Post-transcriptional control of bacterial nitrogen metabolism by regulatory noncoding RNAs

Nitrogen metabolism is the most basic process of material and energy metabolism in living organisms, and processes involving the uptake and use of different nitrogen sources are usually tightly regulated at the transcriptional and post-transcriptional levels. Bacterial regulatory noncoding RNAs are novel post-transcriptional regulators that repress or activate the expression of target genes through complementarily pairing with target mRNAs; therefore, these noncoding RNAs play an important regulatory role in many physiological processes, such as bacterial substance metabolism and stress response. In recent years, a study found that noncoding RNAs play a vital role in the post-transcriptional regulation of nitrogen metabolism, which is currently a hot topic in the study of bacterial nitrogen metabolism regulation. In this review, we present an overview of recent advances that increase our understanding on the regulatory roles of bacterial noncoding RNAs and describe in detail how noncoding RNAs regulate biological nitrogen fixation and nitrogen metabolic engineering. Furthermore, our goal is to lay a theoretical foundation for better understanding the molecular mechanisms in bacteria that are involved in environmental adaptations and metabolically-engineered genetic modifications.

Automated summary

Nitrogen metabolism is a fundamental process in living organisms, and bacterial noncoding RNAs have been found to play important roles in its post-transcriptional regulation. This review provides an overview of recent advances in understanding the regulatory roles of bacterial noncoding RNAs in nitrogen metabolism and describes their specific regulation of biological nitrogen fixation and nitrogen metabolic engineering.