叶绿体,Chloroplast
1)Chloroplast[英]['kl?:r?pl?st][美]['klor?,pl?st]叶绿体
1.Degradation of Chloroplast Pigments and Change of Respiratory Intensity in TN90 during Air-curing;晾制期间白肋烟TN90叶绿体色素降解动态及呼吸强度的变化
2.Fabrication of the Polyvinylalcohol Bearing Styrlpyridinium Groups Membrane Entrapped Chloroplast and Its Application in the Determination of Herbicides by a Clark Electrode;聚乙烯醇-苯乙烯吡啶聚合固定叶绿体膜的制备并用于残留除草剂检测
3.Progress in Chloroplast Proteomics Research;叶绿体的蛋白质组学研究进展
英文短句/例句

1.axial chloroplast轴生叶绿体, 轴叶绿粒
2.A Study for Isolation of Populus Chloroplast and cpDNA;杨树叶绿体分离及叶绿体DNA提取方法的研究
3.A chlorophyll-containing plastid found in algal and green plant cells.叶绿体水藻及绿色植物的细胞中的一种含叶绿素的质体
4.Isolation of Intact Chloroplasts from Dunaliella Salina and Construction of Vector for Chloroplast Transformation;杜氏盐藻完整叶绿体的分离和叶绿体转化体系的构建
5.Construction of Sweet Potato Chloroplast Expression Vector and Transient Expression of phaC-gfp Fusion Gene in Chloroplast甘薯叶绿体表达载体构建及其融合基因在叶绿体中的瞬间表达
6.Effects of nitrogen deficiency on the gas exchange,chlorophyll fluorescence and chloroplast ultrastructure in fingered citron缺氮对佛手气体交换、叶绿素荧光及叶绿体超微结构的影响
7.mRNAs could cross the chloroplast envelope in vivo.在体内mrna能穿过叶绿体外膜。
8.Study on the Developmental Characters of Chloroplasts in a Yellow Type Mutant of Oilseed Rape Seedlings;油菜黄化突变体叶绿体发育特性研究
9.The Construction of Chloroplast Site-specific Integration Expression Vector and Genetic Transformation in Spinach (Spinacia Oleracea L.)菠菜叶绿体表达载体构建及遗传转化
10.Effects of darkness on ultrastructure in chloroplast of watermelon seedling leaves黑暗对西瓜幼苗叶片叶绿体超微结构的影响
11.Effects of Salt Stress on Chlorophyll Content and Chloroplast Ultra-structure of Different Salt-tolerant Cucumber Varieties盐胁迫对黄瓜不同耐盐品种叶绿素含量和叶绿体超微结构的影响
12.Phylogeography of Chloroplast DNA Variation in Ginkgo Biloba银杏(Ginkgo biloba)叶绿体DNA系统地理学研究
13.In C4 plants there are two types of chloroplast.在C4植物中有两种类型的叶绿体。
14.Chloroplasts are the structures in which photosynthesis happens.叶绿体就是光合作用发生的地方。
15.These cells never regained their chloroplasts.这些细胞再也不能重获叶绿体。
16.palisad parenchma with abundant chlorplasts很多叶绿体的栅栏薄壁组织
17.The chloroplast envelope has the light yellow color of violaxanthin.叶绿体的套膜有紫黄质的淡黄色。
18.These include the chlorophyll precursor protochlorophyllide a.这些受体包括叶绿素的前体原叶绿酸a。
相关短句/例句

