Trichoderma virens Bys1 may competitively inhibit its own effector protein Alt a 1 to stabilize the symbiotic relationship with plant-evidence from docking and simulation studies.

The filamentous fungi Trichoderma spp. are widely used for plant growth promotion and disease control. They form stable symbiosis-like relationship with roots. Unlike plant pathogens and mycorrhizae, the molecular events leading to the development of this association is not well understood. Pathogens deploy effector proteins to suppress or evade plant defence. Indirect evidences suggest that Trichoderma spp. can also deploy effector-like proteins to suppress plant defence favouring colonization of roots. Here, using computer simulation, we provide evidence that Trichoderma virens may deploy analogues of host defence proteins to "neutralize" its own effector protein to minimize damage to host tissues, as one of the mechanisms to achieve a stable symbiotic relationship with plants. We provide evidence that T. virens Bys1 protein has a structure similar to plant PR5/thaumatin-like protein and can bind Alt a 1 with a very high affinity, which might lead to the inactivation of its own effector protein. We have, for the first time, predicted a fungal protein that is a competitive inhibitor of a fungal effector protein deployed by many pathogenic fungi to suppress plant defence, and this protein/gene can potentially be used to enhance plant defence through transgenic or other approaches. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s13205-021-02652-8. © King Abdulaziz City for Science and Technology 2021.