Role of plant microRNAs and their corresponding pathways in fluctuating light conditions.

In recent years, it has been established that microRNAs (miRNAs) are critical for various plant physiological regulations in numerous species. Next-generation sequencing technologies have aided to our understandings related to the critical role of miRNAs during environmental stress conditions and plant development. Light influences not just miRNA accumulation but also their biological activities via regulating miRNA gene transcription, biosynthesis, and RNA-induced silencing complex (RISC) activity. Light-regulated routes, processes, and activities can all be affected by miRNAs. Here, we will explore how light affects miRNA gene expression and how conserved and novel miRNAs exhibit altered expression across different plant species in response to variable light quality. Here, we will mainly discuss recent advances in understanding how miRNAs are involved in photomorphogenesis, and photoperiod-dependent plant biological processes such as cell proliferation, metabolism, chlorophyll pigment synthesis and axillary bud growth. The review concludes by presenting future prospects via hoping that light-responsive miRNAs can be exploited in a better way to engineer economically important crops to ensure future food security. • microRNAs (miRNAs) are critical for various plant physiological regulations. • Light influences miRNA accumulation and their biological activities. • Light-regulated routes, processes, and activities can all be affected by miRNAs. • We explored, how light affects miRNA gene expression in different plant species. • Recent advances in light dependent miRNA corresponding pathways have been discussed. [ABSTRACT FROM AUTHOR]