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Current paradigms and future challenges in harnessing gut bacterial symbionts of insects for biodegradation of plastic wastes.

Mudasir A DarRongrong XieHossain M ZabedKiran D PawarNeeraja P DholeJianzhong Sun
Published in: Insect science (2024)
The ubiquitous incorporation of plastics into daily life, coupled with inefficient recycling practices, has resulted in the accumulation of millions of metric tons of plastic waste, that poses a serious threat to the Earth's sustainability. Plastic pollution, a global problem, disrupts the ecological balance and endangers various life forms. Efforts to combat plastic pollution are underway, with a promising avenue being biological degradation facilitated by certain insects and their symbiotic gut microorganisms, particularly bacteria. This review consolidates existing knowledge on plastic degradation by insects and their influence on gut microbiota. Additionally, it delves into the potential mechanisms employed by insects in symbiosis with gut bacteria, exploring the bioconversion of waste plastics into value-added biodegradable polymers through mineralization. These insights hold significant promise for the bio-upcycling of plastic waste, opening new horizons for future biomanufacturing of high-value chemicals from plastic-derived compounds. Finally, we weigh the pros and cons of future research endeavors related to the bioprospection of plastic-degrading bacteria from underexplored insect species. We also underscore the importance of bioengineering depolymerases with novel characteristics, aiming for their application in the remediation and valorization of waste plastics.
Keyphrases
  • heavy metals
  • healthcare
  • sewage sludge
  • human health
  • risk assessment
  • current status
  • primary care
  • drug delivery
  • climate change
  • physical activity
  • municipal solid waste
  • deep learning
  • zika virus