*%RED%THIS PAGE IS CURRENTLY UNDER CONSTRUCTION %ENDCOLOR%* <<[[qPCR][Return to qPCR page]] ---+ Experimental qPCR Plate Setup and Analysis _Goals_ * Test hypothesis Typical plate setup with 2 reference genes and a target gene: <img src="%ATTACHURLPATH%/Experimentalplate.png" alt="Experimentalplate.png" width='1212' height='143' /> *C1 = Condition 1, C2 = Condition 2, and BR# = Biological Replicate _Conditions_ * If you want to be extra safe you should also include a negative control (usually DIW) for each primer pair. * The cDNA dilution used for the experimental samples will be those determined from the [[cDNAConcentrationqPCR][cDNA Concentration qPCR]], and you should use at least your best 2 reference genes from the [[RefGeneqPCR][Reference Gene qPCR]]. _What you are looking for_ * Technical replicates with a standard deviation below 0.2. * Outliers; if you have an SD for a technical triplicate higher than 0.2, and there is obviously an outlier, remove it. An example is if you have values of 23.34, 23.35 and 30.22, and the 30.22 amplification trace is clearly poor. If the SD is higher than 0.2 and all three measurements are spread, you must keep all three. ---+++++_Analysis_ I like to perform my qPCR analysis using the *pfaffl method*, a brief description of which is shown below: <br/> <blockquote>The Pfaffl method... is used to calculate relative gene expression data while accounting for differences in primer efficiencies. Unlike the delta-delta Ct method, which assumes primer efficiencies are similar between the gene of interest and the housekeeping gene, the Pfaffl method accounts for any efficiency differences to increase reproducibility.<br/> -- Top Tips Bio </blockquote> To perform the pfaffl method I've found that the best guide is [[https://toptipbio.com/pfaffl-method-qpcr/][this website]]. I will outline the major steps below, but Dr Steven Bradburn has already done an excellent job of explaining this in a simplified fashion! <<[[qPCR][Return to qPCR page]]
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Topic revision: r3 - 2020-04-09 - 18:31:17 - Main.KateElston
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Barrick Lab 
Homepage
Contact Information
Michigan State University
Department of Microbiology, Genetics, & Immunology
Department of Entomology
Ecology, Evolution, and Behavior Graduate Program
UT Austin iGEM team
Team
Research 
Overview
Publications
Software
Protocols 
Protocol List
Reference Information
The LTEE
