Things to check:
- Are you able to login into NeSI (If not please get in touch with Dini - dinindu.senanayake@nesi.org.nz)
- Do you have RStudio installed on your laptop
Once you login to NeSI, you will see a folder RNA_seq in your home directory:
$ cd RNA_seq
$ ls -F
Genome/ Raw/
If you see the RNA_seq directory with 2 sub-directories: Genome/ and Raw/, yayyy you are good to go.
If not, no pressure, we can still copy the RNA_seq directory to your home directory.
$ cp -r /nesi/nobackup/nesi02659/RNA_seq/ /home/Your_Username
$ ls
RNA_seq
These are the packages needed for the differential expression analysis
# Older versions of R (older than 3.5)
> source("https://bioconductor.org/biocLite.R")
> biocLite("DESeq2")
# Newer versions of R
> if (!requireNamespace("BiocManager", quietly = TRUE))
install.packages("BiocManager")
> BiocManager::install("DESeq2")
# Installing edgeR will also install limma as it is a dependency package
> BiocManager::install("edgeR")
# systemPipeR: R package for building and running automated end-to-end analysis workflows for a wide range of next generation sequence (NGS) applications such as RNA-Seq, ChIP-Seq, VAR-Seq and Ribo-Seq.
> BiocManager::install("systemPipeR")
# goseq: R package for detecting Gene Ontology and/or other user defined categories which are over/under represented in RNA-seq data
> BiocManager::install("goseq")
# ggplot: is a data visualization package
> install.packages("ggplot2")
# org.Sc.sgd.db: Genome wide annotation for Yeast, primarily based on mapping using ORF identifiers from SGD.
> BiocManager::install("org.Sc.sgd.db")
# venn: Draws and displays Venn diagrams up to 7 sets, and any Boolean union of set intersections.
> install.packages("venn")