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Methods of Nuclear Reprogramming01:24

Methods of Nuclear Reprogramming

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Nuclear reprogramming is a process of transforming one cell type into an unrelated cell type by epigenetic changes that alter the cell’s original gene expression pattern. Such epigenetic changes force cells to express a different set of genes, which play a significant role in inducing transformation into other cell types. Nuclear reprogramming offers applications in reproductive cloning for livestock propagation and regenerative medicine — developing patient-specific cells for...
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Epigenetic Regulation01:37

Epigenetic Regulation

3.0K
Epigenetic changes alter the physical structure of the DNA without changing the genetic sequence and often regulate whether genes are turned on or off. This regulation ensures that each cell produces only proteins necessary for its function. For example, proteins that promote bone growth are not produced in muscle cells. Epigenetic mechanisms play an essential role in healthy development. Conversely, precisely regulated epigenetic mechanisms are disrupted in diseases like cancer.
X-chromosome...
3.0K
Introduction to Nuclear Reprogramming01:14

Introduction to Nuclear Reprogramming

1.9K
Nuclear reprogramming is the process of switching gene expression of one cell type to that of another cell type, usually from a differentiated cell state to an undifferentiated cell state. Differentiation occurs during processes such as development and morphogenesis, tissue regeneration, and malignancy. Cells can also be artificially induced to reprogram their gene expression by techniques such as nuclear transfer, induced pluripotency, and cell fusion. Such techniques have many applications in...
1.9K
Genomic Imprinting and Inheritance02:30

Genomic Imprinting and Inheritance

34.3K
Diploid organisms inherit genetic material through chromosomes from both parents. Copies of the same gene are known as alleles. In most cases, both alleles are simultaneously expressed and allow various cellular processes to function optimally. If one of the alleles is missing or mutated, the expression of the other allele can compensate; however, this is not true for all genes.
The expression of some genes depends on which parent passed the gene to the offspring, through a phenomenon known as...
34.3K
Forced Transdifferentiation01:28

Forced Transdifferentiation

1.9K
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...
1.9K
Inheritance of Chromatin Structures03:17

Inheritance of Chromatin Structures

6.2K
Epigenetics is the study of inherited changes in a cell's phenotype without changing the DNA sequences. It provides a form of memory for the differential gene expression pattern to maintain cell lineage, position-effect variegation, dosage compensation, and maintenance of chromatin structures such as telomeres and centromeres. For example, the structure and location of the centromere on chromosomes are epigenetically inherited. Its functionality is not dictated or ensured by the underlying...
6.2K

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相关实验视频

Updated: Jun 25, 2025

Rapid and Efficient Spatiotemporal Monitoring of Normal and Aberrant Cytosine Methylation within Intact Zebrafish Embryos
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Rapid and Efficient Spatiotemporal Monitoring of Normal and Aberrant Cytosine Methylation within Intact Zebrafish Embryos

Published on: August 18, 2022

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在远程生物中重新编程DNA甲基化.

Sébastien Matlosz1, Sigríður R Franzdóttir1, Arnar Pálsson1

  • 1Institute of Life and Environmental Sciences, University of Iceland, Reykjavík, Iceland.

Evolution & development
|May 24, 2024
PubMed
概括
此摘要是机器生成的。

对于早期发育,DNA甲基化重编程是必不可少的. 本综述检查了远鱼的DNA甲基化模式,将它们与哺乳动物进行比较,以了解进化保护.

关键词:
通过DNA甲基化.表观遗传学是指表观遗传学.进化 演化 演化 演化 演化 演化 演化 演化重编程是重新编程.远程传送的东西.

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Immunostaining for DNA Modifications: Computational Analysis of Confocal Images
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Immunohistochemical Detection of 5-Methylcytosine and 5-Hydroxymethylcytosine in Developing and Postmitotic Mouse Retina
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Immunohistochemical Detection of 5-Methylcytosine and 5-Hydroxymethylcytosine in Developing and Postmitotic Mouse Retina

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相关实验视频

Last Updated: Jun 25, 2025

Rapid and Efficient Spatiotemporal Monitoring of Normal and Aberrant Cytosine Methylation within Intact Zebrafish Embryos
07:16

Rapid and Efficient Spatiotemporal Monitoring of Normal and Aberrant Cytosine Methylation within Intact Zebrafish Embryos

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Immunostaining for DNA Modifications: Computational Analysis of Confocal Images
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Immunostaining for DNA Modifications: Computational Analysis of Confocal Images

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Immunohistochemical Detection of 5-Methylcytosine and 5-Hydroxymethylcytosine in Developing and Postmitotic Mouse Retina
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Immunohistochemical Detection of 5-Methylcytosine and 5-Hydroxymethylcytosine in Developing and Postmitotic Mouse Retina

Published on: August 29, 2018

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科学领域:

  • 发展生物学 发展生物学
  • 表观遗传学 在表观遗传学中,表观遗传学是指表观遗传学.
  • 进行比较基因组学.

背景情况:

  • 早期胚胎发育依赖于精确的基因表达控制,涉及诸如DNA甲基化之类的表观遗传修饰.
  • DNA甲基化影响染色质结构和基因转录,在细胞状态维护中发挥关键作用.
  • 哺乳动物在早期发育和生殖细胞中经历了显著的DNA甲基化重编程事件.

研究的目的:

  • 审查当前对鱼类早期发育过程中DNA甲基化重编程的理解.
  • 将远鱼的DNA甲基化重编程模式与哺乳动物的模式进行比较.
  • 为了研究DNA甲基化重编程的进化保存.

主要方法:

  • 对远鱼的DNA甲基化重编程研究的文献综述.
  • 对研究结果的分析,考虑到研究中的方法差异.
  • 对teleost和哺乳动物DNA甲基化重编程模式的比较分析.

主要成果:

  • 远鱼表现出多样化的DNA甲基化重编程模式.
  • 方法上的差异影响了对鱼类重编程模式的解释.
  • 对比揭示了DNA甲基化重编程的保存和谱系特定方面.

结论:

  • 了解远程生物中的DNA甲基化重编程对于进化见解至关重要.
  • 需要进一步的研究,以充分阐明这些表观遗传过程的保存.
  • 远鱼为研究发育表观遗传学的演变提供了一个有价值的模型.