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相关概念视频

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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Regulation of Transpiration by Stomata02:04

Regulation of Transpiration by Stomata

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During photosynthesis, plants acquire the necessary carbon dioxide and release the produced oxygen back into the atmosphere. Openings in the epidermis of plant leaves is the site of this exchange of gasses. A single opening is called a stoma—derived from the Greek word for “mouth.” Stomata open and close in response to a variety of environmental cues.
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Inducible Operons: lac Operon01:25

Inducible Operons: lac Operon

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The lac operon in Escherichia coli is a model for understanding inducible gene regulation and metabolic flexibility. It integrates local control by lactose and global regulation through catabolite repression, enabling E. coli to preferentially metabolize glucose when available and switch to lactose utilization when glucose is scarce.Structure and Function of the lac OperonThe lac operon contains three structural genes: lacZ (β-galactosidase), lacY (lactose permease), and lacA...
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Tonicity in Plants01:20

Tonicity in Plants

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Plant cells maintain appropriate osmotic balance in extreme conditions. For instance, plants in dry environments store water in vacuoles, limit the opening of their stoma, and have thick, waxy cuticles to prevent unnecessary water loss. Some species of plants that live in salty environments store salt in their roots. As a result, water osmosis occurs in the root from the surrounding soil.
Tonicity
Tonicity describes the capacity of a cell to lose or gain water depending on the solute...
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Biosynthesis in Bacteria01:24

Biosynthesis in Bacteria

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Biosynthesis in bacteria is a fundamental anabolic process that generates essential macromolecules, including proteins, nucleic acids, lipids, and polysaccharides. These macromolecules are critical for cellular growth, replication, and function. The process is tightly regulated and energetically linked to catabolic pathways to ensure optimal resource utilization.Biosynthetic pathways begin with precursor metabolites such as pyruvate, acetyl-CoA, and glucose-6-phosphate derived from glycolysis,...
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Operons02:09

Operons

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Prokaryotes can control gene expression through operons—DNA sequences consisting of regulatory elements and clustered, functionally related protein-coding genes. Operons use a single promoter sequence to initiate transcription of a gene cluster (i.e., a group of structural genes) into a single mRNA molecule. The terminator sequence ends transcription. An operator sequence, located between the promoter and structural genes, prohibits the operon’s transcriptional activity if bound by...
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In vitro evaluation of protein-protein interactions in the rice KAI2 ligand signaling complex.

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相关实验视频

Updated: Jul 12, 2025

Author Spotlight: Plant Primary Organs Profiling Using 13C6-Glucose Labeling and LC-MS
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Author Spotlight: Plant Primary Organs Profiling Using 13C6-Glucose Labeling and LC-MS

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关于strigolactone生物合成和感知的最新知识.

Yoshiya Seto1

  • 1School of Agriculture, Meiji University, Kawasaki, Kanagawa, Japan.

Bioscience, biotechnology, and biochemistry
|October 26, 2023
PubMed
概括

斯特里戈拉克顿 (SLs) 是一种调节树枝分枝和共生信号的植物激素. 最近的研究详细介绍了它们的生物合成和感知机制,进步了植物科学.

科学领域:

  • 植物生物学 植物生物学
  • 荷尔蒙的调节 荷尔蒙的调节
  • 生物化学 生物化学

背景情况:

  • 斯特里戈拉克顿 (SLs) 首先被确定为寄生植物的发芽刺激剂.
  • SLs后来被认为是状菌根真菌共生中的关键信号,促进营养吸收.
  • 2008年,SLs被发现是内源性植物激素,控制着芽生长的分支.

结论:

  • 斯特里戈拉克顿的研究已经迅速从发芽刺激剂演变为关键的激素调节剂.
  • 了解SL生物合成和感知对于农业和生态应用至关重要.
  • 本综述提供了一个全面的概述strigolactone研究的当前状态.
关键词:
生物合成生物合成感知机制是一种感知机制.植物激素植物激素激素这种药物被称为strigolactone.α/β-氨酸酶是什么?

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