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Article Abstract
Background: Botrytis-induced Kinase 1 (BIK1) is a receptor-like cytoplasmic kinase (RLCK) involved in the defense, growth, and development of higher plants. It interacts with various receptor-like kinases (RLKs) such as Brassinosteroid Insensitive 1 (BRI1), Flagellin Sensitive 2 (FLS2), and Perception of the Arabidopsis Danger Signal Peptide 1 (PEPR1), but little is known about signaling downstream of BIK1.
Objective: In this study, we aimed to identify Arabidopsis thaliana BIK1 (AtBIK1) and Brassica rapa BIK1 (BrBIK1) interacting proteins, which is downstream signaling components in Arabidopsis. In addition, the effect of BIK1 phosphorylation on their interaction were examined.
Methods: For yeast two hybrid (Y2H) screening, a B. rapa cDNA activation domain (AD) library and an A. thaliana cDNA library were used. Reverse reaction (LR) recombinations of appropriate open reading frames (AtBIK1, BrBIK1, AtRGP2, AtPATL2, AtPP7) in either pDONR207 or pDONR/zeo were performed with the split-YFP destination vectors pDEST-GWVYNE and pDEST-GWVYCE to generate N- or C-terminal fusions with the N- and C-terminal yellow fluorescent protein (YFP) moieties, respectively. Recombined vectors were transformed into Agrobacterium strain GV3101. The described GST-AtBIK1, Flag-AtBIK1, and Flag-BrBIK1 constructs were used as templates for site-directed mutagenesis with a QuikChange XL Site-Directed Mutagenesis Kit (Stratagene).
Results: In results, A. thaliana BIK1 (AtBIK1) displays strong autophosphorylation kinase activity on tyrosine and threonine residues, whereas B. rapa BIK1 (BrBIK1) does not exhibit autophosphorylation kinase activity in vitro. Herein, we demonstrated that four proteins (RGP2, PATL2, PP7, and SULTR4.1) interact with BrBIK1 but not AtBIK1 in a Y2H system. To confirm interactions between BIK1 and protein candidates in Nicotiana benthamiana, BiFC analysis was performed and it was found that only BrBIK1 bound the three proteins tested. Three phosphosites, T90, T362, and T368, based on amino acid sequence alignment between AtBIK1 and BrBIK1, and performed site-directed mutagenesis (SDM) on AtBIK1 and BrBIK. S90T, P362T, and A369T mutations in BrBIK1 restored autophosphorylation kinase activity on threonine residues comparable to AtBIK1. However, T90A, T362P, and T368A mutations in AtBIK1 did not alter autophosphorylation kinase activity on threonine residues compared with wild-type AtBIK1. BiFC results showed that BIK1 mutations restored kinase activity led to the loss of the binding activity to RGP2, PATL2, or PP7 proteins.
Conclusion: Phospho-BIK1 might be involved in plant innate immunity, while non-phospho BIK1 may regulate plant growth and development through interactions with RGP2, PATL2, and PP7.
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