Phytochrome A affects stem growth, anthocyanin synthesis, sucrose-phosphate-synthase activity and neighbour detection in sunlight-grown potato

Phytochrome action in fully de-etiolated sunlight-grown potato (Solanum tuberosum L.) was studied by comparing wild-type (WT) plants and transgenic plants with either a sense or an anti-sense phytochrome A (phyA) construction. Radial stem growth, anthocyanin levels, and sucrose-phosphate-synthase activity were directly related to the levels of phyA (severely reduced in transgenics with anti-sense phyA, normal in WT and increased in transgenic with sense phyA). In contrast, longitudinal stem growth was inversely related to the levels of phyA. Phytochrome A influenced stem-extension growth responses to red/far-red ratios perceived by stable phytochrome[s]. First, far-red light reflected by non-shading neighbours promoted stem growth in WT plants but transgenic plants with either increased or reduced phyA levels failed to respond to this light signal. Second, plants with low phyA levels also showed impaired sensitivity to reductions in end-of-day red/far-red ratios. In addition, phyA appears to perceive changes in irradiance reaching the stem: lowering the amount of red plus far-red light reaching the stem promoted stem growth in WT plants. This effect was exaggerated in phyA overexpressors and absent in phyA underexpressors. Thus, phyA is active in fully de-etiolated, sunlight-grown plants.