Stress-responsive miRNAome of Glycine max (L.) Merrill: molecular insights and way forward

Abstract

Main conclusion Analysis of stress-associated miRNAs of Glycine max (L.) Merrill reveals wider ramifcations of small RNA-mediated (conserved and legume-specifc miRNAs) gene regulatory foot prints in molecular adaptive responses. MicroRNAs (miRNAs) are indispensable components of gene regulatory mechanism of plants. Soybean is a crop of immense commercial potential grown worldwide for its edible oil and soy meal. Intensive research eforts, using the next generation sequencing and bioinformatics techniques, have led to the identifcation and characterization of numerous small RNAs, especially microRNAs (miRNAs), in soybean. Furthermore, studies have unequivocally demonstrated the signifcance of miRNAs during the developmental processes and various stresses in soybean. In this review, we summarize the current state of understanding of miRNA-based abiotic and biotic stress responses in soybean. In addition, the molecular insights gained from the stress-related soybean miRNAs have been compared to the miRNAs of other crops, especially legumes, and the core commonalities have been highlighted, though diferences among them were not ignored. Nature of response of soybeanderived conserved miRNAs during various stresses was also analyzed to gain deeper insights regarding sRNAome-based defense responses. This review further provides way forward in legume small RNA transcriptomics based on the adaptive responses of soybean and other legume-derived miRNAs.