A metagenomic perspective on microbial hydrocarbon degradation: uncovering novel pathways and community dynamics
摘要
The microbial degradation of petroleum hydrocarbons is a fundamental biogeochemical process and a cornerstone of environmental bioremediation. While traditional culture-based studies have outlined the basic principles, the advent of metagenomics has revolutionised our understanding by revealing the full genetic and functional diversity of hydrocarbon-degrading communities in situ. This review synthesises the current state of knowledge on both aerobic and anaerobic hydrocarbon biodegradation, providing a critical comparative analysis of traditional versus multi-omics methodologies. We provide an in-depth examination of aerobic mechanisms, initiated by oxygenases (e.g., alkB, PAH-RHDα), and contrast them with the diverse array of anaerobic activation pathways, including fumarate addition (bssA) and the recently elucidated direct carboxylation pathway for polycyclic aromatic hydrocarbons (PAHs). Furthermore, we highlight groundbreaking metagenomic insights into anaerobic benzene degradation and the critical role of syntrophic networks driven by interspecies electron transfer. Finally, we present specific case studies demonstrating the translation of genomic data into practical bioremediation strategies, such as the rational design of synthetic consortia. This review charts these recent advances, highlights remaining knowledge gaps, and outlines future directions for harnessing multi-omics to translate genomic potential into effective, field-scale environmental solutions.