Light-independent accumulation of essential chlorophyll biosynthesis- and photosynthesis-related proteins in Pinus mugo and Pinus sylvestris seedlings

K. Breznenová; V. Demko; A. Pavlovič; E. Gálová; R. Balážová; J. Hudák

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Light-independent accumulation of essential chlorophyll biosynthesis- and photosynthesis-related proteins in Pinus mugo and Pinus sylvestris seedlings

机译：樟子松和樟子松幼苗中与叶绿素生物合成和光合作用相关的蛋白质的光不依赖积累

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Dark-grown seedlings of Pinus mugo Turra and Pinus sylvestris L. accumulate chlorophyll (Chl) and its precursor protochlorophyllide (Pchlide). Pchlide reduction is a key regulatory step in Chl biosynthesis. In the dark, Pchlide is reduced by light-independent Pchlide oxidoreductase (DPOR) encoded by three plastid genes chlL, chlN, and chlB (chlLNB). To investigate the differences in chlLNB gene expressions, we compared the dark-grown and 24-h illuminated seedlings of P. mugo and P. sylvestris. Expression of these genes was found constitutive in all analyzed samples. We report light-independent accumulation of important proteins involved in Chl biosynthesis (glutamyl-tRNA reductase) and photosystem formation (D1 and LHCI). Chl and Pchlide content and plastid ultrastructure studies were also performed.

机译：樟子松和樟子松的深色幼苗会积累叶绿素（Chl）及其前体原叶绿素（Pchlide）。减少氯化物是Chl生物合成中的关键调控步骤。在黑暗中，由三个质体基因chlL，chlN和chlB（chlLNB）编码的光独立性Pchlide氧化还原酶（DPOR）还原Pchlide。为了研究chlLNB基因表达的差异，我们比较了P. mugo和P. sylvestris的黑暗生长和24小时光照的幼苗。在所有分析的样品中发现这些基因的表达是组成性的。我们报告光独立于重要的蛋白质参与Chl生物合成（谷氨酰tRNA还原酶）和光系统形成（D1和LHCI）的积累。还进行了Chl和Pchlide含量以及质体超微结构的研究。

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《Photosynthetica》 |2010年第1期|p.16-22|共7页
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K. Breznenová; V. Demko; A. Pavlovič; E. Gálová; R. Balážová; J. Hudák;
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Light-independent accumulation of essential chlorophyll biosynthesis- and photosynthesis-related proteins in Pinus mugo and Pinus sylvestris seedlings

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