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Fishpond: downstream methods and tools for expression data
Fishpond contains a method, swish()
, for differential transcript and
gene expression analysis of RNA-seq data using inferential replicates.
Also the package contains utilities for working with Salmon,
alevin, and alevin-fry quantification data, including
loadFry()
.
Quick start
The following paradigm is used for running a Swish analysis:
y <- tximeta(coldata) # reads in counts and inf reps
y <- scaleInfReps(y) # scales counts
y <- labelKeep(y) # labels features to keep
set.seed(1) # for reproducibility
y <- swish(y, x="condition") # simplest Swish case
How does Swish work
Swish accounts for inferential uncertainty in expression estimates by averaging test statistics over a number of inferential replicate datasets, either posterior samples or bootstrap samples. This is inspired by a method called SAMseq, hence we named our method Swish, for "SAMseq With Inferential Samples Helps". Averaging over inferential replicates produces a different test statistic than what one would obtain using only point estimates for expression level.
For example, one of the tests possible with swish()
is a correlation
test of expression level over a condition variable. We can visualize
the distribution of inferential replicates with plotInfReps()
:
The test statistic is formed by averaging over these sets of data:
p-values and q-values are computed through permutation of samples (see vignette for details on permutation schemes).
The Swish method is described in the following publication:
Zhu, A., Srivastava, A., Ibrahim, J.G., Patro, R., Love, M.I. "Nonparametric expression analysis using inferential replicate counts" Nucleic Acids Research (2019) 47(18):e105 PMC6765120
The SEESAW method for allelic expression analysis is described in the following preprint:
Euphy Wu, Noor P. Singh, Kwangbom Choi, Mohsen Zakeri, Matthew Vincent, Gary A. Churchill, Cheryl L. Ackert-Bicknell, Rob Patro, Michael I. Love. "Detecting isoform-level allelic imbalance accounting for inferential uncertainty" bioRxiv (2022) doi: 10.1101/2022.08.12.503785
Installation
This package can be installed via Bioconductor:
BiocManager::install("fishpond")
Funding
This work was funded by NIH NHGRI R01-HG009937.