Summary Actin is an ancient conserved protein that is encoded by multiple isovariants in multicellular organisms. There are eight functional actin genes in the Arabidopsis genome, and the precise function and mechanism of action of each isovariant remain poorly understood. Here, we report the characterization of ACT11, a reproductive actin isovariant. Our studies reveal that loss of function of ACT11 causes a delay in pollen germination, but enhances pollen tube growth. Cytological analysis revealed that the amount of filamentous actin decreased, and the rate of actin turnover increased in act11 pollen. Convergence of actin filaments upon the germination aperture was impaired in act11 pollen, consistent with the observed delay of germination. Reduction of actin dynamics with jasplakinolide suppressed the germination and tube growth phenotypes in act11 pollen, suggesting that the underlying mechanisms involve an increase in actin dynamics. Thus, we demonstrate that ACT11 is required to maintain the rate of actin turnover in order to promote pollen germination and maintain the normal rate of pollen tube growth. Significance Statement Actin is normally encoded by multiple isovariants in multicellular organisms, and actin isovariants have been shown to be functionally non-equivalent. However, exactly how individual actin isovariants contribute to actin dynamics remains to be fully elucidated. Here, we demonstrate that ACT11 is required to maintain the rate of actin turnover in pollen to promote pollen germination and maintain the normal rate of tube growth.

• 出版日期2015-8
• 单位清华大学; 中国科学院大学