MAPK/HOG signaling pathway induced stress‐responsive damage repair is a mechanism for Pichia pastoris to survive from hyperosmotic stress
Abstract BACKGROUND MAPK/HOG signaling pathway plays a key role in the response of
yeast to external hyperosmotic stress. Over the past few decades, the regulation mechanism …
yeast to external hyperosmotic stress. Over the past few decades, the regulation mechanism …
Glycerol uptake and synthesis systems contribute to the osmotic tolerance of Kluyveromyces marxianus
B Zhang, L Ren, H Wang, D Xu, X Zeng, F Li - Enzyme and Microbial …, 2020 - Elsevier
The accumulation of glycerol is essential for yeast viability upon hyperosmotic stress. In this
study, the STL1 homolog KmSTL1, encoding a putative glycerol transporter contributing to …
study, the STL1 homolog KmSTL1, encoding a putative glycerol transporter contributing to …
Maltose accumulation-induced cell death in Saccharomyces cerevisiae
X Zhang, JG Nijland, AJM Driessen - FEMS Yeast Research, 2024 - academic.oup.com
Pretreatment of lignocellulose yields a complex sugar mixture that potentially can be
converted into bioethanol and other chemicals by engineered yeast. One approach to …
converted into bioethanol and other chemicals by engineered yeast. One approach to …
Functional and expression studies of two novel STL1 genes of the osmotolerant and glycerol utilization yeast Candida glycerinogenes
H Ji, X Lu, H Zong, B Zhuge - The Journal of general and applied …, 2018 - jstage.jst.go.jp
CgSTL1 were osmotic-induced, whereas that of CgSTL2 was constitutive. Over-expression
of CgSTL1 and CgSTL2 in C. glycerinogenes resulted in improved glycerol consumption …
of CgSTL1 and CgSTL2 in C. glycerinogenes resulted in improved glycerol consumption …
A farnesoic acid‐responsive transcription factor, Hot1, regulates yeast‐hypha morphogenesis in Candida albicans
Candida albicans hyphal formation is inhibited by a quorum‐sensing molecule, farnesoic
acid, which accumulates in the medium as the cells proliferate. We recently showed that …
acid, which accumulates in the medium as the cells proliferate. We recently showed that …
Hot1 factor recruits co-activator Sub1 and elongation complex Spt4/5 to osmostress genes
M Gomar-Alba, M Del Olmo - Biochemical Journal, 2016 - portlandpress.com
Hyperosmotic stress response involves the adaptative mechanisms needed for cell survival.
Under high osmolarity conditions, many stress response genes are activated by several …
Under high osmolarity conditions, many stress response genes are activated by several …
[PDF][PDF] Mechanisms of inhibitor tolerance in yeast growing on lignocellulosic hydrolysates
X Zhang, JG Nijland, AJM Driessen - Mechanisms of weak acid and …, 2023 - research.rug.nl
The dependence on fossil resources for fuel production together with environment pollution
have urged the development for production processes based on renewable resources …
have urged the development for production processes based on renewable resources …
Resumen de tesis. Caracterización funcional del coactivador transcripcional Sub1 en Saccharomyces cerevisiae
A Collin - 2018 - gredos.usal.es
[ES] La transcripción de los genes de clase II es un proceso finamente regulado a varios
niveles por numerosos factores y llevado a cabo por la RNA polimerasa II (RNAPII)(1). Sub1 …
niveles por numerosos factores y llevado a cabo por la RNA polimerasa II (RNAPII)(1). Sub1 …
Understanding the Effects of Genetic Variation on Osmo-adaptation Dynamics Across S. cerevisiae Using Bulk Segregant Analysis and Whole Genome Sequencing
S Aydin - 2017 - search.proquest.com
Adapting to environmental changes (ie an increase in osmolarity) is critical for cell survival.
How cells respond and adapt to osmotic stress has been well-studied in the model …
How cells respond and adapt to osmotic stress has been well-studied in the model …