Exploration of the Regulatory Mechanism of Secondary Metabolism by Comparative Transcriptomics in Aspergillus flavus.

Guangshan Yao,Shihua Wang,Genli Ma,Yishi Fu,Zhou Fang,Yuewei Yue,Zhangling Xu

doi:10.3389/fmicb.2018.01568

Guangshan Yao, Shihua Wang + Show 5 more

Open Access

https://doi.org/10.3389/fmicb.2018.01568

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Abstract

Mycotoxins cause a huge threaten to agriculture, food safety, and human and animal life. Among them, aflatoxins (AFs) have always been considered the most potent carcinogens, and filamentous fungi from Aspergillus genus are their major producers, especially A. flavus. Although the biosynthesis path of these chemicals had been well-identified, the regulatory mechanisms controlling expression of AF gene cluster were poorly understood. In this report, genome-wide transcriptome profiles of A. flavus from AF conducing [yeast sucrose media (YES)] and non-conducing [yeast peptone media (YEP)] conditions were compared by using deep RNA sequencing (RNA-seq), and the results revealed that AF biosynthesis pathway and biosynthesis of amino acids were significantly upregulated in YES vs. YEP. Further, a novel LaeA-like methyltransferase AFLA_121330 (Lael1) was identified for the first time, to play a specific role in the regulation of AF biosynthesis. Contrary to LaeA, which gene deletion reduced the level, lael1 deletion resulted in a significant increase in AF production. Further, co-expression network analysis revealed that mitochondrial pyruvate transport and signal peptide processing were potentially involved in AF synthesis for the first time, as well as biological processes of ribosome, branched-chain amino acid biosynthetic process and translation were co-regulated by AfRafA and AfStuA. To sum up, our analyses could provide novel insights into the molecular mechanism for controlling the AF and other secondary metabolite synthesis, adding novel targets for plant breeding and making fungicides.

Highlights

Aflatoxins (AFs) has always been labeled as the most potent carcinogens (Squire, 1981; Amaike and Keller, 2011)
Our results revealed that amino acid biosynthesis and metabolism were significantly activated under yeast sucrose media (YES) relative to yeast peptone media (YEP) and subjected to regulation of both AfRafA and AfStuA
TLC analysis of aflatoxin B1 (AFB1) was performed with the acetone:chloroform (1:9, v/v) solvent system, and AFB1 spots were displayed under ultraviolet activation at 365 nm

Summary

Introduction

Aflatoxins (AFs) has always been labeled as the most potent carcinogens (Squire, 1981; Amaike and Keller, 2011). Regulatory Mechanism of Secondary Metabolism in Aspergillus flavus (Kabak and Dobson, 2017), milk in Europe (Kumar et al, 2017b), vegetable oil (Sun et al, 2011) and Chinese traditional medicines in China (Zhao et al, 2016), and even human breast milk in Turkey (Kiliç Altun et al, 2017). An increasing body of evidences demonstrated that exposure to or ingestion of AF severely impaired human or animal health (Kumar et al, 2017b). An improved understanding of AF synthesis and metabolism, and where its regulatory mechanism is urgently required, which would greatly contribute to the development of new and effective long-term management strategies to avoid the severe effects caused by these toxic chemicals

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