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Light-Induced Transformation of Amyloplasts into Chloroplasts in Potato Tubers

机译：光诱导马铃薯块茎中的淀粉体转化为叶绿体

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摘要

The transformation of amyloplast into chloroplasts in potato (Solanum tuberosum L.) tuber tissue can be induced by light. Excised potato tuber discs illuminated with white light of 3000 lux began to synthesize chlorophyll after a lag period of 1 day, and continued to synthesize chlorophyll for 3 weeks. In this paper we present evidence, based on ultracentrifugal sedimentation and immunoprecipitation, that the light-mediated synthesis of Ribulose-1,5-bisphosphate carboxylase began 1 day after illumination with white light. When illuminated the chloroplasts isolated from light-grown potato tuber tissue incorporated [³⁵S]methionine into polypeptides, one of which has been identified as the large subunit of Ribulose-1,5-bisphosphate carboxylase. These chloroplasts are functional as determined by O2 evolution in the Hill reaction.

机译：马铃薯（Solanum tuberosum L.）块茎组织中的淀粉质体向叶绿体的转化可以通过光诱导。滞后1天后，用3000 lux白光照射的马铃薯块茎圆盘开始合成叶绿素，并持续合成3周。在本文中，我们基于超速离心沉淀和免疫沉淀方法提供证据，证明白光照射1天后开始进行光介导的Ribulose-1,5-bis-bisphosphate羧化酶的合成。光照后，从浅色马铃薯块茎组织中分离出的叶绿体将[^{35 ]蛋氨酸掺入多肽中，其中之一已被确定为核糖1,5-双磷酸羧化酶的大亚基。这些叶绿体的功能由希尔反应中的氧气释放确定。}

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期刊名称 Plant Physiology
作者
Yu S. Zhu; Denise L. Merkle-Lehman; Shain D. Kung;
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年(卷),期 1984(75),1
年度 1984
页码 142–145
总页数 4
原文格式 PDF
正文语种
中图分类人体生理学;
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1. 珊瑚豆果实成熟过程中叶绿体转化为杂色体的研究 [J] . 朱澄, 方昭希植物学报：英文版 . 1995,第002期
2. Light-induced ultrastructure changes of amyloplasts and effect of nitrogen fertilization on greening in potato tubers (Solanum tuberosum L.) [J] . Zhang Haiqing, Zhao Zhuqing, Song Botao, Postharvest Biology and Technology . 2020,第1期

机译：淀粉淀粉淀粉淀粉淀粉蛋白的超微结构变化及氮肥对薯片绿化的影响（Solanum Tuberosum L.）
3. Genome-Wide Analysis of Plastid Gene Expression in Potato Leaf Chloroplasts and Tuber Amyloplasts: Transcriptional and Posttranscriptional Control1,[W] [J] . Vladimir T. Valkov Nunzia Scotti Sabine Kahlau2 Daniel MacLean3 Stefania Grillo John C. Gray Ralph Bock and Teodoro Cardi* Plant Physiology . 2009,第4期

机译：马铃薯叶片叶绿体和块茎淀粉体中质体基因表达的全基因组分析：转录和转录后控制，[W]
4. Genome-Wide Analysis of Plastid Gene Expression inPotato Leaf Chloroplasts and Tuber Amyloplasts:Transcriptional and Posttranscriptional Contro [J] . Vladimir T. Valkov, Nunzia Scotti, Sabine Kahlau, Plant physiology . 2009,第4期

机译：马铃薯叶片叶绿体和块茎淀粉体中质体基因表达的全基因组分析：转录和转录后控制
5. Effect of Water Deficit at Tuber Initiation on Potato (Solanum Tuberosum) Tuber Yield and Efficiency of Water Use [C] . Yamei Wang, Qiang Chai, Hengjia Zhang International Conference on Energy, Environment and Sustainable Development . 2014

机译：块茎发育水赤字对马铃薯（Solanum Tuberosum）块茎产量和水效率的影响
6. Light-induced Glycoalkaloid and Chlorophyll Synthesis in Potato Tubers: Cultivar Differences and Strategies for Mitigation. [D] . Chang, Hsueh-Yuan. 2013

机译：马铃薯块茎中光诱导的糖基生物碱和叶绿素合成：品种差异和减缓策略。
7. Genome-Wide Analysis of Plastid Gene Expression in Potato Leaf Chloroplasts and Tuber Amyloplasts: Transcriptional and Posttranscriptional Control [O] . Vladimir T. Valkov, Nunzia Scotti, Sabine Kahlau, 2009

机译：马铃薯叶片叶绿体和块茎淀粉体中质体基因表达的全基因组分析：转录和转录后控制
8. Light-Induced Transformation of Amyloplasts into Chloroplasts in Potato Tubers 1 [O] . Zhu, Yu S., Merkle-Lehman, Denise L., Kung, Shain D. 1984

机译：在马铃薯块茎中光诱导的淀粉体转化为叶绿体1
9. Photosynthetic Energy Conversion:The Effect of Oxygen on the Light-Induced Proton Uptake Capability of Chloroplasts. [R] . quinlan,kenneth p. 1974

机译：光合能量转换：氧气对光诱导叶绿体质子吸收能力的影响。

Light-Induced Transformation of Amyloplasts into Chloroplasts in Potato Tubers

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