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Screening and Genetic Network Analysis of Genes Involved in Freezing and Thawing Resistance in DaMDHAR―Expressing Saccharomyces cerevisiae Using Gene Expression Profiling

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Cited 2 time in scopus
Title
Screening and Genetic Network Analysis of Genes Involved in Freezing and Thawing Resistance in DaMDHAR―Expressing Saccharomyces cerevisiae Using Gene Expression Profiling
Other Titles
DaMDHAR 발현 효모의 동결 융해 저항성에 관여하는 유전자 탐색과 유전적 연관성 분석
Authors
Kim, Il-Sup
Choi, Woong
Son, Jonghyeon
Lee, Jun Hyuck
Lee, Hyoungseok
Lee, Jungeun
Shin, Seung Chul
Kim, Han-Woo
Subject
Genetics & Heredity
Keywords
Antarctic plantDeschampsia antarcticamonodehydroascorbate reductasefreezing and thawinggene expression profilingtransgenic yeast
Issue Date
2021-02
Citation
Kim, Il-Sup, et al. 2021. "Screening and Genetic Network Analysis of Genes Involved in Freezing and Thawing Resistance in DaMDHAR―Expressing Saccharomyces cerevisiae Using Gene Expression Profiling". GENES, 12(2): 1-27.
Abstract
The cryoprotection of cell activity is a key determinant in frozen-dough technology. Although several factors that contribute to freezing tolerance have been reported, the mechanism underlying the manner in which yeast cells respond to freezing and thawing (FT) stress is not well established. Therefore, the present study demonstrated the relationship between DaMDHAR encoding monodehydroascorbate reductase from Antarctic hairgrass Deschampsia antarctica and stress tolerance to repeated FT cycles (FT2) in transgenic yeast Saccharomyces cerevisiae. DaMDHAR-expressing yeast (DM) cells identified by immunoblotting analysis showed high tolerance to FT stress conditions, thereby causing lower damage for yeast cells than wild-type (WT) cells with empty vector alone. To detect FT2 tolerance-associated genes, 3 '-quant RNA sequencing was employed using mRNA isolated from DM and WT cells exposed to FT (FT2) conditions. Approximately 332 genes showed >= 2-fold changes in DM cells and were classified into various groups according to their gene expression. The expressions of the changed genes were further confirmed using western blot analysis and biochemical assay. The upregulated expression of 197 genes was associated with pentose phosphate pathway, NADP metabolic process, metal ion homeostasis, sulfate assimilation, beta-alanine metabolism, glycerol synthesis, and integral component of mitochondrial and plasma membrane (PM) in DM cells under FT2 stress, whereas the expression of the remaining 135 genes was partially related to protein processing, selenocompound metabolism, cell cycle arrest, oxidative phosphorylation, and alpha-glucoside transport under the same condition. With regard to transcription factors in DM cells, MSN4 and CIN5 were activated, but MSN2 and MGA1 were not. Regarding antioxidant systems and protein kinases in DM cells under FT stress, CTT1, GTO, GEX1, and YOL024W were upregulated, whereas AIF1, COX2, and TRX3 were not. Gene activation represented by transcription factors and enzymatic antioxidants appears to be associated with FT2-stress tolerance in transgenic yeast cells. RCK1, MET14, and SIP18, but not YPK2, have been known to be involved in the protein kinase-mediated signalling pathway and glycogen synthesis. Moreover, SPI18 and HSP12 encoding hydrophilin in the PM were detected. Therefore, it was concluded that the genetic network via the change of gene expression levels of multiple genes contributing to the stabilization and functionality of the mitochondria and PM, not of a single gene, might be the crucial determinant for FT tolerance in DaMDAHR-expressing transgenic yeast. These findings provide a foundation for elucidating the DaMDHAR-dependent molecular mechanism of the complex functional resistance in the cellular response to FT stress.
URI
https://repository.kopri.re.kr/handle/201206/13565
DOI
http://dx.doi.org/10.3390/genes12020219
Type
Article
Station
King Sejong Station
Indexed
SCIE
Appears in Collections  
2021-2021, Post-Polar Genomics Project: Functional genomic study for securing of polar useful genes (21-21) / Kim, Jin-Hyoung (PE21160)
2020-2020, Development of potential candidates as antibiotics based on polar genetic resources (20-20) / Lee, Jun Hyuck (PM20030)
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