Data from: Responses of Aspergillus flavus to Oxidative Stress Are Related to Fungal Development Regulator, Antioxidant Enzyme, and Secondary Metabolite Biosynthetic Gene Expression
The infection of maize and peanut with Aspergillus flavus and subsequent contamination with aflatoxin pose a threat to global food safety and human health, and is exacerbated by drought stress. Drought stress-responding compounds such as reactive oxygen species (ROS) are associated with fungal stress responsive signaling and secondary metabolite production, and can stimulate the production of aflatoxin by A. flavus in vitro. These secondary metabolites have been shown to possess diverse functions in soil-borne fungi including antibiosis, competitive inhibition of other microbes, and abiotic stress alleviation. Previously, we observed that isolates of A. flavus showed differences in oxidative stress tolerance which correlated with their aflatoxin production capabilities. In order to better understand these isolate-specific oxidative stress responses, we examined the transcriptional responses of field isolates of A. flavus with varying levels of aflatoxin production (NRRL3357, AF13, and Tox4) to H2O2-induced oxidative stress using an RNA sequencing approach. These isolates were cultured in an aflatoxin-production conducive medium amended with various levels of H2O2. Whole transcriptomes were sequenced using an Illumina HiSeq platform with an average of 40.43 million filtered paired-end reads generated for each sample. The obtained transcriptomes were then used for differential expression, gene ontology, pathway, and co-expression analyses. Isolates which produced higher levels of aflatoxin tended to exhibit fewer differentially expressed genes than isolates with lower levels of production. Genes found to be differentially expressed in response to increasing oxidative stress included antioxidant enzymes, primary metabolism components, antibiosis-related genes, and secondary metabolite biosynthetic components specifically for aflatoxin, aflatrem, and kojic acid. The expression of fungal development-related genes including aminobenzoate degradation genes and conidiation regulators were found to be regulated in response to increasing stress. Aflatoxin biosynthetic genes and antioxidant enzyme genes were also found to be co-expressed and highly correlated with fungal biomass under stress. This suggests that these secondary metabolites may be produced as part of coordinated oxidative stress responses in A. flavus along with antioxidant enzyme gene expression and developmental regulation.
This work is partially supported by the U.S. Department of Agriculture Agricultural Research Service (USDA-ARS), the Georgia Agricultural Commodity Commission for Corn, the Georgia Peanut Commission, the Peanut Foundation, and AMCOE (Aflatoxin Mitigation Center of Excellence, Chesterfield, MO, USA). This work has also been undertaken as part of the CGIAR Research Program on Grain Legumes and the USAID University Linkages Program between USDA-ARS and ICRISAT. ICRISAT is a member of CGIAR Consortium.
Resources in this dataset:
Resource Title: Supplementary data.
File Name: Web Page, url: https://www.frontiersin.org/article/10.3389/fmicb.2016.02048/full#supplementary-material
The Supplementary Material for this article can be found online at this link.
Funding
USDA-ARS
United States Agency for International Development
Georgia Agricultural Commodity Commission for Corn
Georgia Peanut Commission
Peanut Foundation
Aflatoxin Mitigation Center of Excellence
CGIAR Research Program on Grain Legumes
USAID University Linkages Program
ICRISAT
History
Data contact name
Guo, BaozhuData contact email
baozhu.guo@ars.usda.govPublisher
Frontiers in MicrobiologyTemporal Extent Start Date
2016-12-21Theme
- Not specified
Geographic Coverage
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- biota
- farming
National Agricultural Library Thesaurus terms
Aspergillus flavus; oxidative stress; secondary metabolites; gene expression; fungal diseases of plants; plant pathogenic fungi; corn; peanuts; aflatoxins; food safety; water stress; drought; reactive oxygen species; soil fungi; antibiosis; stress tolerance; stress response; transcription (genetics); hydrogen peroxide; transcriptome; gene expression regulation; gene ontology; genes; enzymes; metabolism; kojic acid; conidiation; microbial biomassPending citation
- No
Public Access Level
- Public