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Lineage Commitment01:21

Lineage Commitment

Commitment is the  process whereby stem cells:
Forced Transdifferentiation01:28

Forced Transdifferentiation

Transdifferentiation, also known as lineage reprogramming, was first discovered by Selman and Kafatos in 1974 in silkmoths. They observed that the moths’ cuticle-producing cells transformed into salt-producing cells. Many such cases of natural transdifferentiation occur in organisms. In humans, pancreatic alpha cells can become beta cells. In newts, the loss of the eye’s lens causes the pigmented epithelial cells to transdifferentiate into the lens cells.
Artificial transdifferentiation occurs...
Cellular Differentiation00:57

Cellular Differentiation

How does a complex organism such as a human develop from a single cell? It all starts from a single fertilized egg which gives rise to a vast array of cell types, such as nerve cells, muscle cells, and epithelial cells that characterize the adult? Throughout development and adulthood, cellular differentiation leads cells to assume their final morphology and physiology. Differentiation is the process by which unspecialized cells become specialized to carry out distinct functions.
A zygote is a...
Cell Migration01:19

Cell Migration

Cell migration is a process by which the cells move from one location to another, playing an essential role in embryological development, repair and regeneration, immune response, and metastasis. Cells migrate in response to chemical or mechanical signals generated by specific organs or tissues. The overall mechanism includes three steps - polarization, protrusion, and release. Polarization involves the formation of a distinct cell front and rear, which determines the direction of movement.
Cell Migration01:09

Cell Migration

Cell migration, the process by which cells move from one location to another, is essential for the proper development and viability of organisms throughout their life. When cells are not able to migrate properly to their ordained locations, various disorders may occur. For example, disruption in cell migration causes chronic inflammatory diseases such as arthritis.
Cell Lines01:16

Cell Lines

A cell line is a population of cells grown in vitro that can be subcultured over several generations. Normal cells cease to divide after a certain number of cell divisions, a process known as replicative senescence. This number, called the Hayflick limit, was conceptualized by Leonard Hayflick in 1961 when he observed that fetal cells grown in culture could only divide 40-60 times. This limit is due to the shortening of the telomeres during each round of cell division, preventing cell division...

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Updated: Jun 18, 2026

A Method for Lineage Tracing of Corneal Cells Using Multi-color Fluorescent Reporter Mice
07:48

A Method for Lineage Tracing of Corneal Cells Using Multi-color Fluorescent Reporter Mice

Published on: December 18, 2015

細胞が系統を変えることを強制する.

Thomas Graf1, Tariq Enver

  • 1Center for Genomic Regulation and ICREA, 08003 Barcelona, Spain. thomas.graf@crg.es

Nature
|December 4, 2009
PubMed
まとめ
この要約は機械生成です。

誘発性多能性 (iPS再プログラム) は,直接的な細胞系再プログラムへの関心を復活させる. この技術は,細胞の運命を研究するための強力な方法を提供し,治療上の応用の可能性があります.

さらに関連する動画

Direct Lineage Reprogramming of Adult Mouse Fibroblast to Erythroid Progenitors
11:46

Direct Lineage Reprogramming of Adult Mouse Fibroblast to Erythroid Progenitors

Published on: December 14, 2018

Application of RNAi and Heat-shock-induced Transcription Factor Expression to Reprogram Germ Cells to Neurons in C. elegans
07:53

Application of RNAi and Heat-shock-induced Transcription Factor Expression to Reprogram Germ Cells to Neurons in C. elegans

Published on: January 1, 2018

関連する実験動画

Last Updated: Jun 18, 2026

A Method for Lineage Tracing of Corneal Cells Using Multi-color Fluorescent Reporter Mice
07:48

A Method for Lineage Tracing of Corneal Cells Using Multi-color Fluorescent Reporter Mice

Published on: December 18, 2015

Direct Lineage Reprogramming of Adult Mouse Fibroblast to Erythroid Progenitors
11:46

Direct Lineage Reprogramming of Adult Mouse Fibroblast to Erythroid Progenitors

Published on: December 14, 2018

Application of RNAi and Heat-shock-induced Transcription Factor Expression to Reprogram Germ Cells to Neurons in C. elegans
07:53

Application of RNAi and Heat-shock-induced Transcription Factor Expression to Reprogram Germ Cells to Neurons in C. elegans

Published on: January 1, 2018

科学分野:

  • 細胞生物学 細胞生物学
  • 発達生物学 発達生物学とは
  • 分子生物学は分子生物学である.

背景:

  • 誘発性多能性 (iPS再プログラム) は,幹細胞の生成を可能にします.
  • 転写因子は,系統間の特殊な細胞を直接変換することが示されています.

研究 の 目的:

  • 直接的な系統再プログラミングの影響を調査する.
  • 細胞運命を決定する理解におけるその有用性を強調するために.
  • 治療戦略におけるその可能性について議論する.

主な方法:

  • 転写因子媒介細胞変換に関する以前の研究のレビュー.
  • 誘導された多能性 (iPS再プログラミング) の分析技術.
  • 微分化中の細胞運命を選択するメカニズムの探求.

主要な成果:

  • 直接的な系統再プログラミングは,細胞運命を研究するための有効な方法です.
  • このアプローチは,遺伝子変異の研究に匹敵する洞察を提供します.
  • 得られた理解は,治療的な細胞操作に情報を与えることができます.

結論:

  • 系統再プログラミングは,生物学的研究にとって貴重なツールです.
  • それは,新しい治療的介入の開発のための枠組みを提供します.
  • 細胞操作に関するさらなる研究は,大きな期待を寄せている.