Faculty of Biology, University of Latvia
EEB
Hard copy: ISSN 1691–8088
On-line: ISSN 2255–9582
Environ Exp Biol (2017) 15: 283–288
About the Journal Retractions Open Access Author Guidlines Current Issue Archive
Environmental and
Experimental
Biology

Environ Exp Biol (2017) 15: 283–288

Orginal Paper

Adenine starvation is signalled through environmental stress response system in budding yeast Saccharomyces cerevisiae

Zane Ozolina, Agnese Kokina, Janis Liepins*
Institute of Microbiology and Biotechnology, University of Latvia, Jelgavas 1, Riga LV–1004, Latvia
* Corresponding author, E-mail: janis.liepins@lu.lv

Abstract

In the wild, budding yeast Saccharomyces cerevisiae often undergoes periods of nutrient abundance and absolute scarcity. It is capable of effectively halting its cell cycle in G1, in the case of lack of any basic nutrients. However, when lacking metabolic intermediates, the yeast behaves differently. Purine and not pyrimidine auxotrophic starvation in S. cerevisiae elicits rapid cell cycle arrest and increase of several stress (oxidative, acid, heat) resistances. Until now, molecular mechanisms governing formation of phenotype during auxotrophic adenine starvation in S. cerevisiae are not understood. The aim of the current research was to determine if the elements of environmental stress response system play a role during phenotype formation in adenine starvation in budding yeast. We tested if MSN2/4 or RIM15 C-end truncation affects desiccation tolerance in full media and after adenine starvation. We found that functional defects of each element of environmental stress response systems affected desiccation tolerance, however, C-end truncation of RIM15 lowered desiccation tolerance by several orders of magnitude, while MSN2/4 C-end truncation only by 2 to 4 times. Therefore, we hypothesize that there are other elements of the environmental stress response system except MSN4 and MSN2, responsible for adenine starvation specific, stress tolerant phenotype formulation.

Key words: adenine starvation, desiccation tolerance, MSN2, MSN4, RIM15, Saccharomyces cerevisiae.

 
Environ Exp Biol (2017) 15: 283–288
 DOI: http://doi.org/10.22364/eeb.10.22364/eeb.15.29
EEB

Editor-in-Chief
Prof. Gederts Ievinsh



Published by
University of Latvia

 
For Authors
Indexing
Directory of Open Access Journals
Google Scholar
Thomson Reuters
CAB Abstracts
Last modifications: 2017.12.30-07:12 Send us your feedback

Print ISSN 1691-8088 – Online ISSN 2255-9582 Copyright © 2018 University of Latvia