EC Number |
Natural Substrates |
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2.4.1.16 | more |
chitin synthesis and hydrolysis are not coupled, but both are regulated during yeast - hyphe morphogenesis in Candida albicans |
2.4.1.16 | more |
class II CaChs1p is involved in septum formation in both the yeast and hyphal forms and for cell integrity |
2.4.1.16 | more |
MsCHS1 appears to be inversely regulated because its mRNA is detectable only during the molt at the time when tracheal growth occurs at the basal site of the midgut |
2.4.1.16 | more |
the hyphal-specific chitin synthase gene CHS2 is not essential for growth, dimorphism, or virulence. The class I CaChs2p enzyme is responsible for part of the hyphal chitin |
2.4.1.16 | more |
chs-1 is critical for eggshell production. Complete loss of function in a chs-1 deletion results in embryos that lack chitin in their eggshells and fail to divide |
2.4.1.16 | more |
CHS1 supports the tip growth of yeastlike cells |
2.4.1.16 | more |
CHS2 plays a minor role during infection process and becomes crucial when the plant grows under optimal conditions |
2.4.1.16 | more |
CHS3 is the most important chitin synthase for vegetative growth. Deletion of chs3 gene leads to cell death at 37°C |
2.4.1.16 | more |
CHS3 plays a minor role during infection process and becomes crucial when the plant grows under optimal conditions |
2.4.1.16 | more |
CHS4 plays a minor role during infection process and becomes crucial when the plant grows under optimal conditions |