摘要
Micro RNAs(mi RNAs) are noncoding RNAs that are master regulators of various biological processes by post-transcriptionally repressing their target genes. It has been shown that miRNAs are involved in nodulation in legumes,however,the molecular mechanism through which miR172 regulates nodulation remains elusive. Recently,we have demonstrated that miR172 c is a central positive regulator of both rhizobia infection and nodule organogenesis in soybean. miR172 c is induced by either compatible B. japonicum or lipo-oligosaccharide Nod Factor,and continues to be upregulated during nodule development. Alteration in miR172 c results in dramatic changes in nodule initiation and nodule number. Furthermore,miR172 c regulates nodule formation by repressing its target gene,Nodule Number Control 1(NNC1),which encodes a protein that directly targets the promoter of the early nodulin gene,Gm ENOD40. Moreover,we proved that miR172 c functionally depends on Gm NFR1α/5α and its activity is negatively regulated by autoregulation of nodulation(AON). Furthermore,we found that NNC1 directly binds to the promoter of the RIC1 and RIC2 genes that encode CLE peptides to activate AON. Intriguingly,NNC1 competes with Nodule Inception(NIN),the transcriptional activator of RIC1/2,for RIC1/2 promoter binding to repress the expression of RIC1/2. Thus,we elucidate a miR172c-mediated regulatory mechanism that modulates soybean nodulation and identify a node that links NF and AON signaling pathways to fine tune ultimate nodule number in soybean.
Micro RNAs(mi RNAs) are noncoding RNAs that are master regulators of various biological processes by post-transcriptionally repressing their target genes. It has been shown that miRNAs are involved in nodulation in legumes,however,the molecular mechanism through which miR172 regulates nodulation remains elusive. Recently,we have demonstrated that miR172 c is a central positive regulator of both rhizobia infection and nodule organogenesis in soybean. miR172 c is induced by either compatible B. japonicum or lipo-oligosaccharide Nod Factor,and continues to be upregulated during nodule development. Alteration in miR172 c results in dramatic changes in nodule initiation and nodule number. Furthermore,miR172 c regulates nodule formation by repressing its target gene,Nodule Number Control 1(NNC1),which encodes a protein that directly targets the promoter of the early nodulin gene,Gm ENOD40. Moreover,we proved that miR172 c functionally depends on Gm NFR1α/5α and its activity is negatively regulated by autoregulation of nodulation(AON). Furthermore,we found that NNC1 directly binds to the promoter of the RIC1 and RIC2 genes that encode CLE peptides to activate AON. Intriguingly,NNC1 competes with Nodule Inception(NIN),the transcriptional activator of RIC1/2,for RIC1/2 promoter binding to repress the expression of RIC1/2. Thus,we elucidate a miR172c-mediated regulatory mechanism that modulates soybean nodulation and identify a node that links NF and AON signaling pathways to fine tune ultimate nodule number in soybean.
引文
