Ascochyta blight disease is a devastating disease caused by the fungal pathogen Ascochyta rabiei that threatens chickpea production around the globe. Endocytic mechanism has a significant role in fungal growth and virulence. The underlying biology of biogenesis of central component of endocytosis viz Rab5 vesicles, is not completely understood. The involvement of F-BAR domain containing protein (ArF-BAR) in various cellular processes that collectively make ArF-BAR as an important virulence determinant. Here, we report that ArF-BAR is involved in biogenesis and motility of early endosome. In the absence of ArF-BAR gene (Δarf-bar), fungal mutants exhibited reduced number of EGFP coated ArRab5 vesicles, along with the considerable reduction in their dynamics. Here, we show that ArF-BAR interacts with clathrin light chain (ArCLC), specifically with its F-BAR domain. These findings suggests the novel role of ArF-BAR in biogenesis and dynamics of early endosome. Additionally, ArF-BAR is involved in clathrin-mediated mechanism of endocytosis which is required for host infection and disease development. Identification of this pathway offers new impending targets for disease intervention in plants.
Supplementary information: The online version contains supplementary material available at 10.1007/s13205-022-03451-5.
Keywords: Chickpea; Clathrin; Endocytosis; Fungal pathogens; Rab5.
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