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Low-light stress compromises photosynthetic and energy efficiency and leads to spikelet sterility; however, the effect of low-light stress on pollen tube elongation in the pistil remains poorly understood. The gene RGA1, which encodes a Gα subunit of the heterotrimeric G protein, enhanced low-light tolerance in rice plants at anthesis by preventing the cessation of pollen tube elongation in the pistil. The levels of reactive oxygen species were higher and the content of ATP and ATPase was lower in RGA1 mutant (d1) plants compared with wild-type and RGA1-overexpressing (OE-1) plants under low-light conditions. Energy deficits, rather than interference with signaling transduction pathways, were the main contributors to the inhibition of pollen tube elongation in the pistil by low-light stress. In this process, marked increases in the activities of acid invertase (INV), sucrose synthase (SUS), and mitochondrial respiratory electron transport chain complexes, as well as the relative expression levels of SUTs, SWEETs, SUSs, INVs, CINs, SnRK1A, and SnRk1B, were observed in OE-1 plants. INV and ATPase activators (sucrose and Na2SO3, respectively) increased spikelet fertility by improving the energy status in the pistil under low-light conditions, and the ATPase inhibitor Na2VO4 induced spikelet sterility and decreased ATPase activity. Therefore, RGA1 could alleviate the low-light stress-induced impairment of pollen tube elongation to increase spikelet fertility by promoting sucrose unloading in the pistil and improving the metabolism and allocation of energy. |
