in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
CDA in fungi are divided broadly into two subgroups: intracellular CDA and extracellular CDA. Intracellular CDA is secreted into the periplasm while extracellular chitin deacetylase is secreted into the external medium
CDA in fungi are divided broadly into two subgroups: intracellular CDA and extracellular CDA. Intracellular CDA is secreted into the periplasm while extracellular chitin deacetylase is secreted into the external medium
CDA in fungi are divided broadly into two subgroups: intracellular CDA and extracellular CDA. Intracellular CDA is secreted into the periplasm while extracellular chitin deacetylase is secreted into the external medium
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
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brenda
additional information
Puccinia graminis f. sp. tritici race SCCL
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in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis
in fungi, periplasmic CDAs are generally tightly coupled to a chitin synthase to rapidly deacetylate newly synthesized chitins before their maturation and crystallization. Extracellular CDAs are secreted to alter the physicochemical properties of the cell wall to either protect the cell wall from exogenous chitinases or to initiate autolysis