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Aging01:26

Aging

894
Aging is a complex biological phenomenon influenced by various processes that affect cellular and systemic functions. Several prominent theories attempt to explain its mechanisms, highlighting cellular limitations, oxidative damage, and hormonal changes as central factors in aging.
Cellular Clock Theory
The cellular clock theory posits that the human lifespan is closely tied to the finite capacity of cells to divide, a phenomenon governed by telomeres, which are protective caps at the ends of...
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Mitochondria01:37

Mitochondria

21.0K
Mitochondria are eukaryotic cellular organelles that are known to produce energy through a process called oxidative phosphorylation. Besides their primary function, mitochondria are involved in various cellular processes, including cell growth, differentiation, signaling, metabolism, and senescence. Age-related changes cause a decline in mitochondrial quality and integrity due to increased mitochondrial mutations and oxidative damage. Thus, aging can severely impact mitochondrial functions,...
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The Effect of Aging on Tissues01:19

The Effect of Aging on Tissues

4.0K
Several body functions deteriorate with age. The external signs of aging are easily identifiable. For example, the skin becomes dry, less elastic, and thins out, forming wrinkles. The skin of the face begins to appear looser due to a decrease in the levels of elastic and collagen fibers in the connective tissue. Additionally, melanin production in the hair follicle decreases with age, resulting in gray hair. Moreover, the senses of sight and hearing decline, so glasses and hearing aids may...
4.0K
Electron Transport Chain: Complex I and II01:46

Electron Transport Chain: Complex I and II

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The mitochondrial electron transport chain (ETC) is the main energy generation system in the eukaryotic cells. However, mitochondria also produce cytotoxic reactive oxygen species (ROS) due to the large electron flow during oxidative phosphorylation. While Complex I is one of the primary sources of superoxide radicals, ROS production by Complex II is uncommon and may only be observed in cancer cells with mutated complexes.
ROS generation is regulated and maintained at moderate levels necessary...
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Electron Transport Chain: Complex III and IV01:43

Electron Transport Chain: Complex III and IV

9.4K
During the electron transport chain, electrons from NADH and FADH2 are first transferred to complexes I and II, respectively. These two complexes then transfer the electrons to ubiquinol, which carries them further to complex III. Complex III passes the electrons across the intermembrane space to Cyt c, which carries them further to complex IV. Complex IV donates electrons to oxygen and reduces it to water. As electrons pass through complexes I, III, and IV, the energy released aids the pumping...
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Oxygen Requirements and Growth Patterns01:29

Oxygen Requirements and Growth Patterns

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Microorganisms exhibit diverse oxygen requirements and growth patterns driven by their metabolic strategies and environmental adaptations. Oxygen, while essential for many organisms, can also be toxic under certain conditions, shaping how microorganisms grow and survive.Oxygen Requirements of MicroorganismsMicroorganisms are classified based on their ability to use or tolerate oxygen:● Obligate aerobes like Mycobacterium tuberculosis need oxygen for energy production, as it serves as the...
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Related Experiment Video

Updated: Feb 25, 2026

Ratiometric Biosensors that Measure Mitochondrial Redox State and ATP in Living Yeast Cells
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Ratiometric Biosensors that Measure Mitochondrial Redox State and ATP in Living Yeast Cells

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Proteostasis, oxidative stress and aging.

Ioanna Korovila1, Martín Hugo1, José Pedro Castro2

  • 1Department of Molecular Toxicology, German Institute of Human Nutrition Potsdam-Rehbruecke (DIfE), 14558 Nuthetal, Germany.

Redox Biology
|August 2, 2017
PubMed
Summary
This summary is machine-generated.

Oxidative stress damages cells, but proteostasis systems like the ubiquitin-proteasomal system (UPS) and autophagy maintain cellular health. Aging disrupts these vital pathways, impacting overall health.

Keywords:
AutophagyLysosomeOxidative stressProteasomeRedox shift

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Area of Science:

  • Cellular Biology
  • Biochemistry
  • Aging Research

Background:

  • Metabolism generates reactive species, causing oxidative stress and cellular damage.
  • Proteostasis is crucial for maintaining cellular and organelle function.
  • The ubiquitin-proteasomal system (UPS) and autophagy-lysosomal system are key to protein and organelle turnover.

Purpose of the Study:

  • To review the sources and effects of oxidative stress.
  • To describe mechanisms preserving cellular homeostasis.
  • To examine how aging impacts proteostasis in mammalian cells.

Main Methods:

  • Literature review of cellular proteostasis mechanisms.
  • Analysis of the role of UPS and autophagy in cellular health.
  • Examination of age-related changes in proteostasis.

Main Results:

  • Reactive species damage cellular components, particularly proteins.
  • UPS and autophagy are essential for protein and organelle homeostasis.
  • Aging is associated with dysregulation of UPS, autophagy, and their interplay.

Conclusions:

  • Proteostasis is vital for cellular function and longevity.
  • Dysfunctional proteostasis contributes to age-related diseases.
  • Understanding these pathways is key to addressing aging.