Zhaoming Cai scite author profile

MicroRNAs are noncoding RNAs that act as master regulators to modulate various biological processes by posttranscriptionally repressing their target genes. Repression of their target mRNA(s) can modulate signaling cascades and subsequent cellular events. Recently, a role for miR172 in soybean (Glycine max) nodulation has been described; however, the molecular mechanism through which miR172 acts to regulate nodulation has yet to be explored. Here, we demonstrate that soybean miR172c modulates both rhizobium infection and nodule organogenesis. miR172c was induced in soybean roots inoculated with either compatible Bradyrhizobium japonicum or lipooligosaccharide Nod factor and was highly upregulated during nodule development. Reduced activity and overexpression of miR172c caused dramatic changes in nodule initiation and nodule number. We show that soybean miR172c regulates nodule formation by repressing its target gene, Nodule Number Control1, which encodes a protein that directly targets the promoter of the early nodulin gene, ENOD40. Interestingly, transcriptional levels of miR172c were regulated by both Nod Factor Receptor1α/5α-mediated activation and by autoregulation of nodulation-mediated inhibition. Thus, we established a direct link between miR172c and the Nod factor signaling pathway in addition to adding a new layer to the precise nodulation regulation mechanism of soybean.

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GmTIR1/GmAFB3‐based auxin perception regulated by miR393 modulates soybean nodulation

Cai

Wang

Zhu

et al. 2017

New Phytologist

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Auxins play important roles in the nodulation of legumes. However, the mechanism by which auxin signaling regulates root nodulation is largely unknown. In particular, the role of auxin receptors and their regulation in determinate nodule development remains elusive. We checked the expression pattern of the auxin receptor GmTIR1/GmAFB3 genes in soybean. We analyzed the functions of GmTIR1/AFB3 in the regulation of rhizobial infection and nodule number, and also tested the functions of miR393 during nodulation and its relationship with GmTIR1/AFB3. The results showed that GmTIR1 and GmAFB3 genes exhibit diverse expression patterns during nodulation and overexpression of GmTIR1 genes significantly increased inflection foci and eventual nodule number. GmTIR1/AFB3 genes were post-transcriptionally cleaved by miR393 family and knock-down of the miR393 family members significantly increased rhizobial infection and the nodule number. Overexpression of the mutated form of GmTIR1C at the miR393 cleavage site that is resistant to miR393 cleavage led to a further increase in the number of infection foci and nodules, suggesting that miR393s modulate nodulation by directly targeting GmTIR1C. This study demonstrated that GmTIR1- and GmAFB3-mediated auxin signaling, that is spatio-temporally regulated by miR393, plays a crucial role in determinate nodule development in soybean.

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Zhaoming Cai

Soybean miR172c Targets the Repressive AP2 Transcription Factor NNC1 to Activate ENOD40 Expression and Regulate Nodule Initiation

GmTIR1/GmAFB3‐based auxin perception regulated by miR393 modulates soybean nodulation

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