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相关概念视频

Position-effect Variegation02:32

Position-effect Variegation

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In 1928, a German botanist Emil Heitz observed the moss nuclei with a DNA binding dye. He observed that while some chromatin regions decondense and spread out in the interphase nucleus, others do not. He termed them euchromatin and heterochromatin, respectively. He proposed that the heterochromatin regions reflect a functionally inactive state of the genome. It was later confirmed that heterochromatin is transcriptionally repressed, and euchromatin is transcriptionally active chromatin.
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Epistasis01:39

Epistasis

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In addition to multiple alleles at the same locus influencing traits, numerous genes or alleles at different locations may interact and influence phenotypes in a phenomenon called epistasis. For example, rabbit fur can be black or brown depending on whether the animal is homozygous dominant or heterozygous at a TYRP1 locus. However, if the rabbit is also homozygous recessive at a locus on the tyrosinase gene (TYR), it will have an unshaded coat that appears white, regardless of its TYRP1...
46.3K
Epistasis Analysis01:09

Epistasis Analysis

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Although Mendel chose seven unrelated traits in peas to study gene segregation, most traits involve multiple gene interactions that create a spectrum of phenotypes. When the interaction of various genes or alleles at different locations influences a phenotype, this is called epistasis. Epistasis often involves one gene masking or interfering with the expression of another (antagonistic epistasis). Epistasis often occurs when different genes are part of the same biochemical pathway. The...
4.9K
Chromatin Structure Regulates pre-mRNA Processing02:41

Chromatin Structure Regulates pre-mRNA Processing

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In eukaryotic cells, nascent mRNA transcripts need to undergo many post-transcriptional modifications to reach the cell cytoplasm and translate into functional proteins. For a long time, transcription and pre-mRNA processing were considered two independent events that occur sequentially in the cell. However, it has now been well established that transcription and pre-mRNA processing are two simultaneous processes that are precisely regulated inside the cell.
The chromatin structure, especially...
7.0K
lncRNA - Long Non-coding RNAs02:39

lncRNA - Long Non-coding RNAs

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In humans, more than 80% of the genome gets transcribed. However, only around 2% of the genome codes for proteins. The remaining part produces non-coding RNAs which includes ribosomal RNAs, transfer RNAs, telomerase RNAs, and regulatory RNAs, among other types. A large number of regulatory non-coding RNAs have been classified into two groups depending upon their length – small non-coding RNAs, such as microRNA, which are less than 200 nucleotides in length, and long non-coding RNA...
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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...
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相关实验视频

Updated: Jun 11, 2025

Enhanced Northern Blot Detection of Small RNA Species in Drosophila Melanogaster
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Enhanced Northern Blot Detection of Small RNA Species in Drosophila Melanogaster

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黑色素:通过非编码RNAs进行神秘的控制.

Richard H Ffrench-Constant1, Alex Hayward1

  • 1Centre for Ecology and Conservation, University of Exeter, Penryn TR10 9FE, UK.

Current biology : CB
|October 8, 2024
PubMed
概括

蝶和蝶的黑色素质,以前与皮质基因有关,现在被证明是由同一遗传位点的非编码RNA控制的. 这一发现揭示了对Lepidoptera中色彩的遗传基础的新见解.

科学领域:

  • 遗传学 是一个遗传学.
  • 进化生物学 进化生物学
  • 分子生物学分子生物学

背景情况:

  • 黑色素是蝶和的共同特征,在密码和模仿中起着至关重要的作用.
  • 之前的研究已经确定了结构性基因"皮质"作为黑色情绪的主要遗传决定因素.

研究的目的:

  • 重新评估类动物中黑色素的遗传基础.
  • 研究非编码RNAs在黑色情绪调节中的作用.

主要方法:

  • 使用先进的遗传绘图技术.
  • 进行了分子分析,以确定皮层位置的调节元素.

主要成果:

  • 证明 黑色素不仅仅由皮质结构基因控制.
  • 鉴定出在皮质位置的特定非编码RNA作为黑色情绪的关键调节者.

结论:

  • 在Lepidoptera中,黑色素的遗传控制比以前理解的要复杂得多.
  • 非编码RNA在表型特征 (如色彩) 的演化中起着重要作用.

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