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Literature DB >> 20372037

Biosynthesis of phenylpropanoid amides by an endophytic Penicillium brasilianum found in root bark of Melia azedarach.

Taicia Pacheco Fill¹, Bianca Ferreira da Silva, Edson Rodrigues-Fo.

Abstract

Biosynthetic studies on brasiliamides, potently convulsive and bacteriostatic compounds from an endophytic Penicillium brasilianum isolated from Melia azedarach (Meliaceae), confirms their phenylpropanoid origin, which is very uncommon in fungi. Feeding experiments with [2-(13)C]- phenylalanine indicated the incorporation of two units of this amino acid on brasiliamide structures. The first step in the phenylpropanoid pathway to those compounds was evaluated through enzymatic bioassays and confirmed the phenylalanine ammonia-lyase (PAL) participation. The metabolism of phenylalanine in this fungus is discussed.

Entities: Chemical Disease Species

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Year: 2010 PMID： 20372037

Source DB: PubMed Journal: J Microbiol Biotechnol ISSN： 1017-7825 Impact factor: 2.351

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Cited

6 in total

1. Piperazine ring formation by a single-module NRPS and cleavage by an α-KG-dependent nonheme iron dioxygenase in brasiliamide biosynthesis.

Authors: Bochuan Yuan; Dong Liu; Xin Guan; Yunchen Yan; Jianping Zhang; Yiping Zhang; Donghui Yang; Ming Ma; Wenhan Lin
Journal: Appl Microbiol Biotechnol Date: 2020-05-21 Impact factor: 4.813

2. The Penicillium brasilianum Histone Deacetylase Clr3 Regulates Secondary Metabolite Production and Tolerance to Oxidative Stress.

Authors: Daniel Yuri Akiyama; Marina Campos Rocha; Jonas Henrique Costa; Caroline Brandão Teles; Giuliana da Silva Zuccoli; Iran Malavazi; Taicia Pacheco Fill
Journal: J Fungi (Basel) Date: 2022-05-17

3. Chrysosporazines Revisited: Regioisomeric Phenylpropanoid Piperazine P-Glycoprotein Inhibitors from Australian Marine Fish-Derived Fungi.

Authors: Amila Agampodi Dewa; Zeinab G Khalil; Ahmed H Elbanna; Robert J Capon
Journal: Molecules Date: 2022-05-16 Impact factor: 4.927

Biosynthesis of phenylpropanoid amides by an endophytic Penicillium brasilianum found in root bark of Melia azedarach.

1. Piperazine ring formation by a single-module NRPS and cleavage by an α-KG-dependent nonheme iron dioxygenase in brasiliamide biosynthesis.

2. The Penicillium brasilianum Histone Deacetylase Clr3 Regulates Secondary Metabolite Production and Tolerance to Oxidative Stress.

3. Chrysosporazines Revisited: Regioisomeric Phenylpropanoid Piperazine P-Glycoprotein Inhibitors from Australian Marine Fish-Derived Fungi.

4. Microbial diversification of Diels-Alder cycloadducts by whole cells of Penicillium brasilianum.

5. The use of endophytes to obtain bioactive compounds and their application in biotransformation process.

Review 6. Insights into Penicillium brasilianum Secondary Metabolism and Its Biotechnological Potential.