Add to ORKGabstract: The yeast project studies the growth of yeast Saccharomyces Cerevisiae (S. Cerevisiae) in high and low sulfate environments and analyzes the potential for genetically mutated plasmids to facilitate sulfate uptake in gene deficient yeast medias. The goal of the project was to transform the Sul1 and Sul2 transporters into the nutrient deficient yeast strain BY4743 and observe growth in conditions that would otherwise prohibit growth in order to create a model that can be used to study the effect of sulfate concentration on the transporters. The experimental results showed that expressing the sulfate transporters in the BY4743 strain provided the potential for the yeast to grow in nutrient-poor media. The growth potential model allow...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
(A) Schematic representing how an unknown GENE X could bypass the requirement for MET17 by performin...
abstract: The primary objective of this project is to further the knowledge about SCL26 family of an...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Aims: An evolution-based strategy was designed to screen novel yeast strains impaired in sulfate ass...
(A) Schematic summarizing sulfate assimilation in S. cerevisiae. Sulfate SO42− is reduced to sulfid...
Saccharomyces cerevisiae is being used for many years by humans in the production of bread, beer and...
Saccharomyces cerevisiae is being used for many years by humans in the production of bread, beer and...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Hydrogen sulfide is a common wine fault, with a rotten-egg odour, which is directly related to yeast...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
(A) Schematic representing how an unknown GENE X could bypass the requirement for MET17 by performin...
abstract: The primary objective of this project is to further the knowledge about SCL26 family of an...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Aims: An evolution-based strategy was designed to screen novel yeast strains impaired in sulfate ass...
(A) Schematic summarizing sulfate assimilation in S. cerevisiae. Sulfate SO42− is reduced to sulfid...
Saccharomyces cerevisiae is being used for many years by humans in the production of bread, beer and...
Saccharomyces cerevisiae is being used for many years by humans in the production of bread, beer and...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Hydrogen sulfide is a common wine fault, with a rotten-egg odour, which is directly related to yeast...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
Assimilation of sulfur is vital to all organisms. In S. cerevisiae, inorganic sulfate is first reduc...
(A) Schematic representing how an unknown GENE X could bypass the requirement for MET17 by performin...