EC Number |
Natural Substrates |
---|
2.3.1.30 | acetyl-CoA + L-Ser |
key enzyme in L-cysteine biosynthesis |
2.3.1.30 | acetyl-CoA + L-serine |
- |
2.3.1.30 | acetyl-CoA + L-serine |
rate-limiting step of cysteine biosynthesis |
2.3.1.30 | acetyl-CoA + L-serine |
regulatory role in cysteine biosynthesis |
2.3.1.30 | acetyl-CoA + L-serine |
key role in the sulfur assimilatory pathway |
2.3.1.30 | acetyl-CoA + L-serine |
first enzyme in L-cysteine synthesis pathway |
2.3.1.30 | acetyl-CoA + L-serine |
enzyme in metabolic pathway of sulfur from sulfide to methionine |
2.3.1.30 | acetyl-CoA + L-serine |
enzyme is involved in cysteine biosynthesis. Increase in cysteine production confers enhanced resistance against osmotic stress in the osmosensitive yeast strain. Cysteine biosynthesis is a limiting factor in osmotic stress tolerance in yeast |
2.3.1.30 | acetyl-CoA + L-serine |
the complex array of compartment-specific SATase isoforms with distinct enzymatic properties and expression patterns ensures the provision of Cys in response to revelopmental and environmental changes |
2.3.1.30 | acetyl-CoA + L-serine |
cysteine biosynthesis in plants is partly regulated by the physical association of O-acetylserine sulfhydrylase and serine acetyltransferase. Thermodynamics of the interaction is analyzed |