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Sample GSM4365695

Query DataSets for GSM4365695

Status

Public on Jun 04, 2021

Title

atxr5/atxr6 rep2 (RNAseq)

Sample type

SRA

Source name

3 old weeks leaves

Organism

Arabidopsis thaliana

Characteristics

ecotype: Col0
tissue: leaves
age: 3 weeks
genotype: atxr5/atxr6 mutant

Growth protocol

Arabidopsis plants were grown under cool‐white fluorescent lights (approximately 100 μmol m−2 s−1) in long‐day conditions (16 h light/8 h dark).

Extracted molecule

total RNA

Extraction protocol

RNA samples were prepared from three-week old leaf tissue using the RNeasy Plant Mini Kit (Qiagen).
RNA samples were prepared from three-week old leaf tissue using the RNeasy Plant Mini Kit (Qiagen). RNA and ChIP sequencing libraries were prepared at the Yale Center for Genome Analysis (YCGA). RNA samples were quantified and checked for quality using the Agilent 2100 Bioanalyzer Nano RNA Assay. Library preparation was performed using Illumina’s TruSeq Stranded Total RNA with Ribo-Zero Plant in which samples were normalized with a total RNA input of 1 mg and library amplification with 8 PCR cycles.

Library strategy

RNA-Seq

Library source

transcriptomic

Library selection

cDNA

Instrument model

Illumina NovaSeq 6000

Description

GeneMatriceCount.tab
TEMatrixCount.tab

Data processing

RNA-seq processing and Analysis:Two independent biological replicates for Col, atxr5/6, gcn5 and atxr5/6 gcn5 were sequenced. Paired-end reads were filtered and trimmed using BBTools (version 38.79). Reads with quality inferior to 20 were removed. The resulting data sets were aligned against the Arabidopis genome (TAIR10) using STAR (version 2.7.2a) allowing 2 mismatches (--outFilterMismatchNmax 2). Protein-coding genes and transposable elements (TE) were defined as described in the TAIR10 annotation gff3 file. The program featureCounts (version 1.6.4) (12) was used to count the paired-end fragments overlapping with the annotated protein-coding genes and TEs. Differential expression analysis of protein-coding genes was performed using DESeq2 version 1.26 on raw read counts to obtain normalized fold changes (FC) and Padj-values for each gene. Genes were considered to be differentially expressed only if they showed a log2FC >1 and a Padj-values < 0.05. TPM (transcripts per million) values were calculated for TEs. To define TEs as up-regulated in the atxr5/6 mutant, they must show 2-fold up-regulation as compared to Col in both biological replicates and have a value of TPM > 5.
ChIP-seq processing and Analysis: Paired-end reads were filtered and trimmed using BBTools . Reads with quality inferior to 20 were removed. Data sets were aligned against combined genomes of Arabidopsis thaliana (TAIR10) and Drosophila melanogaster (dm6) using bowtie2 with default parameters. Duplicate reads were removed using Picard toolkit (MarkesDuplicates with REMOVE_DUPLICATES=true). To calculate the Rx scaling factor of each biological replicate, Drosophila-derived IP read counts were normalized according to the number of input reads. Spike-in normalization was performed as previously described in Nassrallah et al. 2018. Bigwig file were then scaled by adjusting the number of reads in each bin with the Rx factors and therefore generating reference-adjusted reads per million (RRPM).
Genome_build: RNA-seq: TAIR10 ChIP-seq: TAIR10 and dm6 (ChIP-Rx)
Supplementary_files_format_and_content: RNA-seq: tab-delimited text files include RPKM values for each Sample was computed with featureCounts. ChIP-seq: bigwig files were generated using the H3k27ac signal normalized with the Rx factor.

Submission date

Feb 28, 2020

Last update date

Jun 04, 2021

Contact name

Yannick Jacob

E-mail(s)

yannick.jacob@yale.edu

Phone

203-432-8908

Organization name

Yale university