Current advancements in fungal engineering technologies for Sustainable Development Goals.

Trends Microbiol

ARC Center of Excellence in Synthetic Biology, Australian Genome Foundry, and School of Natural Sciences, Macquarie University, Sydney, Australia.

Published: December 2024

AI Article Synopsis

  • - Fungi play a crucial role in addressing global issues like agricultural productivity, environmental sustainability, and climate change by utilizing advanced techniques in fungal genomics and metabolic engineering.
  • - Fungal genomics involves analyzing and modifying fungal DNA to improve traits such as pest resistance and nutrient absorption, while metabolic engineering changes their biochemical processes to produce valuable materials like biofuels and pharmaceuticals.
  • - The integration of AI with these fields can enhance sustainable farming practices, improve soil health, and support ecosystem restoration, while this review assesses the latest research and challenges in scaling these innovative applications for a sustainable future.

Article Abstract

Fungi are emerging as key organisms in tackling global challenges related to agricultural and food productivity, environmental sustainability, and climate change. This review delves into the transformative potential of fungal genomics and metabolic engineering, two forefront fields in modern biotechnology. Fungal genomics entails the thorough analysis and manipulation of fungal genetic material to enhance desirable traits, such as pest resistance, nutrient absorption, and stress tolerance. Metabolic engineering focuses on altering the biochemical pathways within fungi to optimize the production of valuable compounds, including biofuels, pharmaceuticals, and industrial enzymes. By artificial intelligence (AI)-driven integration of genetic and metabolic engineering techniques, we can harness the unique capabilities of both filamentous and mycorrhizal fungi to develop sustainable agricultural practices, enhance soil health, and promote ecosystem restoration. This review explores the current state of research, technological advancements, and practical applications, offering insights into scalability challenges on how integrative fungal genomics and metabolic engineering can deliver innovative solutions for a sustainable future.

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Source
http://dx.doi.org/10.1016/j.tim.2024.11.001DOI Listing

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