Rainer Zocher scite author profile

The gene encoding the multifunctional enzyme enniatin synthetase from Fusarium scirpi (esyn1) was isolated and characterized by transcriptional mapping and expression studies in Escherichia coli. This is the first example of a gene encoding an N-methyl peptide synthetase. The nucleotide sequence revealed an open reading frame of 9393 bp encoding a protein of 3131 amino acids (M(r) 346,900). Two domains designated EA and EB within the protein were identified which share similarity to each other and to microbial peptide synthetase domains. In contrast to the N-terminal domain EA, the carboxyl terminal domain EB is interrupted by a 434-amino-acid portion which shows local similarity to a motif apparently conserved within adenine and cytosine RNA and DNA methyltransferases and therefore seems to harbour the N-methyl-transferase function of the multienzyme.

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Enniatin synthetase, a novel type of multifunctional enzyme catalyzing depsipeptide synthesis in Fusarium oxysporum

Zocher¹,

Keller²,

Kleinkauf³

1982

Biochemistry

118

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Enniatin synthetase, a multifunctional enzyme catalyzing depsipeptide formation in Fusarium oxysporum was purified to 98% homogeneity as judged by analytical disc gel electrophoresis. The enzyme consists of a single polypeptide chain of a molecular weight of about 250 000. Similar to a number of peptide synthetases and to fatty acid synthetase the enzyme contains 4'-phosphopantetheine as a prosthetic group. Studies on substrate specificity revealed that the enzyme is capable of synthesizing enniatins A--C and also mixed-type enniatins containing more than one species of amino acid. A linear dependence of rate of enniatin synthesis on enzyme concentration was observed, indicating that depsipeptide formation is an intramolecular process. Omission of the methyl donor S-adenosyl-L-methionine resulted in the formation of unmethylated enniatins with a reaction rate of about 10% of that observed in the case of enniatins. Sulfhydryl-directed reagents generally had an inhibitory influence on enniatin synthesis. However, inhibition studies with iodoacetamide revealed that it behaves differently toward the hydroxy acid site(s) and amino acid site(s). This indicates the presence of chemically distinct thiol groups in the active sites for the two substrates.

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Bacterial Expression of Catalytically Active Fragments of the Multifunctional Enzyme Enniatin Synthetase

Haese

Pieper

Ostrowski

et al. 1994

Journal of Molecular Biology

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N-Methyltransferase function of the multifunctional enzyme enniatin synthetase

Billich¹,

Zocher²

1987

Biochemistry

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Rainer Zocher

Multifunctional Peptide Synthetases

Molecular characterization of the enniatin synthetase gene encoding a multifunctional enzyme catalysing N‐methyldepsipeptide formation in Fusarium scirpi

Enniatin synthetase, a novel type of multifunctional enzyme catalyzing depsipeptide synthesis in Fusarium oxysporum

Bacterial Expression of Catalytically Active Fragments of the Multifunctional Enzyme Enniatin Synthetase

N-Methyltransferase function of the multifunctional enzyme enniatin synthetase

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