Litcius/Paper detail

Degradation potential and pathways of methylcyclohexane by bacteria derived from Antarctic surface water

Yingchao Li, Zhisong Cui, Xiao Luan, Xinqi Bian, Guoqing Li, Tong Hao, Jinyan Liu, Ke Feng, Yizhi Song

2023Chemosphere11 citationsDOIOpen Access PDF

Abstract

Cycloalkanes pose a tremendous environmental risk due to their high concentration in petroleum hydrocarbons and hazardous effects to organisms. Numerous studies have documented the biodegradation of acyclic alkanes and aromatic hydrocarbons. However, insufficient attention has been paid to studies on the microbial degradation of cycloalkanes, which might be closely linked to psychrophilic microbes derived from low-temperature habitats. Here we show that endemic methylcyclohexane (MCH, an abundant cycloalkane species in oil) consumers proliferated in seawater samples derived from the Antarctic surface water (AASW). The MCH-consuming bacterial communities derived from AASW exhibited a distinct species composition compared with their counterparts derived from other cold-water habitats. We also probed Colwellia and Roseovarius as the key active players in cycloalkane degradation by dilution-to-extinction-based incubation with MCH as sole source of carbon and energy. Furthermore, we propose two nearly complete MCH degradation pathways, lactone formation and aromatization, concurrently in the high-quality metagenome-assembled genomes of key MCH consumer Roseovarius. Overall, we revealed that these Antarctic microbes might have strong interactions that enhance the decomposition of more refractory hydrocarbons through complementary degradation pathways.

Topics & Concepts

PsychrophileEnvironmental chemistryDegradation (telecommunications)BiodegradationCycloalkaneChemistryExtreme environmentMethylcyclohexaneMetagenomicsPristaneMicrobial biodegradationHydrocarbonBacteriaMicroorganismBiologyOrganic chemistryBiochemistryEnzymeComputer scienceCatalysisTelecommunicationsGeneticsGeneMicrobial bioremediation and biosurfactantsMicrobial Community Ecology and PhysiologyMicrobial Metabolic Engineering and Bioproduction