叶绿体中有一些基质片层。

There had some stroma lamella in chloroplast.

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叶绿体高基粒片层逐渐减小。

Cell chloroplast density and higher granum lamellae decreased as well. 

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上图是苔藓细胞中的叶绿体。

The chloroplasts pictured here are in the cells of a moss.

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这些被俘获的细菌被称为叶绿体。

These enslaved bacteria are called chloroplasts.

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在C4植物中有两种类型的叶绿体。

In C4 plants there are two types of chloroplast.

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叶肉不分化，细胞不含叶绿体。

The mesophyll was undifferentiation, without chloroplasts.

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这种转化方式进化为植物中的叶绿体。

They evolved into the chloroplasts of plants.

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然而，他们不转交这些叶绿体下一代。

However, they do not transfer these chloroplasts to the next generations.

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线粒体和叶绿体是网站的独特的细胞过程。

Mitochondrias and chloroplasts are the sites for unique cellular processes.

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同时，叶绿体发生了形态和结构上的改变。

Meanwhile, pathological changes of diseased chloroplasts' morphology and structure took place.

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甚至可能辨认出如细胞核、线粒体、叶绿体等细胞结构。

It's even possible to make out structures within the cell, such as the nucleus, mitochondria and chloroplasts.

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束鞘细胞的叶绿体和叶肉细胞的叶绿体都含有许多基粒。

The chloroplasts of both the mesophyll and the bundle sheath cells contain many grana.

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干旱胁迫和强光胁迫对叶绿体膜蛋白表达具有显著的影响。

Drought stress and the strong light stress haa significant effects on chloroplast membrane protein expression.

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本文主要综述了线粒体、叶绿体的内共生假说和分化假说。

This paper will summarize the Endosymbiontic Hypothesis and the Intercellular origin Hypothesis of chloroplast and mitochondrion.

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将叶绿体与提取缓冲液、苯酚混合匀浆抽提叶绿体RNA。

The chloroplast RNA were extracted from the chloroplasts with a mixture of extracting buffer and phenol.

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它同样可使木质素和角质被染为红色，而将叶绿体染为粉色。

It also stains lignin and cutin red and chloroplasts pink.

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通常，植物是靠一种叫做叶绿体的纤小细胞器完成光合作用的。

Usually, plants perform photosynthesis by way of tiny organelles called plastids.

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在讨论这些试验以前，对叶绿体结构作一简短的概述是有益的。

A brief review of chloroplast structure is useful before discussing these experiments.

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海藻的大部分被这种海蛤蝓消化，但是叶绿体保持完整不被消化。

The slugs digest most of the algae, but those plastids remain whole and undigested.

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透明细胞：指不含叶绿体，用于储存水分或溶质的所有叶细胞。

Hyaline cells Any leaf cell with no chlorophyll that is normally used for storage of water or solutes.

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在植物叶片的叶绿体中的俘光色素主要有叶绿素和类胡萝卜素。

The main pigments absorbing the light energy are chlorophyll and carotenoid in chloroplast of plant leaves.

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前质体能分化成各具特点的细胞器，如淀粉体，叶绿体和有色体。

The proplastids differentiate to form characteristic organelles such as amyloplasts, chloroplasts and chromoplasts.

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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.

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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.

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它不仅节能而且可以吸收CO2，同时生物led发光可导致叶绿体进行光合作用。

This will save energy and absorb CO2 as the bio-LED luminescence will cause the chloroplast to conduct photosynthesis.

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叶绿体是植物进行光合作用的场所，能有效将太阳的光能量转化成化学能。

Chloroplasts are plant photosynthesis, place, can effectively will be the light of the sun energy into chemical energy.

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叶绿体和线粒体都是比较大的实体，它们被一层膜包着，象细胞本身一样。

Chloroplasts and mitochondria are both relatively large bodies, surrounded by membranes, as is the cell itself.

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结果表明，绿色植物叶绿体的活性高于彩叶植物，其活性的稳定性也更高。

The consequence showed that chloroplasts of green plants are more active than of colored ones, so are their stability.

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结果表明，绿色植物叶绿体的活性高于彩叶植物，其活性的稳定性也更高。

The consequence showed that chloroplasts of green plants are more active than of colored ones, so are their stability.

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