Changes in version 3.18.0: o roast.DGEList(), mroast.DGEList(), fry.DGEList() and camera.DGEList() now have explicit arguments instead of passing arguments with ... to the default method. o New function scaleOffset() to ensure scale of offsets are consistent with library sizes. o Added decideTests() S3 methods for DGEExact and DGELRT objects. It now works for F-tests with multiple contrasts. o Report log-fold changes for redundant contrasts in F-tests with multiple contrasts. o Modified plotMD() S3 method for DGELRT and DGEExact objects. It now automatically uses decideTests() and highlights the DE genes on the MD plot. o New argument 'plot' in plotMDS.DGEList(). o Removed S3 length methods for data objects. o gini() now support NA values and avoids integer overflow. Changes in version 3.16.0: o estimateDisp() now respects weights in calculating the APLs. o Added design matrix to the output of estimateDisp(). o glmFit() constructs design matrix, if design=NULL, from y$samples$group. o New argument 'null' in glmTreat(), and a change in how p-values are calculated by default. o Modified the default 'main' in plotMD(). o Created a new S3 class, compressedMatrix, to store offsets and weights efficiently. o Added the makeCompressedMatrix() function to make a compressedMatrix object. o Switched storage of offsets in DGEGLM objects to use the compressedMatrix class. o Added the addPriorCount() function for adding prior counts. o Modified spliceVariants() calculation of the average log-CPM. o Migrated some internal calculations and checks to C++ for greater efficiency. Changes in version 3.14.0: o estimateDisp(), estimateCommonDisp(), estimateTrendedDisp(), estimateTagwiseDisp(), splitIntoGroups() and equalizeLibSizes() are now S3 generic functions. o The default method of estimateGLMTrendedDisp() and estimateGLMTagwiseDisp() now only return dispersion estimates instead of a list. o The DGEList method of estimateDisp(), estimateCommonDisp() and estimateGLMCommonDisp() now use the common dispersion estimate to compute AveLogCPM and store it in the output. o Add fry method for DGEList objects. o Import R core packages explicitly. o New function gini() to compute Gini coefficients. o New argument poisson.bound for glmQLFTest(). If TRUE (default), the p-value returned by glmQLFTest() will never be less than what would be obtained for a likelihood ratio test with NB dispersion equal to zero. o New argument samples for DGEList(). It takes a data frame containing information for each sample. o glmFit() now protects against zero library sizes and infinite offset values. o glmQLFit.default() now avoids passing a NULL design to .residDF(). o cpm.default() now outputs a matrix of the same dimensions as the input even when the input has 0 row or 0 column. o DGEList() pops up a warning message when zero lib.size is detected. o Bug fix to calcNormFactors(method="TMM") when two libraries have identical counts but the lib.sizes have been set unequal. o Add a CRISPR-Cas9 screen case study to the users' guide and rename Nigerian case study to Yoruba. Changes in version 3.12.0: o New argument tagwise for estimateDisp(), allowing users not to estimate tagwise dispersions. o estimateTrendedDisp() has more stable performance and does not return negative trended dispersion estimates. o New plotMD methods for DGEList, DGEGLM, DGEExact and DGELRT objects to make a mean-difference plot (aka MA plot). o readDGE() now recognizes HTSeq style meta genes. o Remove the F-test in glmLRT(). o New argument contrast for diffSpliceDGE(), allowing users to specify the testing contrast. o glmTreat() returns both logFC and unshrunk.logFC in the output table. o New method implemented in glmTreat() to increase the power of the test. o New kegga methods for DGEExact and DGELRT objects to perform KEGG pathway analysis of differentially expressed genes using Entrez Gene IDs. o New dimnames<- methods for DGEExact and DGELRT objects. o Bug fix to dimnames<- method for DGEGLM objects. o User's Guide updated. Three old case studies are replaced by two new comprehensive case studies. Changes in version 3.10.0: o An DGEList method for romer() has been added, allowing access to rotation gene set enrichment analysis. o New function dropEmptyLevels() to remove unused levels from a factor. o New argument p.value for topTags(), allowing users to apply a p-value or FDR cutoff for the results. o New argument prior.count for aveLogCPM(). o New argument pch for the plotMDS method for DGEList objects. Old argument col is now removed, but can be passed using .... Various other improvements to the plotMDS method for