Microbial Degradation of Rubber: Actinobacteria

Microbial Degradation of Rubber: Actinobacteria

Rubber is an essential part of our daily lives with thousands of rubber-based products being made and used. Natural rubber undergoes chemical processes and structural modifications, while synthetic rubber, mainly synthetized from petroleum by-products are difficult to degrade safely and sustainably....

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Bibliographic Details
Published in:Polymers Vol. 13; no. 12; p. 1989
Main Authors: Basik, Ann, Sanglier, Jean-Jacques, Yeo, Chia, Sudesh, Kumar
Format: Journal Article
Language:English
Published: Basel MDPI AG 17-06-2021
MDPI
Subjects:
actinobacteria
Artificial rubber
Biodegradation
By products
Chemical reactions
Degradation
distribution
diversity
Isoprene
Landfill
Latex
latex clearing protein
Lipids
Liquid crystal polymers
Microorganisms
Natural rubber
Outdoor air quality
Pollutants
Polymers
Recycling
Review
rubber
Rubber industry
Rubber products
Soil water
Synthetic rubber
Tropical diseases
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Summary:Rubber is an essential part of our daily lives with thousands of rubber-based products being made and used. Natural rubber undergoes chemical processes and structural modifications, while synthetic rubber, mainly synthetized from petroleum by-products are difficult to degrade safely and sustainably. The most prominent group of biological rubber degraders are Actinobacteria. Rubber degrading Actinobacteria contain rubber degrading genes or rubber oxygenase known as latex clearing protein (lcp). Rubber is a polymer consisting of isoprene, each containing one double bond. The degradation of rubber first takes place when lcp enzyme cleaves the isoprene double bond, breaking them down into the sole carbon and energy source to be utilized by the bacteria. Actinobacteria grow in diverse environments, and lcp gene containing strains have been detected from various sources including soil, water, human, animal, and plant samples. This review entails the occurrence, physiology, biochemistry, and molecular characteristics of Actinobacteria with respect to its rubber degrading ability, and discusses possible technological applications based on the activity of Actinobacteria for treating rubber waste in a more environmentally responsible manner.
Bibliography:ObjectType-Article-2
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ISSN:2073-4360
2073-4360
DOI:10.3390/polym13121989