叶绿体类囊体膜的深入研究可以促进光合作用的分子机理研究。
Analysis of thylakoid membranes will benefit the study of photosynthetic mechanism.
在黄绿色果实时期叶绿体类囊体系统解体,代之以少数非叶绿素的单个类囊体和积累大的嗜锇的质体小球。
At yellow green fruit stage the thylakoid system was disintegrated and replaced by few non chlorophyllous single thylakoids, with accumulation of large osmiophilic plastoglobules.
早期绿色果实的特点是叶绿体具典型的基粒-基粒间类囊体结构。
The early green fruit was characterized by chloroplasts with a typical grana intergranal thylakoid structure.
此外,在这些突变体中,类囊体膜的数量也有所降低,它们的叶绿体亦相对较小。
In addition, the number of thylakoid membranes in these mutants decreased and their chloroplasts were smaller.
叶绿体里面是一种叫基质的液体,它含有一系列扁平的成堆的类囊体。
Inside the chloroplast is a fluid called stroma, which contains a series of flattened stacks of thylakoids.
研究了低温胁迫下水稻幼苗叶绿体光合电子传递功能及类囊体膜蛋白水平的变化。
Changes in chloroplast electron transport activity and the levels of thylakoid membrane proteins of rice leaves Oryza sativa L. var.
盐胁迫后,叶绿体基粒、基质片层扭曲,类囊体肿胀;
Under salt stress, thylakoids became swollen, stroma lamella and grana lamella of chloroplast were distorted;
盐胁迫后,叶绿体基粒、基质片层扭曲,类囊体肿胀;
Under salt stress, thylakoids became swollen, stroma lamella and grana lamella of chloroplast were distorted;
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