ASYMMETRIC LEAVES1 and auxin activities converge to repress BREVIPEDICELLUS expression and promote leaf development in Arabidopsis

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摘要：

Intertidal marine macroalgae experience periodical exposures during low tide due to their zonational distribution. The duration of such emersion leads to different exposures of the plants to light and aerial CO_2, which then affect the physiology of them to different extents. The ecophysiological responses to light and CO_2 were investigated during emersion in two red algae Gloiopeltis jurcata and Gigartina intermedia, and two brown algae Petalonia fascia and Sargassum hemiphyllum, growing along the Shantou coast of China. The light-saturated net photosynthesis.in G. Jurcata and P. fascia showed an increase followed by slightly desiccation, whereas that in G. intermedia, and S. hemiphyllum exhibited a continuous decrease with water loss. In addition, the upper-zonated G. jurcata and P. fascia, exhibited higher photosynthetic tolerance to desiccation and required higher light level to saturate their photosynthesis than the lower-zonated G. intermedia and S. hemiphyllum. Desiccation had less effect on dark respiration in these four algae compared with photosynthesis. The light-saturated net photosynthesis increased with increased CO_2 concentrations, being saturated at CO_2 concentrations higher than the present atmospheric level in G. furcata, G. intermedia and S. hemiphyllum during emersion, It was evident that the relative enhancement of photosynthesis by elevated CO_2 in those three algae increased, though the absolute values of photosynthetic enhancement owing to CO_2 increase were reduced when the desiccation statuses became more severe. However, in the case of desiccated P. fascia (water loss being greater than 20 %), light saturated net photosynthesis was saturated with current ambient atmospheric CO_2 level. It is proposed that increasing atmospheric CO_2 will enhance the daily photosynthetic production in intertidal macroalgae by varied extents that were related to the species and zonation.

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关键词：

Arabidopsis Plant Leaves Indoleacetic Acids Transcription Factors Homeodomain Proteins Down-Regulation Gene Expression Regulation, Developmental Gene Expression Regulation, Plant Membrane Transport Proteins Arabidopsis Proteins