ncibtep@nih.gov

Bioinformatics Training and Education Program

RNA-Seq Data Analysis Workshop (2-day) - Session 1 [Dec 1/2]

RNA-Seq Data Analysis Workshop (2-day) - Session 1 [Dec 1/2]

 When: Dec. 1st, 2015 - Dec. 2nd, 2015 9:30 am - 4:30 pm

To Know

Where:
In-Person
Organizer:
BTEP
Presented By:
Sean Davis (CU, Anschutz)
Class Files:
This class has ended.

About this Class

REGISTRATION FULL - Please signup for Session 2 December 7/8

This 2-day course, which includes both lecture and hands-on components, will teach the basic concepts and practical aspects of RNA-Seq Data Analysis. Learn everything from experimental design to statistical analysis. This workshop will include presentations on using both commercial (Partek) and open source software.

PLEASE NOTE: This 2 day workshop is a BYOC (Bring your own laptop Computer) class. Government issued or personal computers are permitted. We will be able to supply a very limited set of computers, so if you want to take the class but cannot bring your own computer please indicate such in the Comment section on the registration form.

Day 1 -  9:30-12:30
Introductory Lecture 
Sean Davis, MD, PhD - CCR, NCI

Link to Talk Slides on SlideShare

Day 1 -  1:30-4:30
Use of Open Source tools for RNA-Seq
Sean Davis, MD, PhD - CCR, NCI

http://watson.nci.nih.gov/~sdavis/tutorials/RNASeqBeginnerTutorial/RNASeqTutorial.html

 


Day 2 - 9:30-12:30
RNA-Seq Analysis using Partek Flow
Eric Seiser, PhD - Partek Field Application Specialist

An overview of getting started on the NIH Helix server and then hands-on RNA-seq training on Partek Flow. The training starts from importing raw sequence data in fastq format, followed by performing QA/QC, alignment, quantification, differential expression detection and finally biological interpretation. 

 

Day 2 - 1:30-4:30

Read count data analysis using Partek Genomic Suite
Eric Seiser, PhD - Partek Field Application Specialist

This class will provide a demo of microarray and RNA-seq integration within Partek Flow followed by hands-on training for downstream RNA-seq data analysis using Partek Genomic Suite.

Starting with normalized read count data generated from Partek Flow, data import into PGS will be illustrated.  This will be followed by a standard gene expression analysis workflow including QA/QC, differential expression detection and biological interpretation using Partek Pathway.

Objectives:

Students will learn how to use basic features of Partek Flow and Partek Genomics Suite, including:

·       Flow

  • Getting set up on NIH Helix server
  • Importing data
  • Performing QA/AC
  • Alignment
  • Gene/transcript abundance estimation
  • Differential expression detection
  • Go Enrichment analysis
  • Visualization (PCA, dotplot, volcano plot, chromosome view, hierarchical clustering etc.)
  • Microarray analysis and integration with RNA-seq data.

·       PGS

  • Importing Partek Flow project and text file format
  • Performing QA/QC of imported data
  • Differential expression detection
  • Pathway analysis
  • Visualization (PCA, dot plot, heatmap etc.)

 

 

Files

  • PGSTrainingHandout-NIH-NCI.docx: |
  • PartekFlowTrainingHandout-NIH-NCI.docx: |