Author
Listed:
- Paul P Jung
- Nils Christian
- Daniel P Kay
- Alexander Skupin
- Carole L Linster
Abstract
In microorganisms, and more particularly in yeasts, a standard phenotyping approach consists in the analysis of fitness by growth rate determination in different conditions. One growth assay that combines high throughput with high resolution involves the generation of growth curves from 96-well plate microcultivations in thermostated and shaking plate readers. To push the throughput of this method to the next level, we have adapted it in this study to the use of 384-well plates. The values of the extracted growth parameters (lag time, doubling time and yield of biomass) correlated well between experiments carried out in 384-well plates as compared to 96-well plates or batch cultures, validating the higher-throughput approach for phenotypic screens. The method is not restricted to the use of the budding yeast Saccharomyces cerevisiae, as shown by consistent results for other species selected from the Hemiascomycete class. Furthermore, we used the 384-well plate microcultivations to develop and validate a higher-throughput assay for yeast Chronological Life Span (CLS), a parameter that is still commonly determined by a cumbersome method based on counting “Colony Forming Units”. To accelerate analysis of the large datasets generated by the described growth and aging assays, we developed the freely available software tools GATHODE and CATHODE. These tools allow for semi-automatic determination of growth parameters and CLS behavior from typical plate reader output files. The described protocols and programs will increase the time- and cost-efficiency of a number of yeast-based systems genetics experiments as well as various types of screens.
Suggested Citation
Paul P Jung & Nils Christian & Daniel P Kay & Alexander Skupin & Carole L Linster, 2015.
"Protocols and Programs for High-Throughput Growth and Aging Phenotyping in Yeast,"
PLOS ONE, Public Library of Science, vol. 10(3), pages 1-20, March.
Handle:
RePEc:plo:pone00:0119807
DOI: 10.1371/journal.pone.0119807
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