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Analysis of Differential Gene Expression in a Myotonic Dystrophy Tissue Cultue Model. Matthew Tanner Berglund Lab, Institute of Molecular Biology CIS 407 Dec. 2 nd , 2013. Myotonic Dystrophy 1 (DM1). Symptoms - PowerPoint PPT Presentation
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Analysis of Differential Gene Expression in a Myotonic Dystrophy Tissue Cultue Model
Matthew TannerBerglund Lab, Institute of Molecular Biology
CIS 407Dec. 2nd, 2013
Myotonic Dystrophy 1 (DM1)
Genetic PathologyDM1 caused by CTG trinucleotide repeat expansion in 3’ UTR of DMPK gene.
Unaffected: less than 34 repeatsDM1: 50 to >1000 repeats
Severity of disease increases and age of onset decreases with increasing repeat length.
Symptoms
Multisystemic – affects skeletal and smooth muscle (myotonia, atrophy), eyes (cataracts), heart, and endocrine system.
Potential for small molecules to alleviate molecular symptoms of DM1
Coonrod, et al. (2013)
PentamidineAnti-fungal, anti-protozoan drug. Binds minor groove of DNA.
Wilson et al., 2008.
Tissue Culture Model and ExperimentTransfect into HeLa cells. Drug 6 hours afterwards.
24 hours after transfection: harvest whole-cell RNA.
DMPK minigene containing 960 CTG
repeats. Induces DM1 disease state.
DMPK960
Illumina highthroughput sequencing library preparation (several steps)
Illumina Hi-Seq 2000 massively parallel sequencer
RNA-Seq Library Preparation
Pease & Sooknanan, 2012.
Illumina Raw Output
Four lines for each sequence:Coordinates of readSequence+ASCII quality score for each base call (Phred-33)
Alignment and Analysis with Tuxedo Suite
Pass $SAMPLE variable in at command line: qsub tophat.sh –N align0A –V SAMPLE=“0A”
Tophat 2.0 – align FASTQ reads that were cleaned up with Stacks’ process_shortreads to human genome.
Alignment and Analysis with Tuxedo SuiteTophat 2.0 – align FASTQ reads that were cleaned up with Stacks’ process_shortreads to human genome.
Cufflinks – take mapped reads (accepted_hits.bam) and generate transcript model of reads.
Cuffmerge – take individual transcript models (transcripts.gtf)and merge into master transcriptome.
Cuffdiff – take mapped reads from individual treatments (accepted_hits.bam) and, with aid of master transcriptome, compare each sample pair-wise.
Take various Cuffdiff output files (differential gene expression, splicing, promoter usage, isoforms, etc.) and analyze with original scripts or explore with existing programs.
Integrative Genome Viewer
Integrative Genome Viewer
log10 (FPKM + 1) of genes at each dosage that are associated the p53 network.
FPKM: fragments per kilobase of exon model per million mapped fragments
Visualization of differential gene expression
log10 (FPKM + 1) of genes at each dosage that are associated with the gene ontology “Regulation of RNA splicing” (GO:0043484)
none
low
med
high
Visualization of differential gene expression
How about all the (significantly differentially expressed) genes?
log2(foldchange) of 1210 genes with q < 0.05 between none and low pentamidine dosage
What are these genes?
A closer look
none
low
med
high
Gene ontologies found in this subset
Next steps?
• Analyze this and other clustered subsets by:– Sequence analysis (motifs)– GC/AT content– Gene ontology enrichment
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