Molecular mechanisms of RuBisCO biosynthesis in higher plants

Nishimura Kenji; Ogawa Taro; Ashida Hiroki; Yokota Akiho

首页> 外文期刊>Plant Biotechnology >Molecular mechanisms of RuBisCO biosynthesis in higher plants

【24h】

Molecular mechanisms of RuBisCO biosynthesis in higher plants

机译：高等植物RuBisCO生物合成的分子机理

获取原文

获取原文并翻译 | 示例

获取外文期刊封面封底 >>

开具论文收录证明 >>

文献代查 >>

团队文献服务 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Ribulose 1,5-bisphosphate carboxylase/oxygenase (RuBisCO) catalyses the initial step of photosynthetic CO sub(2) assimilation, although its catalytic efficiency is very low. Therefore, higher plants must synthesize large amounts of RuBisCO to compensate for its inefficient enzymatic properties. The holoenzyme of RuBisCO consists of 8 large and 8 small subunits, whose genes are individually encoded on two distinct genomes located in the chloroplast and the nucleus, respectively. RuBisCO biosynthesis requires many factors involved in transcription, translation, folding and assembly processes. However, the mechanisms underlying these processes are complex, and therefore the molecular mechanisms and regulation systems of RuBisCO biosynthesis are not yet fully understood. In this review, we introduce recent research on the molecular mechanisms of RuBisCO biosynthesis in higher plants, and discuss future perspectives in this field of research.

机译：核糖1,5-双磷酸羧化酶/加氧酶（RuBisCO）催化光合作用CO sub（2）同化的起始步骤，尽管其催化效率非常低。因此，高等植物必须合成大量的RuBisCO以补偿其低效的酶促性质。 RuBisCO的全酶由8个大亚基和8个小亚基组成，它们的基因分别编码在位于叶绿体和细胞核的两个不同基因组上。 RuBisCO生物合成需要转录，翻译，折叠和装配过程中涉及的许多因素。但是，这些过程的机制很复杂，因此尚未完全了解RuBisCO生物合成的分子机制和调控系统。在这篇综述中，我们介绍了有关高等植物中RuBisCO生物合成的分子机制的最新研究，并讨论了该研究领域的未来前景。

著录项

来源
《Plant Biotechnology 》 |2008年第3期| 共6页
作者
Nishimura Kenji; Ogawa Taro; Ashida Hiroki; Yokota Akiho;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类植物学 ;
关键词
Carbon dioxide; Catalysis; Chloroplasts; Carbon dioxide; Catalysis; Chloroplasts; Genomes; Molecular modelling; Nuclei; Oxygenase; Reviews; Ribulose-bisphosphate carboxylase; Transcription; Translation;

机译：二氧化碳;催化;叶绿体;二氧化碳;催化;叶绿体;基因组;分子模型;核仁;加氧酶;综述;核糖二磷酸羧化酶;转录;翻译;

相似文献

外文文献
中文文献
专利

1. Molecular mechanisms of RuBisCO biosynthesis in higher plants [J] . Nishimura Kenji, Ogawa Taro, Ashida Hiroki, Plant Biotechnology . 2008 ,第3期

机译：高等植物RuBisCO生物合成的分子机理
2. Relationship between Rubisco activase and Rubisco contents in transgenic rice plants with overproduced or decreased Rubisco content [J] . Suganami Mao, Suzuki Yuji, Sato Tomonori, Soil Science and Plant Nutrition . 2018 ,第3期

机译：转基因水稻植物氧化铝活性酶与Rubisco含量的关系，具有过度屈服或降低的Rubisco含量
3. Heat sensitivity of Rubisco, Rubisco activase and Rubisco binding protein in higher plants [Review] [J] . Demirevska-Kepova K, Feller U Acta Physiologiae Plantarum . 2004 ,第1期

机译：Rubisco，Rubisco激活酶和Rubisco结合蛋白在高等植物中的热敏感性[综述]
4. Growth Stimulation System of Plants using Microwave Irradiation and Elucidation of its Molecular Mechanisms [C] . Satoshi Horikoshi, Yasuhiko Hasegawa, Nobuhiro Suzuki IMPI s Annual Microwave Power Symposium . 2016

机译：使用微波辐射植物生长刺激系统及其分子机制的阐释
5. Molecular mechanism of cellulose biosynthesis in plants. [D] . Xu, Fuyu. 2009

机译：植物纤维素生物合成的分子机制。
6. Nitric oxide overcomes Cd and Cu toxicity in in vitro-grown tobacco plants through increasing contents and activities of rubisco and rubisco activase [O] . Alaaldin Idris H. Khairy, Mi Jeong Oh, Seung Min Lee, 2016

机译：一氧化氮通过增加Rubisco和Rubisco活化酶的含量和活性克服了体外种植的烟草植物中Cd和Cu的毒性
7. Cell wall biosynthesis and the molecular mechanism of plant enlargement [O] . John S. Boyer 2009

机译：细胞壁生物合成和植物扩大的分子机制
8. Phaseolotoxin Biosynthesis: Molecular Mechanisms of Thermoregulation [R] . Patil, S. S. 2001

机译：phaseolotoxin生物合成：体温调节的分子机制

Molecular mechanisms of RuBisCO biosynthesis in higher plants

摘要

著录项

相似文献

相关主题

期刊订阅