DGEList objects, better labelling of the axes and protection against degenerate dimensions. o treatDGE() is renamed as glmTreat(). It can now optionally work with either likelihood ratio tests or with quasi-likelihood F-tests. o glmQLFit() is now an S3 generic function. o glmQLFit() now breaks the output component s2.fit into three separate components: df.prior, var.post and var.prior. o estimateDisp() now protects against fitted values of zeros, giving more accurate dispersion estimates. o DGEList() now gives a message rather than an error when the count matrix has non-unique column names. o Minor corrections to User's Guide. o requireNamespace() is now used internally instead of require() to access functions in suggested packages. Changes in version 3.8.0: o New goana() methods for DGEExact and DGELRT objects to perform Gene Ontology analysis of differentially expressed genes using Entrez Gene IDs. o New functions diffSpliceDGE(), topSpliceDGE() and plotSpliceDGE() for detecting differential exon usage and displaying results. o New function treatDGE() that tests for DE relative to a specified log2-FC threshold. o glmQLFTest() is split into three functions: glmQLFit() for fitting quasi-likelihood GLMs, glmQLFTest() for performing quasi-likelihood F-tests and plotQLDisp() for plotting quasi-likelihood dispersions. o processHairpinReads() renamed to processAmplicons() and allows for paired end data. o glmFit() now stores unshrunk.coefficients from prior.count=0 as well as shrunk coefficients. o estimateDisp() now has a min.row.sum argument to protect against all zero counts. o APL calculations in estimateDisp() are hot-started using fitted values from previous dispersions, to avoid discontinuous APL landscapes. o adjustedProfileLik() is modified to accept starting coefficients. glmFit() now passes starting coefficients to mglmOneGroup(). o calcNormFactors() is now a S3 generic function. o The SAGE datasets from Zhang et al (1997) are no longer included with the edgeR package. Changes in version 3.6.0: o Improved treatment of fractional counts. Previously the classic edgeR pipeline permitted fractional counts but the glm pipeline did not. edgeR now permits fractional counts throughout. o All glm-based functions in edgeR now accept quantitative observation-level weights. The glm fitting function mglmLS() and mglmSimple() are retired, and all glm fitting is now done by either mglmLevenberg() or mglmOneWay(). o New capabilities for robust estimation allowing for observation-level outliers. In particular, the new function estimateGLMRobustDisp() computes a robust dispersion estimate for each gene. o More careful calculation of residual df in the presence of exactly zero fitted values for glmQLFTest() and estimateDisp(). The new code allows for deflation of residual df for more complex experimental designs. o New function processHairpinReads() for analyzing data from shRNA-seq screens. o New function sumTechReps() to collapse counts over technical replicate libraries. o New functions nbinomDeviance() and nbinomUnitDeviance. Old function deviances.function() removed. o New function validDGEList(). o rpkm() is now a generic function, and it now tries to find the gene lengths automatically if available from the annotation information in a DGEList object. o Subsetting a DGEList object now has the option of resetting to the library sizes to the new column sums. Internally, the subsetting code for DGEList, DGEExact, DGEGLM, DGELRT and TopTags data objects has been simplified using the new utility function subsetListOfArrays in the limma package. o To strengthen the interface and to strengthen the object-orientated nature of the functions, the DGEList methods for estimateDisp(), estimateGLMCommonDisp(), estimateGLMTrendedDisp() and estimateGLMTagwiseDisp no longer accept offset, weights or AveLogCPM as arguments. These quantities are now always taken from the DGEList object. o The User's Guide has new sections on read alignment, producing a table of counts, and on how to translate scientific questions into contrasts when using a glm. o camera.DGEList(), roast.DGEList() and mroast.DGEList() now include ... argument. o The main computation of exactTestByDeviance() now implemented in C++ code. o The big.count argument has been removed from functions exactTestByDeviance() and exactTestBySmallP(). o New default value for offset in dispCoxReid. o More tolerant error checking for dispersion value when computing aveLogCPM(). o aveLogCPM() now returns a value even when all the counts are zero. o The functions is.fullrank and nonEstimable are now imported from limma. Changes in