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Bioscience, Biotechnology, and Biochemistry Volume 71, 2007 - Issue 9
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Original Articles

Molecular and Genetic Studies of Fusarium Trichothecene Biosynthesis: Pathways, Genes, and Evolution

Makoto KIMURAPlant & Microbial Metabolic Engineering Research Unit, Discovery Research Institute (DRI), RIKEN;Laboratory for Remediation Research, Plant Science Center (PSC1), RIKEN
,
Takeshi TOKAIPlant & Microbial Metabolic Engineering Research Unit, Discovery Research Institute (DRI), RIKEN;Laboratory for Remediation Research, Plant Science Center (PSC1), RIKEN
,
Naoko TAKAHASHI-ANDOPlant & Microbial Metabolic Engineering Research Unit, Discovery Research Institute (DRI), RIKEN;Laboratory for Remediation Research, Plant Science Center (PSC1), RIKEN
,
Shuichi OHSATOLaboratory for Remediation Research, Plant Science Center (PSC1), RIKEN
&
Makoto FUJIMURAFaculty of Life Sciences, Toyo University
Pages 2105-2123 | Published online: 22 May 2014
 
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Abstract

Trichothecenes are a large family of sesquiterpenoid secondary metabolites of Fusarium species (e.g., F. graminearum) and other molds. They are major mycotoxins that can cause serious problems when consumed via contaminated cereal grains. In the past 20 years, an outline of the trichothecene biosynthetic pathway has been established based on the results of precursor feeding experiments and blocked mutant analyses. Following the isolation of the pathway gene Tri5 encoding the first committed enzyme trichodiene synthase, 10 biosynthesis genes (Tri genes; two regulatory genes, seven pathway genes, and one transporter gene) were functionally identified in the Tri5 gene cluster. At least three pathway genes, Tri101 (separated alone), and Tri1 and Tri16 (located in the Tri1-Tri16 two-gene cluster), were found outside of the Tri5 gene cluster. In this review, we summarize the current understanding of the pathways of biosynthesis, the functions of cloned Tri genes, and the evolution of Tri genes, focusing on Fusarium species.

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