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Transcript 
IPA :
Maximizing the Biological Interpretation of Gene,
Transcript & Protein Expression Data with IPA
Marisa Chen
Account Manager
Qiagen Advanced Genomics
[email protected]
(203) 500 -1237
Sample to Insight
Dev Mistry, Ph.D.
Field Applications Scientist
Qiagen Advanced Genomics
[email protected]
Overview
 Introduction to IPA
 Search and Explore
 Growing a network out of a molecule
 Bioprofiler (Advanced Analytics)
 Large Dataset Analysis
 Uploading your dataset(s) and starting a core analysis
 Core Analysis
– Canonical Pathways
– Upstream Regulators
• Causal Network (Advanced Analytics)
– Diseases and Functions
– Regulator Effect
– Networks
 Comparison Analysis
 Questions/Answer
Sample to Insight
Title, Location, Date
4
Introduction
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Title, Location, Date
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When do you use IPA?
QIAGEN Sample to Insight
Sample
Prep
Assay
Data
Upstream Analysis
SequenceLevel
Statistics
‘Primary’
Biology of
Interest
(Genes,
Variants, etc.)
‘Secondary’
Annotation &
Comparative
(Statistical)
Analysis
Annotation &
Biological
Interpretation
‘Tertiary’
Insight
Sample
Sample to Insight
QIAGEN Sample to Insight | www.ingenuity.com | www.clcbio.com | www.qiagen.com
7
P53
MYC
SNAI1
TGF
What can IPA do?
Cell Death
Invasion
Cellular
Movement
IPA
Cancer
Upstream Regulators
ILK pathway
CT pathway
Cell-Junction
Biological Processes
Canonical Pathways
Large RNA seq dataset in
form of a huge pile of papers
Sample to Insight
Systematic analysis by IPA in
form of organized binders on
a bookshelf
Foundation behind all of Ingenuity’s products
Ingenuity Content
The Ingenuity Knowledge Base
Ingenuity Findings
Ingenuity® Expert Findings – Manually
curated Findings that are reviewed, from
the full-text, rich with contextual details, and
are derived from top journals.
The Ingenuity Ontology
Ingenuity® ExpertAssist Findings –
Automated text Findings that are
reviewed, from abstracts, timely, and
cover a broad range of publications.
Ingenuity Modeled Knowledge
Ingenuity® Expert Knowledge – Content
we model such as pathways, toxicity lists,
etc.
Ingenuity® Supported Third Party
Information – Content areas include
Protein-Protein, miRNA, biomarker,
clinical trial information, and others
Species: human, mouse and rat
Data from other species can be mapped to human, mouse and rat orthologues
Sample to Insight
Species Supported
Species Supported
 Human, Mouse, Rat in full content
 IPA uses HomoloGene to map other identifiers to human/mouse/rat
orthologs (though supporting content for the additional species will be specific to human,
mouse, and rat)











Arabidopsis thaliana
Bos taurus (bovine)
Caenorhabditis elegans
Gallus gallus (chicken)
Pan troglodytes (chimpanzee)
Danio rerio (zebrafish)
Canis lupus familiaris (canine)
Drosophila melanogaster
Macaca mulatta (Rhesus Monkey)
Saccharomyces cerevisiae
Schizosaccharomyces pombe
Sample to Insight
Introduction to QIAGEN Ingenuity & IPA - www.ingenuity.com
10
Peer-reviewed publications citing QIAGEN’s Ingenuity products
12,513 publications and growing!
13000
12,513
12000
# of publications
11000
9972
10000
9000
7704
8000
7000
5608
6000
5000
3786
4000
3000
2306
2000
1000
0
1306
1
18
104
297
686
2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013
Sample to Insight
thru
Dec
2014
Two different types of analyses by IPA
 Deep pathway understanding of a single gene/protein
 Biological understanding of large data sets
Sample to Insight
Title, Location, Date
12
How can IPA help you?
Deep pathway understanding of a single gene/protein
 Drug/therapeutic target discovery
Sample to Insight
13
How can IPA help you?
Biological understanding of large data sets

Differential gene expression, array and RNAseq (transcriptomics)

Differential protein expression (proteomics)

Metabolomics

miRNA expression

Gene List
– Chip-seq
– siRNA screening

Methylation

Protein phosphorylation
Sample to Insight
Title, Location, Date
16
Gene/Protein Expression Analysis
IPA Core Analysis



Canonical Pathway Analysis

Predicts pathways that are changing based on gene
expression

New tools to predict directional effects on the pathway (MAP
overlay tool)
Upstream Regulator Analysis