version 3.4.0: o estimateDisp() now creates the design matrix correctly when the design matrix is not given as an argument and there is only one group. Previously this case gave an error. o plotMDS.DGEList now gives a friendly error message when there are fewer than 3 data columns. o Updates to DGEList() so that arguments lib.size, group and norm.factors are now set to their defaults in the function definition rather than set to NULL. However NULL is still accepted as a possible value for these arguments in the function call, in which case the default value is used as if the argument was missing. o Refinement to cutWithMinN() to make the bin numbers more equal in the worst case. Also a bug fix so that cutWithMinN() does not fail even when there are many repeated x values. o Refinement to computation for nbins in dispBinTrend. Now changes more smoothly with the number of genes. trace argument is retired. o Updates to help pages for the data classes. o Fixes to calcNormFactors with method="TMM" so that it takes account of lib.size and refCol if these are preset. o Bug fix to glmQLFTest when plot=TRUE but abundance.trend=FALSE. o predFC() with design=NULL now uses normalization factors correctly. However this use of predFC() to compute counts per million is being phased out in favour of cpm(). Changes in version 3.2.0: o The User's Guide has a new section on between and within subject designs and a new case study on RNA-seq profiling of unrelated Nigerian individuals. Section 2.9 (item 2) now gives a code example of how to pre-specify the dispersion value. o New functions estimateDisp() and WLEB() to automate the estimation of common, trended and tagwise dispersions. The function estimateDisp() provides a simpler alternative pipeline and in principle replaces all the other dispersion estimation functions, for both glms and for classic edgeR. It can also incorporate automatic estimation of the prior degrees of freedom, and can do this in a robust fashion. o glmLRT() now permits the contrast argument to be a matrix with multiple columns, making the treatment of this argument analogous to that of the coef argument. o glmLRT() now has a new F-test option. This option takes into account the uncertainty with which the dispersion is estimated and is more conservative than the default chi-square test. o glmQLFTest() has a number of important improvements. It now has a simpler alternative calling sequence: it can take either a fitted model object as before, or it can take a DGEList object and design matrix and do the model fit itself. If provided with a fitted model object, it now checks whether the dispersion is of a suitable type (common or trended). It now optionally produces a plot of the raw and shrunk residual mean deviances versus AveLogCPM. It now has the option of robustifying the empirical Bayes step. It now has a more careful calculation of residual df that takes special account of cases where all replicates in a group are identically zero. o The gene set test functions roast(), mroast() and camera() now have methods defined for DGEList data objects. This facilitates gene set testing and pathway analysis of expression profiles within edgeR. o The default method of plotMDS() for DGEList objects has changed. The new default forms log-counts-per-million and computes Euclidean distances. The old method based on BCV-distances is available by setting method="BCV". The annotation of the plot axes has been improved so that the distance method used is apparent from the plot. o The argument prior.count.total used for shrinking log-fold-changes has been changed to prior.count in various functions throughout the package, and now refers to the average prior.count per observation rather than the total prior count across a transcript. The treatment of prior.counts has also been changed very slightly in cpm() when log=TRUE. o New function aveLogCPM() to compute the average log count per million for each transcript across all libraries. This is now used by all functions in the package to set AveLogCPM, which is now the standard measure of abundance. The value for AveLogCPM is now computed just once, and not updated when the dispersion is estimated or when a linear model is fitted. glmFit() now preserves the AveLogCPM vector found in the DGEList object rather than recomputing it. The use of the old abundance measure is being phased out. o The glm dispersion estimation functions are now much faster. o New function rpkm() to compute reads per kilobase per million (RPKM). o New option method="none" for calcNormFactors(). o The default span used by dispBinTrend() has been