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Microbial assisted alleviation of nickel toxicity in plants: A review.
Ecotoxicol Environ Saf
January 2025
Department of Biosystems and Technology, Swedish University of Agricultural Sciences, Alnarp 23456, Sweden. Electronic address:
Nickel (Ni) is required in trace amounts (less than 500 µg kg) in plants to regulate metabolic processes, the immune system, and to act as an enzymatic catalytic cofactor. Conversely, when nickel is present in high concentration, it is considered as a toxic substance. Excessive human nickel exposure occurs through ingestion, inhalation, and skin contact, ultimately leading to respiratory, cardiovascular, and chronic kidney diseases.
View Article and Find Full Text PDFPlant Microbe Interaction-Predicting the Pathogen Internalization Through Stomata Using Computational Neural Network Modeling.
Foods
November 2024
College of Mechanical and Electrical Engineering, Henan Agricultural University, Zhengzhou 450002, China.
Foodborne disease presents a substantial challenge to researchers, as foliar water intake greatly influences pathogen internalization via stomata. Comprehending plant-pathogen interactions, especially under fluctuating humidity and temperature circumstances, is crucial for formulating ways to prevent pathogen ingress and diminish foodborne hazards. This study introduces a computational model utilizing neural networks to anticipate pathogen internalization via stomata, contrasting with previous research that emphasized biocontrol techniques.
View Article and Find Full Text PDFUnlabelled: Understanding the biotic drivers of diversity is a major goal of microbial ecology. One approach towards tackling this issue is to interrogate relatively simple communities that are easy to observe and perturb. Figs (syconia) of the genus represent such a system.
View Article and Find Full Text PDFSingle-cell transcriptomics: a new frontier in plant biotechnology research.
Plant Cell Rep
November 2024
University Institute of Biotechnology, Chandigarh University, Mohali, Punjab, India.
Single-cell transcriptomic techniques have ushered in a new era in plant biology, enabling detailed analysis of gene expression at the resolution of individual cells. This review delves into the transformative impact of these technologies on our understanding of plant development and their far-reaching implications for plant biotechnology. We present a comprehensive overview of the latest advancements in single-cell transcriptomics, emphasizing their application in elucidating complex cellular processes and developmental pathways in plants.
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