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Circadian Rhythms and Gene Regulation02:19

Circadian Rhythms and Gene Regulation

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The biological clock is involved in many aspects of regulating complex physiology in all animals. It was in 1935 when German zoologists, Hans Kalmus and Erwin Bünning, discovered the existence of circadian rhythm in Drosophila melanogaster. However, the internal molecular mechanisms behind the circadian clock remained a mystery until 1984, when Jeffrey C. Hall, Michael Rosbash, and Michael W. Young discovered the expression of the Per gene oscillating over a 24-hour cycle. In subsequent...
4.1K
Chronopharmacokinetics: Circadian Rhythms and Influence on Drug Response01:15

Chronopharmacokinetics: Circadian Rhythms and Influence on Drug Response

123
Circadian rhythms are cyclic changes that are crucial in plasma drug concentrations. Various standard circadian parameters, including core body temperature, heart rate, and other cardiovascular factors, directly impact disease states and the therapeutic response to drug therapy.
The time of drug administration is an important factor to consider, as it can influence the toxic dose of a drug. For example, a study conducted by Prins et al. in 1997 examined the effects of the timing of...
123
Cross-bridge Cycle01:26

Cross-bridge Cycle

118.2K
As muscle contracts, the overlap between the thin and thick filaments increases, decreasing the length of the sarcomere—the contractile unit of the muscle—using energy in the form of ATP. At the molecular level, this is a cyclic, multistep process that involves binding and hydrolysis of ATP, and movement of actin by myosin.
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Understanding Sleep01:11

Understanding Sleep

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Sleep, an essential biological state, involves significant reductions in physical activity, sensory awareness, and interaction with the environment. This complex physiological process is primarily regulated by specific brain regions, notably the hypothalamus and pons, which govern the sleep-wake cycle or circadian rhythm.
The circadian rhythm, a nearly 24-hour cycle, is deeply influenced by environmental light cues. Light exposure directly affects the hypothalamus, which in turn regulates...
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Sleep-Wake Cycles01:24

Sleep-Wake Cycles

1.6K
Sleep is an essential physiological process vital to maintaining overall well-being. The reticular activating system (RAS), a network of neurons in the brainstem, regulates wakefulness and sleep. While it may seem passive, sleep consists of distinct cycles, each with its unique characteristics and functions. Two key sleep phases are non-rapid eye movement (NREM) and  rapid eye movement (REM).
NREM Sleep
NREM sleep comprises four progressive stages that seamlessly merge:
1.6K
Relaxation of Skeletal Muscles01:29

Relaxation of Skeletal Muscles

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The period of muscle contraction primarily influences the duration of stimulation at the neuromuscular junction (NMJ), the presence of free calcium ions in the sarcoplasm, and the availability of energy or ATP to support contractions.
When an action potential reaches the axon terminal, it depolarizes the membrane and opens voltage-gated sodium channels. Sodium ions enter the cell, further depolarizing the presynaptic membrane. This depolarization causes voltage-gated calcium channels to open....
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Video Experimental Relacionado

Updated: Sep 9, 2025

Parallel Measurement of Circadian Clock Gene Expression and Hormone Secretion in Human Primary Cell Cultures
06:53

Parallel Measurement of Circadian Clock Gene Expression and Hormone Secretion in Human Primary Cell Cultures

Published on: November 11, 2016

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Ritmo circadiano y función muscular

Hyeon-Ki Kim1,2, Shigenobu Shibata3,4

  • 1National Institute of Biomedical Innovation, Health and Nutrition, Osaka, Japan.

Advances in experimental medicine and biology
|August 29, 2025
PubMed
Resumen
Este resumen es generado por máquina.

Los ritmos de vida regulares son cruciales para la salud, con relojes internos del cuerpo que regulan la función del músculo esquelético. El ejercicio afecta a este reloj, influyendo en el rendimiento muscular y el tiempo.

Palabras clave:
Ejercicio cronológicoEl ritmo circadianoReloj muscularFunción muscular

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Área de la Ciencia:

  • Cronología
  • Fisiología del músculo esquelético
  • Ciencia del ejercicio

Sus antecedentes:

  • El descubrimiento de los genes del reloj en los mamíferos ha aclarado el papel fisiológico del reloj interno del cuerpo, un ritmo de ~ 24 horas esencial para la salud.
  • La función del músculo esquelético está significativamente influenciada por este reloj interno, con más de 2300 genes que exhiben ritmos circadianos involucrados en la miogénesis, la transcripción y el metabolismo.

Objetivo del estudio:

  • Para explorar el papel regulador del reloj interno en la función del músculo esquelético.
  • Para investigar los efectos del ejercicio en el reloj interno del músculo esquelético.
  • Para discutir los posibles efectos de tiempo del ejercicio en el músculo esquelético.

Principales métodos:

  • Revisión de la literatura sobre los ritmos circadianos en el músculo esquelético.
  • Análisis de los patrones de expresión génica relacionados con la regulación circadiana en el músculo.
  • Discusión de las intervenciones de ejercicio y su impacto en el reloj muscular.

Principales resultados:

  • El reloj interno regula las funciones clave del músculo esquelético, incluida la miogénesis, la transcripción y el metabolismo.
  • Un número significativo de genes (> 2300) en el músculo esquelético muestran ritmicidad circadiana.
  • El ejercicio se identifica como un factor que puede modular el reloj interno del músculo esquelético.

Conclusiones:

  • Mantener un ritmo de vida regular es vital para la salud de los músculos esqueléticos.
  • El reloj interno del músculo esquelético juega un papel crítico en los procesos fisiológicos.
  • El ejercicio puede influir en el tiempo y la regulación del reloj del músculo esquelético, con implicaciones para el rendimiento y la salud.