reduced. o Various improvements to internal C++ code. o Functions binCMLDispersion() and bin.dispersion() have been removed as obsolete. o Bug fix to subsetting for DGEGLM objects. o Bug fix to plotMDS.DGEList to make consistent use of norm.factors. Changes in version 3.0.0: o New chapter in the User's Guide covering a number of common types of experimental designs, including multiple groups, multiple factors and additive models. New sections in the User's Guide on clustering and on making tables of read counts. Many other updates to the User's Guide and to the help pages. o New function edgeRUsersGuide() to open the User's Guide in a pdf viewer. o Many functions have made faster by rewriting the core computations in C++. This includes adjustedProfileLik(), mglmLevenberg(), maximizeInterpolant() and goodTuring(). o New argument verbose for estimateCommonDisp() and estimateGLMCommonDisp(). o The trended dispersion methods based on binning and interpolation have been rewritten to give more stable results when the number of genes is not large. o The amount by which the tagwise dispersion estimates are squeezed towards the global value is now specified in estimateTagwiseDisp(), estimateGLMTagwiseDisp() and dispCoxReidInterpolateTagwise() by specifying the prior degrees of freedom prior.df instead of the prior number of samples prior.n. o The weighted likelihood empirical Bayes code has been simplified or developed in a number of ways. The old functions weightedComLik() and weightedComLikMA() are now removed as no longer required. o The functions estimateSmoothing() and approx.expected.info() have been removed as no longer recommended. o The span used by estimateGLMTagwiseDisp() is now chosen by default as a decreasing function of the number of tags in the dataset. o New method "loess" for the trend argument of estimateTagwiseDisp, with "tricube" now treated as a synonym. o New functions loessByCol() and locfitByCol() for smoothing columns of matrix by non-robust loess curves. These functions are used in the weighted likelihood empirical Bayes procedures to compute local common likelihood. o glmFit now shrinks the estimated fold-changes towards zero. The default shrinkage is as for exactTest(). o predFC output is now on the natural log scale instead of log2. o mglmLevenberg() is now the default glm fitting algorithm, avoiding the occasional errors that occurred previously with mglmLS(). o The arguments of glmLRT() and glmQLFTest() have been simplified so that the argument y, previously the first argument of glmLRT, is no longer required. o glmQLFTest() now ensures that no p-value is smaller than what would be obtained by treating the likelihood ratio test statistic as chisquare. o glmQLFTest() now treats tags with all zero counts in replicate arrays as having zero residual df. o gof() now optionally produces a qq-plot of the genewise goodness of fit statistics. o Argument null.hypothesis removed from equalizeLibSizes(). o DGEList no longer outputs a component called all.zeros. o goodTuring() no longer produces a plot. Instead there is a new function goodTuringPlot() for plotting log-probability versus log-frequency. goodTuring() has a new argument 'conf' giving the confidence factor for the linear regression approximation. o Added plot.it argument to maPlot(). Changes in version 2.6.0: o edgeR now depends on limma. o Considerable work on the User's Guide. New case study added on Pathogen inoculated arabidopsis illustrating a two group comparison with batch effects. All the other case studies have been updated and streamlined. New section explaining why adjustments for GC content and mappability are not necessary in a differential expression context. o New and more intuitive column headings for topTags() output. 'logFC' is now the first column. Log-concentration is now replaced by log-counts-per-million ('logCPM'). 'PValue' replaces 'P.Value'. These column headings are now inserted in the table of results by exactTest() and glmLRT() instead of being modified by the show method for the TopTags object generated by topTags(). This means that the column names will be correct even when users access the fitted model objects directly instead of using the show method. o plotSmear() and plotMeanVar() now use logCPM instead of logConc. o New function glmQLFTest() provides quasi-likelihood hypothesis testing using F-tests, as an alternative to likelihood ratio tests using the chisquare distribution. o New functions normalizeChIPtoInput() and calcNormOffsetsforChIP() for normalization of ChIP-Seq counts relative to input control. o New capabilities for formal shrinkage