Add to ORKGArsenic is ubiquitously present in nature, and various mechanisms have evolved enabling cells to evade toxicity and acquire tolerance. Herein, we explored how Saccharomyces cerevisiae (budding yeast) respond to trivalent arsenic (arsenite) by quantitative transcriptome, proteome, and sulfur metabolite profiling. Arsenite exposure affected transcription of genes encoding functions related to protein biosynthesis, arsenic detoxification, oxidative stress defense, redox maintenance, and proteolytic activity. Importantly, we observed that nearly all components of the sulfate assimilation and glutathione biosynthesis pathways were induced at both gene and protein levels. Kinetic metabolic profiling evidenced a significant increase in the pools o...
The mechanism by which arsenic dramatically affects gene expression remains poorly understood. Here ...
All biological systems have to cope with a wide range of metals that are present in the environment....
Bacterial strains belonging to the genus Rhodococcus are capable to degrade various toxic organic co...
Arsenic is ubiquitously present in nature, and various mechanisms have evolved enabling cells to eva...
Arsenic is an environmental toxin and a worldwide health hazard. Since this metalloid is ubiquitous ...
Arsenic is an environmental toxin and a worldwide health hazard. Since this metalloid is ubiquitous ...
Post-PrintIn the budding yeast Saccharomyces cerevisiae arsenic detoxification involves the activat...
Arsenic exposure is a global health problem. Millions of people encounter arsenic through contaminat...
AbstractWe have used Saccharomyces cerevisiae to identify toxicologically important proteins and pat...
BACKGROUND: Arsenic and cadmium are widely distributed in nature and pose serious threats to the env...
Arsenate is a common toxic metalloid found in drinking water worldwide that causes several human dis...
Arsenic is omnipresent in soil, air, food and water. Chronic exposure to arsenic is a serious proble...
Background: Arsenic is present in numerous ecosystems and microorganisms have developed various mech...
Arsenic has a dual role as causative and curative agent of human disease. Therefore, there is consid...
Arsenic is widely distributed in nature and all organisms possess regulatory mechanisms to evade tox...
The mechanism by which arsenic dramatically affects gene expression remains poorly understood. Here ...
All biological systems have to cope with a wide range of metals that are present in the environment....
Bacterial strains belonging to the genus Rhodococcus are capable to degrade various toxic organic co...
Arsenic is ubiquitously present in nature, and various mechanisms have evolved enabling cells to eva...
Arsenic is an environmental toxin and a worldwide health hazard. Since this metalloid is ubiquitous ...
Arsenic is an environmental toxin and a worldwide health hazard. Since this metalloid is ubiquitous ...
Post-PrintIn the budding yeast Saccharomyces cerevisiae arsenic detoxification involves the activat...
Arsenic exposure is a global health problem. Millions of people encounter arsenic through contaminat...
AbstractWe have used Saccharomyces cerevisiae to identify toxicologically important proteins and pat...
BACKGROUND: Arsenic and cadmium are widely distributed in nature and pose serious threats to the env...
Arsenate is a common toxic metalloid found in drinking water worldwide that causes several human dis...
Arsenic is omnipresent in soil, air, food and water. Chronic exposure to arsenic is a serious proble...
Background: Arsenic is present in numerous ecosystems and microorganisms have developed various mech...
Arsenic has a dual role as causative and curative agent of human disease. Therefore, there is consid...
Arsenic is widely distributed in nature and all organisms possess regulatory mechanisms to evade tox...
The mechanism by which arsenic dramatically affects gene expression remains poorly understood. Here ...
All biological systems have to cope with a wide range of metals that are present in the environment....
Bacterial strains belonging to the genus Rhodococcus are capable to degrade various toxic organic co...