Project description:AMF diversity

Project description:The current study is aimed at elucidating the proteomic responses in durum wheat Triticum aestivum L triggered by native PGPB, CP_4 (Bacillus subtilis) alone and in combination with AM fungi Glomus fasciculatum under field conditions Our results suggest that native PGPB B subtilis ( in combination with AM fungi Glomus fasciculatum (B+ may promote differential abundance of multiple regulatory seed storage proteins over untreated control Thus, combined application of native PGPB and AMF could offer a more sustainable approach to enhance crop yield.

Project description:AMF microbial community diversity

Project description:SSU root AMF diversity

Project description:Tree Diversity AMF 2024

Project description:Purpose: To date, the biological activity of AMF has not been fully investigated. We set out to analyze how AMF regulates gene expression in HepG2 cells. Conclusions: we performed clustering analysis on the various expressed genes associated with autophagy, and the pathways confirmed in the KEGG and BP analysis

Project description:Traditional surgery plus radiotherapy or chemotherapy, existing targeted therapies failed to significantly improve the survival rate of recurrent endometrial cancer, so suggesting that mechanism of recurrence and progression that modulates in endometrial cancer is clinically important. Here, we show that GPER(G protein-coupled estrogen receptor 1) was binded to AMF, and the complex were translocation form plasma to cytoplasmic. Mechanistic investigations elucidated that interaction of AMF with GPER triggers phosphoinositide-3-kinase (PI3K) signaling activating and accelerating the ability of endometrial cancer cells growth. Furthermore, we found that AMF may contribute to GPER-mediated endometrial cancer progression using animal experiments and human histological experiments which be consistent with the above conclusions. On the basis of these evidences including invivo and invitro, our findings suggest that AMF–GPER interaction might be novel key molecular targets for therapeutic management of patients with endometrial cancer, whose disease were progression and recurrence.

Project description:plant root AMF community diversity

Project description:AMF diversity in peanut root

Project description:The current study is aimed at elucidating the proteomic responses in the seed tissue of durum wheat Triticum aestivum L. (cultivar HD-3086) triggered by native (CP4) and non-native (AHP3) PGPB (Bacillus spp.) alone and in combination with AM fungi (Glomus fasciculatum + Gigaspora sp.) under field conditions. Our results suggest that application of CP4 and AHP3 (in combination with AM fungi) promote differential abundance of multiple regulatory seed storage and other proteins over untreated control. Thus, combined application of tripartite (CP4+AHP3+AMF) microbial consortia could offer a more sustainable approach to enhance crop yield in wheat.