare every single time point to every other time > point, pairwise, and look for any gene that is significant in one or > more of those comparisons. Is that correct? I would say that this is only one of several ways of analyzing time- course data, and perhaps not the best one for all situations. In fact, sometimes I have the best solution to be simple filtering of genes followed by clustering and display, but I think the "correct" solution depends on the experimental design (numbers of time points, for example) and goals (for example, it doesn't help a biologist to have 2000 genes in a list if the goal is to find 10 transcription factors that seem to be affected at any time point). For limma, you could use decideTests, for example, to give you some sense of genes that are changing in the experiment. Or you could filter for those genes that are changing at the "maximal" time point and then show those genes for all the timepoints on a heatmap--this will allow the biologist to quickly focus on genes of interest. Sean
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@michael-watson-iah-c-378
Last seen 10.2 years ago
To complete my original mail, I guess I was referring to this approach: http://bioinf.wehi.edu.au/marray/jsm2005/lab5/lab5.html -----Original Message----- From: Sean Davis [mailto:sdavis2@mail.nih.gov] Sent: 28 February 2006 13:22 To: michael watson (IAH-C); Bioconductor Subject: Re: [BioC] Limma and time-course data On 2/28/06 7:30 AM, "michael watson (IAH-C)" <michael.watson at="" bbsrc.ac.uk=""> wrote: > Hi > > Googling the list shows this up to be a rather hot topic, but I just > wanted to ask a few more questions. > > Firstly, it seems the plan for tackling time course data within limma > is to treat each time-point/treatment combination as a coefficient to > be estimated. Thus, to ask "which genes are changing over time", one > must fit contrasts that compare every single time point to every other > time point, pairwise, and look for any gene that is significant in one > or more of those comparisons. Is that correct? I would say that this is only one of several ways of analyzing time-course data, and perhaps not the best one for all situations. In fact, sometimes I have the best solution to be simple filtering of genes followed by clustering and display, but I think the "correct" solution depends on the experimental design (numbers of time points, for example) and goals (for example, it doesn't help a biologist to have 2000 genes in a list if the goal is to find 10 transcription factors that seem to be affected at any time point). For limma, you could use decideTests, for example, to give you some sense of genes that are changing in the experiment. Or you could filter for those genes that are changing at the "maximal" time point and then show those genes for all the timepoints on a heatmap--this will allow the biologist to quickly focus on genes of interest. Sean
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Ana Conesa ▴ 140
@ana-conesa-925
Last seen 10.2 years ago
Dear Michael, You might want to have a look at the package maSigPro for the analysis of microarry time-course data. The method evaluates differences in gene expression along time and between experimetal conditions without focussing on specific time points, but analyzing gene expression trends. Ana On Tue, 28 Feb 2006 12:30:47 -0000, michael watson \(IAH-C\) wrote > Hi > > Googling the list shows this up to be a rather hot topic, but I just > wanted to ask a few more questions. > > Firstly, it seems the plan for tackling time course data within > limma is to treat each time-point/treatment combination as a > coefficient to be estimated. Thus, to ask "which genes are changing > over time", one must fit contrasts that compare every single time > point to every other time point, pairwise, and look for any gene > that is significant in one or more of those comparisons. Is that correct? > > I am also a tad confused by the documentation, which states (on page > 47): > > "> cont.wt <- makeContrasts( > + "wt.6hr-wt.0hr", > + "wt.24hr-wt.6hr", > + levels=design) > > fit2 <- contrasts.fit(fit, cont.wt) > > fit2 <- eBayes(fit2) > > Any two contrasts between the three times would give the same result. > The same gene list > would be obtained had "wt.24hr-wt.0hr" been used in place of > "wt.24hr-wt.6hr" for example." > > I'm confused why "wt.24hr-wt.0hr" and "wt.24hr-wt.6hr" would give the > same gene list. The first looks for differences in wt between time > points 0 and 24, and the second looks for differences between time > points 6 and 24. > > I guess, to me, this all seems a bit verbose and difficult, particularly > for large time-course experiments where many biologists want to > subset their data to those genes that change over time and thus want > to ask the question "does time have an effect on the expression of > my gene?" and are not particularly bothered, at this stage, which > particular time points those genes differ at. > > Thanks in advance > > Mick > > [[alternative HTML version deleted]] > > _______________________________________________ > Bioconductor mailing list > Bioconductor at stat.math.ethz.ch > https://stat.ethz.ch/mailman/listinfo/bioconductor -- IVIA (http://www.ivia.es) Open WebMail Project (http://openwebmail.org) Debian Project (http://www.debian.org)
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