GSE136910 Processing Pipeline

RNA-Seq code_examples 2 steps

Publication

Suppression of Endothelial AGO1 Promotes Adipose Tissue Browning and Improves Metabolic Dysfunction.

Circulation (2020) — PMID 32393053

Dataset

GSE136910

RNA Seq of Subcutaneous adipose tissue from endothelial-AGO1-knockout (EC-AGO1-KO) mice and wild-type (WT) littermates

Warning: Pipeline descriptions and code snippets may be inferred or AI-generated. Use them only as a starting point to guide analysis, and validate before use.

Processing Steps

Generate Jupyter Notebook
  1. 1

    STAR2.6.0a was used to align reads to the genome with default parameters

    STAR v2.6.0a GitHub
    $ Bash example 
    # Install STAR (example using conda)
# conda install -c bioconda star=2.6.0a

# Placeholder for reference genome index directory
# Replace with the actual path to your STAR genome index for the relevant genome (e.g., hg38, mm10)
GENOME_INDEX_DIR="/path/to/your/genome/index/hg38"

# Placeholder for input FASTQ file(s)
# Replace with your actual input FASTQ file(s). For paired-end, use --readFilesIn R1.fastq R2.fastq
READS_FILE="reads.fastq.gz"

# Placeholder for number of threads
# Adjust based on available resources
NUM_THREADS=8

# Placeholder for output file prefix
OUTPUT_PREFIX="aligned_reads_"

# Align reads to the genome using STAR with default parameters (version 2.6.0a)
STAR --genomeDir "${GENOME_INDEX_DIR}" \
     --readFilesIn "${READS_FILE}" \
     --runThreadN "${NUM_THREADS}" \
     --outFileNamePrefix "${OUTPUT_PREFIX}"
    View on GitHub
  2. 2

    Kallisto0.44.0 was used to quantify transcripts abundance in terms of TPM

    Kallisto v0.44.0 GitHub
    $ Bash example 
    # Install Kallisto (example using conda)
# conda install -c bioconda kallisto=0.44.0

# Placeholder for Kallisto index creation (if not already done)
# Replace 'transcripts.fasta' with your reference transcriptome FASTA file.
# kallisto index -i transcriptome.idx transcripts.fasta

# Quantify transcripts abundance in terms of TPM
# Replace 'transcriptome.idx' with your Kallisto index file.
# Replace 'read1.fastq.gz' and 'read2.fastq.gz' with your actual input FASTQ files.
# Replace 'output_dir' with your desired output directory.
kallisto quant -i transcriptome.idx -o output_dir read1.fastq.gz read2.fastq.gz
    View on GitHub

Tools Used

STAR
Raw Source Text 
STAR2.6.0a was used to align reads to the genome with default parameters
Kallisto0.44.0 was used to quantify transcripts abundance in terms of TPM
Genome_build: mm10
Supplementary_files_format_and_content: tab-delimited text files include TPM values
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