Optimized PCR conditions and increased shRNA fold representation improve reproducibility of pooled shRNA screens.
RNAi screening using pooled shRNA libraries is a valuable tool for identifying genetic regulators of biological processes. However, for a successful pooled shRNA screen, it is imperative to thoroughly optimize experimental conditions to obtain reproducible data. Here we performed viability screens w...
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2012
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oai:doaj.org-article:eb94d0add74e441f93937a750fe121952021-11-18T07:10:02ZOptimized PCR conditions and increased shRNA fold representation improve reproducibility of pooled shRNA screens.1932-620310.1371/journal.pone.0042341https://doaj.org/article/eb94d0add74e441f93937a750fe121952012-01-01T00:00:00Zhttps://www.ncbi.nlm.nih.gov/pmc/articles/pmid/22870320/pdf/?tool=EBIhttps://doaj.org/toc/1932-6203RNAi screening using pooled shRNA libraries is a valuable tool for identifying genetic regulators of biological processes. However, for a successful pooled shRNA screen, it is imperative to thoroughly optimize experimental conditions to obtain reproducible data. Here we performed viability screens with a library of ∼10,000 shRNAs at two different fold representations (100- and 500-fold at transduction) and report the reproducibility of shRNA abundance changes between screening replicates determined by microarray and next generation sequencing analyses. We show that the technical reproducibility between PCR replicates from a pooled screen can be drastically improved by ensuring that PCR amplification steps are kept within the exponential phase and by using an amount of genomic DNA input in the reaction that maintains the average template copies per shRNA used during library transduction. Using these optimized PCR conditions, we then show that higher reproducibility of biological replicates is obtained by both microarray and next generation sequencing when screening with higher average shRNA fold representation. shRNAs that change abundance reproducibly in biological replicates (primary hits) are identified from screens performed with both 100- and 500-fold shRNA representation, however a higher percentage of primary hit overlap between screening replicates is obtained from 500-fold shRNA representation screens. While strong hits with larger changes in relative abundance were generally identified in both screens, hits with smaller changes were identified only in the screens performed with the higher shRNA fold representation at transduction.Žaklina StrezoskaAbel LiconJosh HaimesKatie Jansen SpaydKruti M PatelKevin SullivanKatarzyna JastrzebskiKaylene J SimpsonDevin LeakeAnja van Brabant SmithAnnaleen VermeulenPublic Library of Science (PLoS)articleMedicineRScienceQENPLoS ONE, Vol 7, Iss 8, p e42341 (2012) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
Medicine R Science Q |
| spellingShingle |
Medicine R Science Q Žaklina Strezoska Abel Licon Josh Haimes Katie Jansen Spayd Kruti M Patel Kevin Sullivan Katarzyna Jastrzebski Kaylene J Simpson Devin Leake Anja van Brabant Smith Annaleen Vermeulen Optimized PCR conditions and increased shRNA fold representation improve reproducibility of pooled shRNA screens. |
| description |
RNAi screening using pooled shRNA libraries is a valuable tool for identifying genetic regulators of biological processes. However, for a successful pooled shRNA screen, it is imperative to thoroughly optimize experimental conditions to obtain reproducible data. Here we performed viability screens with a library of ∼10,000 shRNAs at two different fold representations (100- and 500-fold at transduction) and report the reproducibility of shRNA abundance changes between screening replicates determined by microarray and next generation sequencing analyses. We show that the technical reproducibility between PCR replicates from a pooled screen can be drastically improved by ensuring that PCR amplification steps are kept within the exponential phase and by using an amount of genomic DNA input in the reaction that maintains the average template copies per shRNA used during library transduction. Using these optimized PCR conditions, we then show that higher reproducibility of biological replicates is obtained by both microarray and next generation sequencing when screening with higher average shRNA fold representation. shRNAs that change abundance reproducibly in biological replicates (primary hits) are identified from screens performed with both 100- and 500-fold shRNA representation, however a higher percentage of primary hit overlap between screening replicates is obtained from 500-fold shRNA representation screens. While strong hits with larger changes in relative abundance were generally identified in both screens, hits with smaller changes were identified only in the screens performed with the higher shRNA fold representation at transduction. |
| format |
article |
| author |
Žaklina Strezoska Abel Licon Josh Haimes Katie Jansen Spayd Kruti M Patel Kevin Sullivan Katarzyna Jastrzebski Kaylene J Simpson Devin Leake Anja van Brabant Smith Annaleen Vermeulen |
| author_facet |
Žaklina Strezoska Abel Licon Josh Haimes Katie Jansen Spayd Kruti M Patel Kevin Sullivan Katarzyna Jastrzebski Kaylene J Simpson Devin Leake Anja van Brabant Smith Annaleen Vermeulen |
| author_sort |
Žaklina Strezoska |
| title |
Optimized PCR conditions and increased shRNA fold representation improve reproducibility of pooled shRNA screens. |
| title_short |
Optimized PCR conditions and increased shRNA fold representation improve reproducibility of pooled shRNA screens. |
| title_full |
Optimized PCR conditions and increased shRNA fold representation improve reproducibility of pooled shRNA screens. |
| title_fullStr |
Optimized PCR conditions and increased shRNA fold representation improve reproducibility of pooled shRNA screens. |
| title_full_unstemmed |
Optimized PCR conditions and increased shRNA fold representation improve reproducibility of pooled shRNA screens. |
| title_sort |
optimized pcr conditions and increased shrna fold representation improve reproducibility of pooled shrna screens. |
| publisher |
Public Library of Science (PLoS) |
| publishDate |
2012 |
| url |
https://doaj.org/article/eb94d0add74e441f93937a750fe12195 |
| work_keys_str_mv |
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| _version_ |
1718423888617013248 |