Hydrogen peroxide in tobacco stigma exudate affects pollen proteome and membrane potential in pollen tubes.

M Breygina, E Klimenko, E Shilov, A Podolyan, A Mamaeva, V Zgoda, I Fesenko

Plant biology (Stuttgart, Germany) 2021 Jul

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ROS are known to be accumulated in stigmas of different species and can possibly perform different functions important for plant reproduction. Here we tested the assumption that one of their functions is to control membrane potential and provoke synthesis of unique proteins in germinating pollen. We used spectrofluorometry and spectrophotometry to detect H2 O2 in stigma exudate, quantitative fluorescent microscopy of pollen tubes and flow cytometry of pollen protoplasts to reveal effects on membrane potential, and a label-free quantification approach to study pollen proteome changes after H2 O2 treatment. We found that in both growing pollen tubes and pollen protoplasts exudate causes plasmalemma hyperpolarization similar to that provoked by H2 O2 . This effect is abolished by catalase treatment and the ROS quencher, MnTMPP. Inhibitory analysis indicates probable participation of Ca2+ - and K+ -conducting channels in the observed hyperpolarization. For a deeper understanding of pollen response, we analysed proteome alterations in H2 O2 -treated pollen grains. We found 50 unique proteins and 20 differently accumulated proteins that are mainly involved in cell metabolism, energetics, protein synthesis and folding. Observed hyperpolarization and proteome alterations agree well with previously reported stimulation of pollen germination by H2 O2 and sensitivity of Ca2+ - and K+ -conducting channels to this ROS. Thus, H2 O2 is one of the active substances in tobacco stigma exudate that stimulates various physiological processes in germinating pollen. © 2021 German Society for Plant Sciences and The Royal Botanical Society of the Netherlands.

Citation

M Breygina, E Klimenko, E Shilov, A Podolyan, A Mamaeva, V Zgoda, I Fesenko. Hydrogen peroxide in tobacco stigma exudate affects pollen proteome and membrane potential in pollen tubes. Plant biology (Stuttgart, Germany). 2021 Jul;23(4):592-602