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相关概念视频

Active Transport01:14

Active Transport

Active transport is a critical biological process that allows cells to move solutes against an electrochemical gradient. This process requires direct energy input and is characterized by its selectivity, saturability, and susceptibility to competitive inhibition.
Primary active transporters, like Na+, K+ and -ATPase, directly utilize ATP to move ions across the membrane. These transporters play significant roles in various physiological processes. For instance, Na+, K+ and -ATPase maintain...
Energy to Drive Translocation01:37

Energy to Drive Translocation

Mitochondrial protein import is powered by two distinct energy sources: ATP hydrolysis and electrochemical potential across the inner membrane. Newly synthesized precursors are bound by cytosolic chaperones of the Hsp70 family, which guide them to the import receptors on the mitochondrial surface. Utilizing the energy of ATP hydrolysis, Hsp70 chaperones transfer these precursors to the TOM receptors on the mitochondrial outer membrane.
Generally, polypeptides are unfolded by two distinct...
The Electron Transport Chain01:30

The Electron Transport Chain

The electron transport chain or oxidative phosphorylation is an exothermic process in which free energy released during electron transfer reactions is coupled to ATP synthesis. This process is a significant source of energy in aerobic cells, and therefore inhibitors of the electron transport chain can be detrimental to the cell's metabolic processes.
Inhibitors of the electron transport chain
Rotenone, a widely used pesticide, prevents electron transfer from Fe-S cluster to ubiquinone or Q in...
Primary Active Transport01:29

Primary Active Transport

In contrast to passive transport, active transport involves a substance being moved through membranes in a direction against its concentration or electrochemical gradient. There are two types of active transport: primary active transport and secondary active transport. Primary active transport utilizes chemical energy from ATP to drive protein pumps embedded in the cell membrane. With energy from ATP, the pumps transport ions against their electrochemical gradients—a direction they would not...
Primary Active Transport01:29

Primary Active Transport

In contrast to passive transport, active transport involves a substance being moved through membranes in a direction against its concentration or electrochemical gradient. There are two types of active transport: primary active transport and secondary active transport. Primary active transport utilizes chemical energy from ATP to drive protein pumps embedded in the cell membrane. With energy from ATP, the pumps transport ions against their electrochemical gradients—a direction they would not...
Primary Active Transport01:47

Primary Active Transport

In contrast to passive transport, active transport involves a substance being moved through membranes in a direction against its concentration or electrochemical gradient. There are two types of active transport: primary active transport and secondary active transport. Primary active transport utilizes chemical energy from ATP to drive protein pumps that are embedded in the cell membrane. With energy from ATP, the pumps transport ions against their electrochemical gradients—a direction they...

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相关实验视频

Updated: Jul 11, 2026

Isolation of Physiologically Active Thylakoids and Their Use in Energy-Dependent Protein Transport Assays
12:25

Isolation of Physiologically Active Thylakoids and Their Use in Energy-Dependent Protein Transport Assays

Published on: September 28, 2018

能源和运输 能源和运输

James Woodcock1, David Banister, Phil Edwards

  • 1London School of Hygiene and Tropical Medicine, London, UK. james.woodcock@lshtm.ac.uk

Lancet (London, England)
|September 18, 2007
PubMed
概括

促进像步行和骑自行车这样的活跃交通,可以显著减少温室气体排放,改善公共卫生. 远离化石燃料汽车转向可持续的城市流动,对每个人都有好处,尤其是弱势群体.

科学领域:

  • 环境科学 环境科学
  • 公共卫生 公共卫生
  • 运输研究 运输研究

背景情况:

  • 与运输相关的碳排放增加对气候稳定构成威胁.
  • 基于化石燃料的运输与包括污染和不活动在内的不良健康结果有关.
  • 当前的交通基础设施往往忽视了弱势群体,特别是穷人和妇女的需求.

研究的目的:

  • 分析化石燃料运输,温室气体排放和健康影响之间的联系.
  • 评估积极运输在减轻排放和改善健康结果方面的潜力.
  • 倡导可持续的城市发展,优先考虑步行,骑自行车和可再生公共交通.

主要方法:

  • 审查有关运输,排放和健康的现有文献.
  • 分析陆地运输中的能源强度及其健康相关性.
  • 模拟活跃运输场景,以伦敦为案例研究,以预测减排和健康益处.

主要成果:

  • 积极运输为减少与运输有关的碳排放和改善人口健康提供了一种可行的战略.
  • 投资于活跃的交通基础设施和可再生的公共交通改善了所有人的可访问性,包括边缘化群体.
  • 转向活跃运输可以导致到2030年大幅减少排放,正如伦敦模型所证明的那样.

更多相关视频

Application of Electrophysiology Measurement to Study the Activity of Electro-Neutral Transporters
11:51

Application of Electrophysiology Measurement to Study the Activity of Electro-Neutral Transporters

Published on: February 3, 2018

Measurement of Energy Metabolism in Explanted Retinal Tissue Using Extracellular Flux Analysis
10:19

Measurement of Energy Metabolism in Explanted Retinal Tissue Using Extracellular Flux Analysis

Published on: January 7, 2019

相关实验视频

Last Updated: Jul 11, 2026

Isolation of Physiologically Active Thylakoids and Their Use in Energy-Dependent Protein Transport Assays
12:25

Isolation of Physiologically Active Thylakoids and Their Use in Energy-Dependent Protein Transport Assays

Published on: September 28, 2018

Application of Electrophysiology Measurement to Study the Activity of Electro-Neutral Transporters
11:51

Application of Electrophysiology Measurement to Study the Activity of Electro-Neutral Transporters

Published on: February 3, 2018

Measurement of Energy Metabolism in Explanted Retinal Tissue Using Extracellular Flux Analysis
10:19

Measurement of Energy Metabolism in Explanted Retinal Tissue Using Extracellular Flux Analysis

Published on: January 7, 2019

结论:

  • 行为改变和对活跃运输的投资对于减少运输排放至关重要.
  • 可持续发展需要优先考虑步行,骑自行车和公共交通工具,而不是以汽车为中心的基础设施.
  • 全球合作减少运输中化石燃料能源的使用,可以带来显著的健康和可持续性益处.