measuring gene expression
DESCRIPTION
Measuring Gene Expression. Idea : measure the amount of mRNA to see which genes are being expressed in (used by) the cell. Measuring protein might be more direct, but is currently harder. Central Assumption of Gene Expression Microarrays. - PowerPoint PPT PresentationTRANSCRIPT
Idea: measure the amount of mRNA to see which genes are being expressed in (used by) the cell. Measuring protein might be more direct, but is currently harder.
Measuring Gene Expression
Central Assumption of Gene Expression Microarrays
• The level of a given mRNA is positively correlated with the expression of the associated protein.– Higher mRNA levels mean higher protein
expression, lower mRNA means lower protein expression
• Other factors:– Protein degradation, mRNA degradation,
polyadenylation, codon preference, translation rates, alternative splicing, translation lag…
Principal Uses of Microarrays
• Genome-scale gene expression analysis– Differential gene expression between two (or
more) sample types– Responses to environmental factors– Disease processes (e.g. cancer)– Effects of drugs– Identification of genes associated with clinical
outcomes (e.g. survival)
Biological questionDifferentially expressed genesSample class prediction etc.
Testing
Biological verification and interpretation
Microarray experiment
Estimation
Experimental design
Image analysis
Normalization
Clustering Discrimination
Microarray example: Biomarker identification - lung cancer
SamplesSamples
Gen
eG
en
ess
Garber, Troyanskaya et al. Diversity of gene expression in adenocarcinoma of the lung. PNAS 2001, 98(24):13784-9.
60
Cu
m.
Su
rviv
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Time (months)
0
.2
.4
.6
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1
0 10 20 30 40 50
Cum. Survival (Group 3)
Cum. Survival (Group 2)
Cum. Survival (Group 1)
p = 0.002for Gr. 1 vs.
Gr. 3
Data partitioning clinically important: Patient survival for lung cancer subgroups
Garber, Troyanskaya et al. Diversity of gene expression in adenocarcinoma of the lung. PNAS 2001, 98(24):13784-9.
Technology basics• Microarrays are composed of short, specific DNA
sequences attached to a glass or silicon slide at high density
• A microarray works by exploiting the ability of an mRNA molecule to bind specifically to, or hybridize, the DNA template from which it originated
• RNA or DNA from the sample of interest is fluorescently-labeled so that relative or absolute abundances can be quantitatively measured
Two color vs single color
Bakel and Holstege. 2007. http://www.cell-press.com/misc/page?page=ETBR
Other applications of microarray technology
(besides measuring gene expression)
• DNA copy number analysis• SNP analysis• chIP-chip (interaction data)
• Competitive growth assays• …
Major technologies
• cDNA probes (> 200 nt), usually produced by PCR, attached to either nylon or glass supports
• Oligonucleotides (25-80 nt) attached to glass support
• Oligonucleotides (25-30 nt) synthesized in situ on silica wafers (Affymetrix)
• Probes attached to tagged beads
cDNA Microarray Design
• Probe selection
– Non-redundant set of probes
– Includes genes of interest to project
– Corresponds to physically available clones
• Chip layout
– Grouping of probes by function
– Correspondence between wells in microtiter plates and spots on the chip
Building the chip
Ngai Lab arrayer , UC Berkeley
Print-tip head
http://transcriptome.ens.fr/sgdb/presentation/principle.php
Example dual channel cDNA array results
Affymetrix GeneChips
• Probes are oligos synthesized in situ using a photolithographic approach
• Typically there are multiple oligos per cDNA, plus an equal number of negative controls
• The apparatus requires a fluidics station for hybridization and a special scanner
• Only a single fluorochrome is used per hybridization
There may be 5,000-100,000 probe sets per chipA probe set = 11-20 PM, MM pairs
Affy
http://www.weizmann.ac.il/home/ligivol/pictures/system.jpg
Interpreting Affymetrix OutputPerfect Match/Mismatch Strategy
• Each probe designed to be perfectly complementary to a target sequence, a partner probe is generated that is identical except for a single base mismatch in its center.
• These probe pairs, called the Perfect Match probe (PM) and the Mismatch probe (MM), allow the quantitation and subtraction of signals caused by non-specific cross-hybridization.
• The difference in hybridization signals between the partners serve as indicators of specific target abundance
