posted on 2024-06-13, 08:03authored byYuanfu Li, Jingsi Qiu, Jingxia Yang, Yihan Li, Hui Zhang, Feng Zhao, Huihua Tan
In this study, the role of E3 ubiquitin ligase GmSNE3
in halosulfuron
methyl (HSM) inhibiting soybean nodulation was investigated. GmSNE3 was strongly induced by HSM stress, and the overexpression
of GmSNE3 significantly reduced the number of soybean
nodules. Further investigation found that GmSNE3 could interact with
a nodulation signaling pathway 1 protein (GmNSP1a) and GmSNE3 could
mediate the degradation of GmNSP1a. Importantly, GmSNE3-mediated degradation
of GmNSP1a could be promoted by HSM stress. Moreover, HSM stress and
the overexpression of GmSNE3 resulted in a substantial decrease in
the expression of the downstream target genes of GmNSP1a. These results revealed that HSM promotes the ubiquitin-mediated
degradation of GmNSP1a by inducing GmSNE3, thereby inhibiting the
regulatory effect of GmNSP1a on its downstream target
genes and ultimately leading to a reduction in nodulation. Our findings
will promote a better understanding of the toxic mechanism of herbicides
on the symbiotic nodulation between legumes and rhizobia.