1) chlorophyll formation
叶绿素形成
1.
The paper summarized some advances in the research of rare earth elements on chlorophyll forma-tion of plant, on chloroplast structure, of rare earth-chlorophyll synthesis and characteristic in vitro, of rare earth-chlorophyll discovery and characteristic of natural plant and rare earth-chlorophyll formation and characteristicof plant under artificial culture.
本文从稀土对叶绿素形成的促进作用、对叶绿体结构的影响、体外稀土叶绿素的合成和结构表征、天然植物叶片稀土叶绿素的发现和结构表征、人工培养菠菜体内稀土叶绿素的形成和结构表征等方面综述了稀土元素与叶绿素作用关系的研究成果。
2) chlorophyll biosynthesis
叶绿素合成
1.
In this study,we investigated changes ofCO_2 assimilation,chlorophyll biosynthesis,senescence and supplemental lighting,aswell as incidence of powdery milder and associated metabolism in cucumber plants inresponse to different wavelength lights.
本文以黄瓜(Cucumis sativus L)为试材,研究了不同光质对黄瓜幼苗CO_2同化、叶绿素合成、叶片衰老及其在人工补光中的作用等方面的影响,并研究了其缓解黄瓜白粉病发生的生理分子机制。
2.
Compared with the control treatment,the amount of precursors including protoporphyrin Ⅸ (Proto Ⅸ),Magnesium protoporphyrin Ⅸ (Mg-Proto Ⅸ),protochlorophyllide (Pchlide) of chlorophyll biosynthesis decreased with the increasing disease grade,while Uroporphyrinogen Ⅲ (Uro Ⅲ) was accumulated in silvered leaves and leafstalks.
发病叶片和叶柄叶绿素酶活性升高,从而使叶绿素降解加速,叶绿素合成中间产物ProtoporphyrinⅨ(ProtoⅨ),Magnesium protoporphyrin Ⅸ(Mg-Proto Ⅸ),Protochlorophyllide(Pchlide)含量降低,UroporphyrinogenⅢ(UroⅢ)含量增加,表明叶绿素合成在UroⅢ到ProtoⅨ受阻。
3) dark chlorophyll synthesis
黑暗合成叶绿素
5) Chlorophyll synthetase
叶绿素合成酶
6) chlorophyll fluorescence imaging
叶绿素荧光成像
1.
Methods After 33 months\' growth in two light environments(100%and 12%sunlight),rapid light curves(RLC),chlorophyll fluorescence imaging and chloroplast ultrastructures of three tested species were changed to different degrees.
通过对亚热带森林三种代表植物马尾松(Pinus massoniana),荷木(Schima superba)和肖蒲桃(Acmena acuminatissima)幼苗进行长时间(33个月)的不同光照(100%自然光和12%自然光)驯化后,三种植物的快速光响应曲线(RLC),叶绿素荧光成像和叶绿体超微结构均发生了不同程度的改变。
补充资料:(叶绿素)基粒
(叶绿素)基粒
叶绿体中的长柱状物。由紧密的小盘堆叠而成,每个小盘包含两层量子体,叶绿素包含在量子体中。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条