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A phospholipid-dependent PDK1-AGC kinase cascade regulates pollen tube growth

Offringa, R.; Zhao, T.

2026-03-05 plant biology
10.64898/2026.03.03.709238 bioRxiv
Show abstract

3-PHOSPHOINOSITIDE-DEPENDENT PROTEIN KINASE1 (PDK1), a conserved master regulator of AGC kinases, is encoded by two redundant genes in Arabidopsis thaliana, PDK1 and PDK2. pdk1 pdk2 mutants exhibit a broad range of defects, including apolar or arrested pollen tube growth, a phenotype also observed in agc1.5 agc1.7 mutants. Pollen-specific expression of constitutively active AGC1.5 in pdk1 pdk2 restores polar pollen tube growth, indicating that PDK1 functions upstream of redundant AGC1.5/AGC1.7 signaling in this process. In contrast, the PDK1 splice variant PDK1S0, lacking the phospholipid-binding PH domain, cannot restore polar pollen tube growth. Our results indicate a key role for the phospholipid PI(4,5)P2 in recruiting PDK1 through its PH domain to establish polar pollen tube growth, as PI(4,5)P2 marks the pollen germination initiation site together with PDK1, it forms a dome at the plasma-membrane of the pollen tube tip beneath which PDK1 remains largely cytosolic and exhibits reciprocal feedback regulation with the PDK1-AGC1.5/1.7 kinases. Defects in endocytosis and actin organization further support that phospholipid-dependent PDK1-AGC signaling maintains pollen tube growth polarity.

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