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関連する概念動画

Disorders of the Skeletal Muscle01:28

Disorders of the Skeletal Muscle

1.2K
The clinical conditions affecting the skeletal muscle tissue are broadly categorized as musculoskeletal and neuromuscular disorders.
Musculoskeletal disorders
Musculoskeletal disorders involve injuries and conditions affecting the skeletal muscles and associated connective tissues. These disorders can arise from acute biomechanical stresses or chronic overuse and can occur across different age groups. Common injuries include sprains, fractures, and muscular strains, often resulting from...
1.2K
Overview of Skeletal Muscle01:15

Overview of Skeletal Muscle

12.7K
Skeletal muscles are composed of a bundle of muscle fibers and are attached to bones through tendons. Each skeletal muscle fiber is a single muscle cell. The sarcolemma, the plasma membrane of a skeletal muscle cell, consists of a lipid bilayer and glycocalyx that supports muscle fibers. The sarcolemma extends into the muscle cells to form tubular structures called transverse or T-tubules. Each side of the T-tubules consists of a membrane-bound structure called the sarcoplasmic reticulum,...
12.7K
Cross-bridge Cycle01:26

Cross-bridge Cycle

118.4K
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.
118.4K
Skeletal Muscle Anatomy00:55

Skeletal Muscle Anatomy

89.9K
Skeletal muscle is the most abundant type of muscle in the body. Tendons are the connective tissue that attaches skeletal muscle to bones. Skeletal muscles pull on tendons, which in turn pull on bones to carry out voluntary movements.
89.9K
Microscopic Anatomy of Skeletal Muscles01:13

Microscopic Anatomy of Skeletal Muscles

16.3K
Skeletal muscle cells, also called muscle fibers, are distinctly elongated, multi-nucleated, slender biological units. They are packed with specialized structures designed to facilitate their primary function, which is contraction.
The muscle sarcolemma is a plasma membrane enclosing each muscle cell that conducts electrical signals called action potentials. The sarcolemma extends into the cell to form T-tubules, ensuring the neural impulses are uniformly distributed across the entire muscle...
16.3K
Gross Anatomy of Skeletal Muscles01:12

Gross Anatomy of Skeletal Muscles

14.4K
The connective tissues play a significant role in arranging the muscle fibers into a hierarchical structure that forms a complete muscle. Consider a muscle like the bicep brachii, commonly called the bicep. This muscle comprises thousands of muscle fibers enclosed by a protective layer of connective tissue called the endomysium. The endomysium is primarily composed of reticular fibers, a type of thin collagen fiber. It allows the exchange of nutrients and waste products at the fiber level,...
14.4K

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関連する実験動画

Updated: Sep 25, 2025

Non-invasive Skeletal Muscle Quantification in Small Animals Using Micro-computed Tomography
07:33

Non-invasive Skeletal Muscle Quantification in Small Animals Using Micro-computed Tomography

Published on: November 8, 2024

573

スナップショット:骨格筋縮

Leslie M Baehr1, David C Hughes1, David S Waddell2

  • 1University of Iowa, Iowa City, IA 52242, USA.

Cell
|April 29, 2022
PubMed
まとめ

骨格筋の大きさは刺激によって変化し,タンパク質合成と分解経路が関与する. これらの経路を理解することは 筋肉の縮小と筋肉質の維持の鍵です

科学分野:

  • 生理学
  • 分子生物学
  • 細胞生物学

背景:

  • 骨格筋は有意な可塑性を発揮し,様々な内外刺激にダイナミックに反応する.
  • 筋肉の大きさは,タンパク質合成と分解の複雑な相互作用によって制御されます.
  • これらのプロセスの制御不全が 筋肉の縮の原因となり 健康に重大な影響を及ぼします

研究 の 目的:

  • 骨格の筋肉の大きさを 制御する信号経路を解明する
  • タンパク質の合成と分解を 刺激する仕組みを理解する
  • 筋肉の調節を狙った介入の基礎となる.

主な方法:

  • 骨格筋のシグナル伝達に関する最新の文献のレビュー
  • 筋肉のタンパク質のバランスに関与する主要な分子経路の分析
  • 筋肉のサイズに影響を与える様々な刺激からのデータを統合する.

主要な成果:

  • 筋肉のタンパク質の合成と分解を制御するために重要な複数の信号経路が特定されました.
  • 特定の刺激によって これらの経路が活性化または阻害されることが示されています
  • 環境と生理学的シグナルに反応する 骨格筋の可塑性を強調した.

さらに関連する動画

Human Vastus Lateralis Skeletal Muscle Biopsy Using the Weil-Blakesley Conchotome
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Human Vastus Lateralis Skeletal Muscle Biopsy Using the Weil-Blakesley Conchotome

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Tibial Nerve Transection - A Standardized Model for Denervation-induced Skeletal Muscle Atrophy in Mice
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Tibial Nerve Transection - A Standardized Model for Denervation-induced Skeletal Muscle Atrophy in Mice

Published on: November 3, 2013

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関連する実験動画

Last Updated: Sep 25, 2025

Non-invasive Skeletal Muscle Quantification in Small Animals Using Micro-computed Tomography
07:33

Non-invasive Skeletal Muscle Quantification in Small Animals Using Micro-computed Tomography

Published on: November 8, 2024

573
Human Vastus Lateralis Skeletal Muscle Biopsy Using the Weil-Blakesley Conchotome
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Human Vastus Lateralis Skeletal Muscle Biopsy Using the Weil-Blakesley Conchotome

Published on: March 4, 2016

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Tibial Nerve Transection - A Standardized Model for Denervation-induced Skeletal Muscle Atrophy in Mice
10:50

Tibial Nerve Transection - A Standardized Model for Denervation-induced Skeletal Muscle Atrophy in Mice

Published on: November 3, 2013

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結論:

  • 骨格筋の大きさは 適応可能な信号ネットワークによって制御される ダイナミックな特徴です
  • 変化した刺激は,シグナル伝達に特定の変化をもたらし,筋肉のタンパク質の回転に影響を与えます.
  • これらの経路に関するさらなる研究は 筋肉の消耗状態の管理のための戦略を伝えることができます