chloroplasts叶绿体
1.Effects of He-Ne Laser and Enhanced UV-B Radiation on Photochemical Activities of Chloroplasts in Wheat (in Vivtro);增强UV-B辐射和He-Ne激光辐照对小麦离体叶绿体光化学活性的影响
2.The Modification of Dithiothreitol on the CF_0 of H+-ATPase Complex in Chloroplasts;二硫苏糖醇对叶绿体H~+-ATP酶复合体CF_0的修饰
3.Generation and Scavenging of Reactive Oxygen Species in Chloroplasts;叶绿体中活性氧的产生和清除机制
3)cpDNA叶绿体DNA
1.The Method for Isolation of Banana Chloroplast and cpDNA;香蕉叶绿体分离及叶绿体DNA提取方法
2.Research on Polymorphism of cpDNA in Wheat Albescent Line;小麦返白系叶绿体DNA多态性研究
3.Genetic Evolution of Clintonia udensis Trautv.et Mey.Based on cpDNA Sequencing;基于叶绿体DNA序列分析东亚七筋姑的遗传进化
4)chloroplast DNA叶绿体DNA
1.Studies on chloroplast DNA polymorphism of CMS line rice;三系不育系水稻叶绿体DNA遗传多态性研究
2.Comparative Study on the Indica-Japonica Differentiation of Nuclear DNA, Mitochondrial DNA and Chloroplast DNA in Cultivated Rice (Oryza sativa L.);亚洲栽培稻的核DNA、线粒体DNA和叶绿体DNA籼粳分化的比较研究
3.Phylogenetic Relations of Aegilops Species Based on RAPD Analysis of Chloroplast DNA;应用RAPD技术研究不同种山羊草叶绿体DNA的遗传变异
5)cpSSR叶绿体SSR
1.With cpSSR method, the variation of genetic diversity in temporal dimension of natural population of Pinus koraiensis in Liangshui national nature reserve was studied in this paper.从6对叶绿体SSR引物筛选出两对引物,共检测到7个位点,其中多态位点5个,多态位点比率为71。
2.With CPSSR method, the paper studied genetic diversity and differentiation in temporal dimension of natural population of Pinus koraiensis in Liang Shui national nature reserve.从6对叶绿体SSR引物筛选出两对引物,共检测到多态位点8个,多态位点比率为70。
6)green leafy odors绿叶气体
1.The results showed that the volatile constitutes were green leafy odors,terpenes and their derivatives.结果表明:棉花挥发物的主要成分是绿叶气体、萜类及其衍生物,包括己醛,α-蒎烯、莰烯、β-蒎烯、柠檬烯、β-水芹烯、香芹醇、壬醛、顺3己烯醇乙酸酯、十四碳烯、β-石竹烯和柏木酮等;棉花的茎、叶及地上部分的释放速率分别为27。
延伸阅读

叶绿体叶绿体chloroplast植物绿色细胞所特有的能量转换细胞器。一般呈椭球形,大小约(1~3)微米×(5~7)微米×(2~3)微米,有双层被膜与胞质分开,内有片层膜,含叶绿素,故名。光合作用就在片层膜上进行。绝大部分异养生物的有机物质与能量来源都是叶绿体进行光合作用提供的。高等植物细胞含50~200个叶绿体。原核生物如蓝藻没有成形的叶绿体,只有简单的片层膜散在于细胞质中。叶绿体的外被膜为一般离子扩散膜,小分子物质可以自由通过;内被膜为半透性膜,对物质有选择透过的作用;两膜之间有约10微米的间隔。被膜内充满含大量亲水蛋白质微粒的间质,其中包含所有光合碳循环酶系。间质内悬有复杂的片层膜系结构。片层膜系由扁平的类囊体垛叠成基粒,各基粒之间再由间质片层按顺时针方向倾斜相连而构成。叶绿体间质中还含有其他固相物质,如淀粉粒;脂质球或称亲锇小体,它们常随片层膜解体而堆积,被视为脂质库。植物细胞中含有色素或储存物的小体称质体,质体是可以转变的。叶绿体是由前质体分化发育而来,前质体内膜下陷成囊,形成原片层体。黑暗中生长的黄化苗,其质体的原片层体不能继续分化发育形成正常的基粒。而在光下原片层则相连成具有基粒的成熟片层系。叶绿体除由原质体分化发育形成外,也可以分裂繁殖,最明显的是单细胞藻如衣藻,只有一个杯形叶绿体。当细胞分裂时,叶绿体也同时分裂到两个子细胞中。多细胞植物幼嫩细胞的叶绿体也有分裂繁殖的现象。此外,也偶见叶绿体的芽生现象。
imtoken助记词怎么填-imtoken钱包没有收益-imtoken矿工费太贵了-im钱包官网:token.im