Journal
FRONTIERS IN PLANT SCIENCE
Volume 14, Issue -, Pages -Publisher
FRONTIERS MEDIA SA
DOI: 10.3389/fpls.2023.1058059
Keywords
MADS-box transcription factors; phyllogen; protein-protein interaction (PPI); protein structure prediction (PSP); random mutagenesis
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To gain a deeper understanding of protein function, it is crucial to identify its physical interactions with its target. Through random mutagenesis using error-prone PCR, we comprehensively studied the interface residues between phyllogen and MTF. Two novel residues were identified, which enhanced the affinity of phyllogen to MTF through mutations. These residues, along with other known interaction-involved residues, are clustered on the surface of the protein structure of phyllogen, suggesting their involvement in the interaction. In silico structural prediction using ColabFold revealed that phyllogen interacts with the K domain of MTF through the putative interface. Our study contributes to the understanding of the interaction mechanisms between phyllogen and MTF.
To understand protein function deeply, it is important to identify how it interacts physically with its target. Phyllogen is a phyllody-inducing effector that interacts with the K domain of plant MADS-box transcription factors (MTFs), which is followed by proteasome-mediated degradation of the MTF. Although several amino acid residues of phyllogen have been identified as being responsible for the interaction, the exact interface of the interaction has not been elucidated. In this study, we comprehensively explored interface residues based on random mutagenesis using error-prone PCR. Two novel residues, at which mutations enhanced the affinity of phyllogen to MTF, were identified. These residues, and all other known interaction-involved residues, are clustered together at the surface of the protein structure of phyllogen, indicating that they constitute the interface of the interaction. Moreover, in silico structural prediction of the protein complex using ColabFold suggested that phyllogen interacts with the K domain of MTF via the putative interface. Our study facilitates an understanding of the interaction mechanisms between phyllogen and MTF.
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