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関連する概念動画

Oogenesis02:07

Oogenesis

70.6K
In human women, oogenesis produces one mature egg cell or ovum for every precursor cell that enters meiosis. This process differs in two unique ways from the equivalent procedure of spermatogenesis in males. First, meiotic divisions during oogenesis are asymmetric, meaning that a large oocyte (containing most of the cytoplasm) and minor polar body are produced as a result of meiosis I, and again following meiosis II. Since only oocytes will go on to form embryos if fertilized, this unequal...
70.6K
Oogenesis01:22

Oogenesis

4.4K
Oogenesis,  the process of developing egg cells (female gametes), occurs within the ovaries and is fundamental to female fertility. This sequence begins during fetal development when diploid oogonia in the developing ovaries undergo mitotic divisions to produce primary oocytes. By birth, these primary oocytes enter prophase I of meiosis but become arrested in this stage, remaining suspended until puberty.
Each primary oocyte is surrounded by a layer of pre-granulosa cells, forming what is...
4.4K
Meiosis vs. Mitosis02:57

Meiosis vs. Mitosis

72.3K
Cell division is necessary for growth and reproduction in organisms. Mitosis aids cell growth and development by dividing somatic cells. In contrast, meiosis causes the division of germ cells and plays an essential role in sexual reproduction. Due to their unique functional requirements, mitosis and meiosis differ from each other in multiple aspects.
Before the start of mitosis and meiosis I, the cell synthesizes DNA, resulting in two homologous copies of each chromosome. DNA synthesis is...
72.3K
Meiosis II02:02

Meiosis II

50.7K
Meiosis II entails cell division and segregation of the sister chromatids, resulting in the production of four unique haploid gametes. The steps for meiosis II are similar to mitosis, except that meiosis II occurs in haploid cells, whereas mitosis occurs in diploid cells.
The timing and cell division patterns of meiosis differ between males and females. In male meiosis, the centrosomes are part of the formation of the meiotic spindle. However, in oocytes, including that of humans, Drosophila,...
50.7K
Folliculogenesis01:20

Folliculogenesis

2.8K
Folliculogenesis is the development of ovarian follicles, the specialized structures within the ovarian cortex where oogenesis, or egg development, occurs. This process is essential for female reproductive health and begins during fetal development when primordial follicles are formed. Each primordial follicle comprises a primary oocyte in the center, surrounded by a single layer of squamous pre-granulosa cells. These follicles remain dormant in late prophase I of meiosis until triggered by...
2.8K
Mitochondrial Membranes01:45

Mitochondrial Membranes

17.5K
A single mitochondrion is a bean-shaped organelle enclosed by a double-membrane system. The outer membrane of mitochondria is smooth and contains many porins - the integral membrane transporters. Porins enable free diffusion of ions and small uncharged molecules through the outer mitochondrial membrane but limit the transport of molecules larger than 5000 Daltons. Further, the outer mitochondrial membrane forms a unique structure called membrane contact sites with other subcellular organelles,...
17.5K

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Updated: Feb 28, 2026

Human Egg Maturity Assessment and Its Clinical Application
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Human Egg Maturity Assessment and Its Clinical Application

Published on: August 19, 2019

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ヒト卵母細胞成熟におけるミトコンドリア凝集パターン

Adrian Ellenbogen1, Gal Bachar1,2, Paz Gili1

  • 1Rappaport School of Medicine, Technion - Israeli Institute of Technology, Haifa, Israel.

Human fertility (Cambridge, England)
|February 27, 2026
PubMed
まとめ

未熟な段階での周辺分布から成熟卵母細胞での拡散パターンへとミトコンドリアの分布が変化する。この動的な変化は、細胞質の成熟と発達能力の向上に関連している。

科学分野:

  • 生殖生物学
  • 細胞生物学
  • 発生生物学

背景:

  • ミトコンドリアの分布は、卵母細胞の成熟と発達の可能性にとって重要である。
  • 異常なミトコンドリア局在は、細胞質の成熟障害と能力低下と相関する。

研究 の 目的:

  • ヒト卵母細胞成熟におけるミトコンドリア分布ダイナミクスを特徴づける。
  • ミトコンドリアパターンと卵母細胞の発達段階を相関させる。

主な方法:

  • 体外受精(ICSI)周期から廃棄されたヒト卵母細胞の分析。
  • ミトコンドリア濃度と分布パターンの顕微鏡検査。
  • 卵母細胞の卵母細胞期(GV)、第一分裂中期(MI)、第二分裂中期(MII)の各段階におけるミトコンドリア分布の比較。

主要な成果:

  • 未熟なGV卵母細胞では主に周辺部にミトコンドリアが分布していた(53%)。
  • 成熟したMII卵母細胞では均一に拡散したパターンを示した(61%)。
  • ミトコンドリア密度はGV期からMII期にかけて有意に増加した(p=0.003)、細胞質の占有率も同様であった(p<0.001)。

結論:

キーワード:
ミトコンドリア分布成熟卵母細胞細胞質

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Author Spotlight: Elucidating the Dynamics of Mechano-Transduction and Nuclear Agitation in Mouse Oocytes
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Multi-Photon Laser Ablation of Cytoplasmic Microtubule Organizing Centers in Mouse Oocytes
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Author Spotlight: Elucidating the Dynamics of Mechano-Transduction and Nuclear Agitation in Mouse Oocytes
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  • ヒト卵母細胞の成熟には、ミトコンドリア密度と細胞質の占有率の増加が伴う。
  • ミトコンドリア分布は、未熟卵母細胞の周辺部から成熟卵母細胞の拡散部へと移行する。
  • この動的なミトコンドリアのパターニングは、細胞質の成熟とそれに続く胚発生の成功に不可欠である。