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Analysis of Gene Expression - Overview -

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1 Analysis of Gene Expression - Overview -
Julia Paxson DVM DACVIM

2 Why gene expression analysis?
Quantification of mRNA transcript abundance High specificity, +/- high through-put Requires sequence knowledge

3 Considerations Experimental question Species limitations
Interpretation – post-translational modifications? Technical limitations Northern blot Reverse transcription PCR Quantitative PCR Microarray analysis RNAseq Lower through-put Cheaper Less data analysis

4 Sample processing - mRNA degradation and induction
Store: RNAlater (Qiagen) RNAprotect TRIzol Prep: TRIzol Spin columns QC: Electrophoresis Nanodrop Aligent Bioanalyzer

5 Northern blot analysis
Requires a large sample size Requires specifically designed and labeled RNA probes Semi-quantitative results

6 Polymerase chain reaction

7 Reverse transcription PCR
mRNA cDNA PCR Visualize PCR product using electrophoresis Use florescence-labeled probes/primers to follow PCR in real-time PCR product = exponential NON-QUANTITATIVE PCR product = linear QUANTITATIVE

8 Quantitative PCR Uses fluorescence-tagged probes or primers
Relatively low through-put and single primer pair

9 Microarray analysis

10 DNA microarray Whole genome approach Relies on:
cDNA (amplification bias) Hybridization Species sequence info Probe design

11 RNASeq Aka deep sequencing, next-generation sequencing

12 RNASeq

13

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