Influence of light on the apoplastic ph in microwounded cells of Chara corallina

Microscopic wounding of plant cell walls by pathogens or by feeding insects triggers the defense responses, including a sharp rise in pH at the cell surface (pH_o). Using internodal cells of Chara corallina Klein ex Willd., we show here that the elevated pH_o in the area of cell wall microincision decreases in darkness and increases on illumination. These pH_o changes occurred specifically in cell areas affected by microincision and were lacking in intact areas with active pHotosynthesis (acid zones). Localized illumination of a remote cell region located upstream the cytoplasmic flow at a 1.5-mm distance from the analyzed area also caused a transient increase in pH_o in the area of microwounding but had no such effect in unwounded cell regions having weakly acidic pH_o. Apparently, the increase in pH_o after wounding is mediated by a metabolite released from illuminated chloroplasts, which is transported with the cytoplasmic flow for long distances. The transient pH_o increase in the area of cell wall incision after illumination of a distant cell region coincided with a temporal increase in chlorophyll fluorescence F’. This implies the concurrent influence of the transported reductant (presumably NADH) on light emission of chloroplasts and on the H⁺ flow across the plasmalemma. We suppose that the alkalinization of cell surface in the area of microincision arises from H⁺ consumption in the apoplast in association with the transmembrane electron transport from cytoplasmic reducing equivalents to molecular oxygen.