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相关概念视频

Photoreceptors and Plant Responses to Light02:00

Photoreceptors and Plant Responses to Light

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Light plays a significant role in regulating the growth and development of plants. In addition to providing energy for photosynthesis, light provides other important cues to regulate a range of developmental and physiological responses in plants.
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Biological Clocks and Seasonal Responses02:45

Biological Clocks and Seasonal Responses

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The circadian—or biological—clock is an intrinsic, timekeeping, molecular mechanism that allows plants to coordinate physiological activities over 24-hour cycles called circadian rhythms. Photoperiodism is a collective term for the biological responses of plants to variations in the relative lengths of dark and light periods. The period of light-exposure is called the photoperiod.
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Cell Signaling in Plants01:25

Cell Signaling in Plants

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Plant cells communicate to coordinate their cycle of growth, flowering and fruiting, and activities in roots, shoots, and leaves in response to the changing environmental conditions. Plant signaling is distinct from animal signaling. Plants primarily utilize enzyme-linked receptors, whereas the largest class of cell-surface receptors in animals are G-protein coupled receptors (GPCRs). Unlike animals, receptor tyrosine kinases are rare in plants. Instead, plants have a diverse class of...
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Channel Rhodopsins01:11

Channel Rhodopsins

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Most organisms use photoreceptors to sense and respond to light. Examples of photoreceptors include bacteriorhodopsins and bacteriophytochromes in some bacteria, phytochromes in plants, and rhodopsins in the photoreceptor cells of the vertebral retina. The light-sensitive property of these receptors is because of the bound chromophores, such as bilin in the phytochromes and retinal in the rhodopsins.
Rhodopsins belong to the family of cell surface proteins called G-protein coupled receptors,...
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The Antenna Complex01:42

The Antenna Complex

6.0K
Plants and other photosynthetic organisms comprise pigments capable of absorption of direct sunlight. These pigments are present in the reaction center - the main site of photochemical reactions as well as in the antenna complex. Under average light conditions, the rate at which reaction center pigments absorb light is far below the electron transport chain's capacity. As a result, the reaction center alone cannot provide enough energy to drive photosynthesis. The photosynthetic efficiency...
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Photosystems01:32

Photosystems

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Photosystems are multiprotein complexes that form the functional units of photosynthesis in plants, algae, and cyanobacteria. They are found embedded in the membrane of tiny sac-like structures called thylakoids placed inside the chloroplast.
Functioning of Photosystems
Photosystems contain many pigment molecules, such as chlorophylls and carotenoids, arranged in a particular organization across two domains — the antenna complex and the reaction center. The main aim of the pigment...
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相关实验视频

Updated: Jun 20, 2025

Atomic Force Microscopy of Red-Light Photoreceptors Using PeakForce Quantitative Nanomechanical Property Mapping
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Atomic Force Microscopy of Red-Light Photoreceptors Using PeakForce Quantitative Nanomechanical Property Mapping

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对植物染色体的新见解:将结构与功能连接起来

Jon Hughes1,2, Andreas Winkler3,4

  • 1Department of Plant Physiology, Justus Liebig University, Giessen, Germany;

Annual review of plant biology
|July 22, 2024
PubMed
概括

植物染色体是许多生物体中存在的光传感器,它们具有相同的结构,但使用不同的信号通路. 了解它们的结构功能关系,可以深入了解细胞对光的反应.

科学领域:

  • 生物化学 生物化学
  • 分子生物学分子生物学
  • 摄影生物学 摄影生物学

背景情况:

  • 植物染色体是植物,藻类,真菌和 prokaryotes 中无处不在的光受体.
  • 尽管它们的进化起源很古老 (超过10亿年),但它们的光传感器模块在结构和功能上表现出了显著的保存.
  • 不同的机制已经发展为信号传导从保存的光传感器到各种生理结果.

研究的目的:

  • 审查植物染色体结构和功能的关键特征.
  • 探索结构,比林环境,染色体属性和光诱导信号之间的相关性.
  • 讨论最近的结构见解及其对植物色素研究的影响.

主要方法:

  • 文献综述和现有研究的综合.
  • 分析来自细菌和植物植物染色体的结构数据.
  • 讨论功能相关性和信号机制.

主要成果:

  • 植物染色体拥有保存的光传感领域,尽管进化差异.
  • 比林环境对染色体的行为和光敏感性产生了关键的影响.
  • 光吸收会触发形状变化,从而启动信号传导路径.
关键词:
没有了,没有了,没有了.它具有光色的光色性.一个光感受器.生理反应的生理反应红灯是红色的 红灯是红色的信号传输 信号传输

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Investigating Tissue- and Organ-specific Phytochrome Responses using FACS-assisted Cell-type Specific Expression Profiling in Arabidopsis thaliana

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Luciferase Complementation Imaging Assay in Nicotiana benthamiana Leaves for Transiently Determining Protein-protein Interaction Dynamics
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Luciferase Complementation Imaging Assay in Nicotiana benthamiana Leaves for Transiently Determining Protein-protein Interaction Dynamics

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相关实验视频

Last Updated: Jun 20, 2025

Atomic Force Microscopy of Red-Light Photoreceptors Using PeakForce Quantitative Nanomechanical Property Mapping
14:13

Atomic Force Microscopy of Red-Light Photoreceptors Using PeakForce Quantitative Nanomechanical Property Mapping

Published on: October 24, 2014

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Investigating Tissue- and Organ-specific Phytochrome Responses using FACS-assisted Cell-type Specific Expression Profiling in Arabidopsis thaliana
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Investigating Tissue- and Organ-specific Phytochrome Responses using FACS-assisted Cell-type Specific Expression Profiling in Arabidopsis thaliana

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Luciferase Complementation Imaging Assay in Nicotiana benthamiana Leaves for Transiently Determining Protein-protein Interaction Dynamics
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Luciferase Complementation Imaging Assay in Nicotiana benthamiana Leaves for Transiently Determining Protein-protein Interaction Dynamics

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结论:

  • 结构和功能研究正在彻底改变植物色素研究.
  • 了解植物染色机制为我们提供了对光感知和信号传递在各种生命形式的洞察.
  • 需要进一步的研究,以充分阐明关于植物染色体功能及其益处的剩余问题.