Predicts what regulators caused changes in gene expression

Predicts directional state of regulator

Creates de novo pathways based on upstream regulators
(Mechanistic Networks)
Diseases and Functions Analysis


Predicts effected biology (cellular processes, biological
functions) based on gene expression and predicts directional
change on that effect
– “Increase in apoptosis”
– “Decrease in proliferation”
Regulator Effects


Upstream
Regulator
Models pathway interactions from predicted upstream
regulators, through differentially expressed genes, to
biological processes
Networks

Predicts non-directional gene interaction map
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Diseases &
Functions
Change Preferences
1. Scroll down
2. Change memory to >1000mb
3. Save
Sample to Insight
Title, Location, Date
21
Don’t worry too much about notes or if you fall behind during the point
and click training. We have manuals/videos for everything.
Sample to Insight
Title, Location, Date
22
Uploading your dataset
Sample to Insight
23
Suggested Format for uploading RNA-seq data
Required
Sample to Insight
Recommended
Max RPKM
recommended
for RNA seq
Case Study
RNA Seq: Claudin Low vs Luminal Breast cancer cell lines
Sample to Insight
Title, Location, Date
29
Adapted from Aroeira et al. J Am Soc Nephrol 18: 2004 –2013, 2007
Epithelial to Mesenchymal Transition
Luminal Breast cancer
Luminal cell lines
Sample to Insight
Proprietary and Confidential
HER2-enriched
Basal
Ratio Claudin-low to Luminal
5 vs 5 cell lines, RNA-Seq data
Mesenchymal / stem cell-like breast cancer
Claudin-low cell lines
30
IPA Analysis
 Verify the biology
 Can IPA identify cancer and EMT related pathways and biological functions in
this dataset?
 What are some of the relevant pathways?
 What are some of the relevant biological functions?
 Identification of transcriptional regulators
 What are the transcriptional regulators that are causing the gene expression
changes in this dataset?
 Are they activated or inhibited?
 Hypothesis generation
 Are the predicted upstream regulators increasing or decreasing downstream
biological functions?
Sample to Insight
Title, Location, Date
31
P value and Z Score
Sample to Insight
Title, Location, Date
32
Overlapping P-value
Overlapping Molecules
Genes from previous literature that belong to
• A canonical pathway OR
• Downstream of an upstream regulator OR
• Upstream of a disease or function
Genes
in your filtered
dataset
Genes from
Knowledge
Base
Genes in the
reference universe
 Different from the “Expression P-value”
uploaded with your dataset
 Calculated using Fisher’s exact test
 The statistical test looks for an unexpectedly
large overlap given the number of molecules
in each category
 p-values should be insignificant (<0.05) for
random datasets
 Gene expression direction is not taken into
account for this calculation
Sample to Insight
Z-score: Activation Prediction
-
- + + + + + +
↓
↓
↑
1
1
1 1
↑
↑
↑
↑
↓
1 1 1 -1
Gene expression from Knowledge Base (literature)
Gene expression in your dataset
+1 score for the consistent and -1 for the
inconsistent relationships
= (7-1)/√8 = 2.12 (= predicted activation)
• z-score is a statistical measure of the match between expected relationship direction
and observed gene expression
• z-score > 2 or < -2 is considered significant
• Note that the actual z-score is weighted by the underlying findings, the relationship
bias, and dataset bias
Sample to Insight
Upstream Regulators vs. Causal Networks
Leveraging the network to create more upstream regulators
Advanced Analytics: Causal Network Analysis
Causal Network
Upstream Regulators
Master Regulator
Regulator
Regulators
Dataset
Sample to Insight
Comparison Analysis
Sample to Insight
Canonical Pathways
Sample to Insight
Upstream Analysis
Sample to Insight
Diseases and Functions
Sample to Insight
Regulator Effects
Sample to Insight
Network Analysis
Sample to Insight
P53
MYC
SNAI1
TGF
What can IPA do?
Cell
Upstream Regulators
Nature
Cell Death
Invasion
Cellular
Movement
IPA
Cancer
Science
ILK pathway
CT pathway
Cell-Junction
Biological Processes
Canonical Pathways
Sample to Insight
JBC
Contact Us
[email protected]
[email protected]
+1 650 381-5111
6am-5pm Pacific Time (M-F)
QIAGEN Redwood City
1700 Seaport Blvd., 3rd Floor
Redwood City
CA 94063, USA
Sample to Insight
45
Help > Legend
Introduction to QIAGEN Ingenuity & IPA - www.ingenuity.com
Sample to Insight
46
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