of the logFC. exactTest() now incorporates formal shrinkage of the logFC, controlled by argument 'prior.count.total'. predFC() provides similar shrinkage capability for glms. o estimateCommonDisp() and estimateGLMCommonDisp() now set the dispersion to NA when there is no replication, instead of setting the dispersion to zero. This means that users will need to set a dispersion value explicitly to use functions further down the analysis pipeline. o New function estimateTrendedDisp() analogous to estimateGLMTrendedDisp() but for classic edgeR. o The algorithms implemented in estimateTagwiseDisp() now uses fewer grid points but interpolates, similar to estimateGLMTagwiseDisp(). o The power trend fitted by dispCoxReidPowerTrend() now includes a positive asymptote. This greatly improves the fit on real data sets. This now becomes the default method for estimateGLMTrendedDisp() when the number of genes is less than 200. o New user-friendly function plotBCV() displays estimated dispersions. o New argument target.size for thinCounts(). o New utility functions getDispersion() and zscoreNBinom(). o dimnames() methods for DGEExact, DGELRT and TopTags classes. o Function pooledVar() removed as no longer necessary. o Minor fixes to various functions to ensure correct results in special cases. Changes in version 2.4.0: o New function spliceVariants() for detecting alternative exon usage from exon-level count data. o A choice of rejection regions is now implemented for exactTest(), and the default is changed from one based on small probabilities to one based on doubling the smaller of the tail probabilities. This gives better results than the original conditional test when the dispersion is large (especially > 1). A Beta distribution approximation to the tail probability is also implemented when the counts are large, making exactTest() much faster and less memory hungry. o estimateTagwiseDisp() now includes an abundance trend on the dispersions by default. o exactTest() now uses tagwise.dispersion by default if found in the object. o estimateCRDisp() is removed. It is now replaced by estimateGLMCommonDisp(), estimateGLMTrendedDisp() and estimateGLMTagwiseDisp(). o Changes to glmFit() so that it automatically detects dispersion estimates if in data object. It uses tagwise if available, then trended, then common. o Add getPriorN() to calculate the weight given to the common parameter likelihood in order to smooth (or stabilize) the dispersion estimates. Used as default for estimateTagwiseDisp and estimateGLMTagwiseDisp(). o New function cutWithMinN() used in binning methods. o glmFit() now S3 generic function, and glmFit() has new method argument specifying fitting algorithm. o DGEGLM objects now subsettable. o plotMDS.dge() is retired, instead a DGEList method is now defined for plotMDS() in the limma package. One advantage is that the plot can be repeated with different graphical parameters without recomputing the distances. The MDS method is also now much faster. o Add as.data.frame method for TopTags objects. o New function cpm() to calculate counts per million conveniently. o Adding args to dispCoxReidInterpolateTagwise() to give more access to tuning parameters. o estimateGLMTagwiseDisp() now uses trended.dispersion by default if trended.dispersion is found. o Change to glmLRT() to ensure character coefficient argument will work. o Change to maPlot() so that any really extreme logFCs are brought back to a more reasonable scale. o estimateGLMCommonDisp() now returns NA when there are no residual df rather than returning dispersion of zero. o The trend computation of the local common likelihood in dispCoxReidInterpolateTagwise() is now based on moving averages rather than lowess. o Changes to binGLMDispersion() to allow trended dispersion for data sets with small numbers of genes, but with extra warnings. o dispDeviance() and dispPearson() now give graceful estimates and messages when the dispersion is outside the specified interval. o Bug fix to mglmOneWay(), which was confusing parametrizations when the design matrix included negative values. o mglmOneWay() (and hence glmFit) no longer produces NA coefficients when some of the fitted values were exactly zero. o Changes to offset behaviour in estimateGLMCommonDisp(), estimateGLMTrendedDisp() and estimateGLMTagwiseDisp() to fix bug. Changes to several other functions on the way to fixing bugs when computing dispersions in data sets with genes that have all zero counts. o Bug fix to mglmSimple() with matrix offset. o Bug fix to adjustedProfLik() when there are fitted values exactly at zero for one or more groups.