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New discovery in peanut defense mechanisms offers hope for disease resistance


March 8, 2024


New Discovery in Peanut Defense Mechanisms Offers Hope for Disease Resistance


 

The discovery of a natural defense mechanism in peanut that resists fungal infection holds promise for the future development of disease-resistant peanut varieties. Peanut, an economically significant oilseed, is vulnerable to Aspergillus infection and subsequent aflatoxin contamination.

A recent study by ICRISAT researchers delved deeper into the natural resistance exhibited by select peanut varieties and uncovered the biochemical processes that lead to the thickening of the secondary cell wall, providing greater resistance to the fungal infection caused by Aspergillus flavus

Aflatoxin, a potent carcinogen and toxin, accumulates in a variety of food crops such as cereals, oilseeds, pulses, and nuts due to infection by Aspergillus species. Aflatoxin contamination poses a significant global challenge, impacting food safety, human health, and the economy.

Strict government regulations on the permissible levels of aflatoxin in food commodities significantly impact the food market and export economies, especially in developing countries. While various physical and chemical methods exist to combat, minimize and manage aflatoxin contamination, developing more resistant varieties offers the most economical solution by addressing the problem at its root.

This study offers insights that will be pivotal for breeding groundnut varieties that are fully resistant to Aspergillus infection in the future.  

Dr Jacqueline Hughes, Director General of ICRISAT, highlighted the organization's over 50 years' experience in managing aflatoxin contamination.

“ICRISAT's efforts, ranging from low-cost aflatoxin detection assays to post-harvest management practices, have revitalized export economies, particularly in Malawi. This study is crucial for advancing research aimed at eliminating the issue at its source, saving both cost and effort,” said Dr Hughes.


Fluorescent microscope images depicting secondary cell wall thickening in resistant groundnut variety (left) and susceptible variety (right)Fluorescent microscope images depicting secondary cell wall thickening in resistant groundnut variety (left) and susceptible variety (right)
 

For this study, ICRISAT researchers used a metabolomics-based systems biology approach to understand the biochemistry behind increased peanut resistance to Aspergillus infection for the first time. The study reports the linkage between two specific metabolites and the level of resistance exhibited by peanut varieties.

The two key metabolites, hydroxycinnamic acid amides (HCAAs) and lignin precursor levels were higher in the resistant genotype. These compounds strengthen the secondary cell wall, providing a physical and chemical barrier against infection.

“The findings of this study highlight the important role secondary thickening of cell walls plays in reducing infection of seed in the field. If we can combine this with other mechanisms, which further decrease infection in peanut, we can really begin to move towards an aflatoxin-free peanut, ensuring the production of safe, toxin-free food,” stated Dr Sean Mayes, Global Research Program Director – Accelerated Crop Improvement. 

Introducing the metabolomics-based systems approach, Dr Yogendra Kalenahalli, the study's lead author, emphasizes its utility in uncovering the cellular mechanisms behind plant disease resistance.

"This methodology is not just confined to breeding more resistant groundnut varieties but can provide a wider understanding of similar resistance mechanisms across a broad spectrum of food crops such as cereals, oilseeds, and nuts, which are highly susceptible to contamination from aflatoxin and other mycotoxins," shared Dr Kalenahalli.

 

Review the complete study at the link below:

Comparative metabolomics analysis reveals secondary cell wall thickening as a barrier to resist Aspergillus flavus infection in groundnut

Aflatoxin contamination caused by Aspergillus flavus significantly threatens food safety and human health. Resistance to aflatoxin is a highly complex and quantitative trait, but the underlying molec...


Wiley Online Library

This study is supported by Science and Engineering Research Board (SERB), Govt. of India, Indian Council of Agricultural Research (ICAR) and CGIAR Research Program on Grain Legumes and Dryland Cereals.

 



More news from: ICRISAT (International Crops Research Institute for Semi-Arid Tropics)


Website: http://www.icrisat.org

Published: March 8, 2024

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