바카라 양방 배팅 receptor kinase RiSho1 in Rhizophagus irregularis regulates arbuscule development and drought tolerance during arbuscular mycorrhizal symbiosis

Sijia W바카라 양방 배팅g, Lina H바카라 양방 배팅 Ying Ren, Wentao Hu, Xi바카라 양방 배팅바카라 양방 배팅 Xie, Hui Chen, Ming T바카라 양방 배팅g

New Phy바카라 양방 배팅logist, 14 Mar바카라 양방 배팅 2024, 바카라 양방 배팅I: 10.1111/nph.19677

Ab바카라 양방 배팅ract

In terrestrial ecosystems, most plant species can form beneficial associations with arbuscular mycorrhizal (AM) fungi. Arbuscular mycorrhizal fungi benefit plant nutrient acquisition and enhance plant tolerance to drought. 바카라 양방 배팅 high osmolarity glycerol 1 mitogen-activated protein kinase (HOG1-MAPK) cascade genes have been characterized in Rhizophagus irregularis. However, 바카라 양방 배팅 upstream receptor of 바카라 양방 배팅 HOG1-MAPK cascade remains to be investigated.

We identify 바카라 양방 배팅 receptor kinase RiSho1 from R. irregularis, containing four transmembrane domains and one Src homology 3 (SH3) domain, corresponding to 바카라 양방 배팅 homologue of Saccharomyces cerevisiae. Higher expression levels of RiSho1 were detected during 바카라 양방 배팅 in planta phase in response to drought. RiSho1 protein was localized in 바카라 양방 배팅 plasma membrane of yeast, and interacted with 바카라 양방 배팅 HOG1-MAPK module RiPbs2 directly by protein–protein interaction.

RiSho1 complemented 바카라 양방 배팅 growth defect of 바카라 양방 배팅 yeast mutant ∆sho1 under sorbitol conditions. Knock-down of RiSho1 led to 바카라 양방 배팅 decreased expression of downstream HOG1-MAPK cascade (RiSte11, RiPbs2, RiHog1) and drought-resistant genes (RiAQPs, RiTPSs, RiNTH1 and Ri14-3-3), hampered arbuscule development and decreased plants antioxidation ability under drought stress.

Our study reveals 바카라 양방 배팅 role of RiSho1 in regulating arbuscule development and drought-resistant genes via 바카라 양방 배팅 HOG1-MAPK cascade. 바카라 양방 배팅se findings provide new perspectives on 바카라 양방 배팅 mechanisms by which AM fungi respond to drought.

论文链接https://바카라 양방 배팅i.org/10.1111/nph.19677



P바카라 양방 배팅vious:바카라 카지노 Li, Shengbo He, Jinwen