Degradation strategies and associated regulatory mechanisms/features for aromatic compound metabolism in bacteria.

Degradation strategies and associated regulatory mechanisms/features for aromatic compound metabolism in bacteria. Adv Appl Microbiol. 2020;112:1-65 Authors: Phale PS, Malhotra H, Shah BA Abstract As a result of anthropogenic activity, large number of recalcitrant aromatic compounds have been released into the environment. Consequently, microbial communities have adapted and evolved to utilize these compounds as sole carbon source, under both aerobic and anaerobic conditions. The constitutive expression of enzymes necessary for metabolism imposes a heavy energy load on the microbe which is overcome by arrangement of degradative genes as operons which are induced by specific inducers. The segmentation of pathways into upper, middle and/or lower operons has allowed microbes to funnel multiple compounds into common key aromatic intermediates which are further metabolized through central carbon pathway. Various proteins belonging to diverse families have evolved to regulate the transcription of individual operons participating in aromatic catabolism. These proteins, complemented with global regulatory mechanisms, carry out the regulation of aromatic compound metabolic pathways in a concerted manner. Additionally, characteristics like chemotaxis, preferential utilization, pathway compartmentalization and biosurfactant production confer an advantage to the microbe, thus making bioremediation of the aromatic pollutants more efficient and ef...
Source: Advances in Applied Microbiology - Category: Microbiology Authors: Tags: Adv Appl Microbiol Source Type: research