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相关概念视频

Genome Size and the Evolution of New Genes03:21

Genome Size and the Evolution of New Genes

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While every living organism has a genome of some kind (be it RNA, or DNA), there is considerable variation in the sizes of these blueprints. One major factor that impacts genome size is whether the organism is prokaryotic or eukaryotic. In prokaryotes, the genome contains little to no non-coding sequence, such that genes are tightly clustered in groups or operons sequentially along the chromosome. Conversely, the genes in eukaryotes are punctuated by long stretches of non-coding sequence.
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Genome Size and the Evolution of New Genes03:21

Genome Size and the Evolution of New Genes

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Gene Duplication and Divergence02:37

Gene Duplication and Divergence

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The seminal work of Ohno in 1970 popularized the idea of gene duplication and divergence. DNA sequence comparison studies reveal that a large portion of the genes in bacteria, archaebacteria, and eukaryotes was  generated by gene duplication and divergence, indicating its critical role in evolution.
The duplicated copies of the gene are called Paralogs. Paralogs with similar sequences and functions form a gene family. Across several species, a large number of gene families are...
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Exon Recombination02:32

Exon Recombination

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The evolution of new genes is critical for speciation. Exon recombination, also known as exon shuffling or domain shuffling, is an important means of new gene formation. It is observed across vertebrates, invertebrates, and in some plants such as potatoes and sunflowers. During exon recombination, exons from the same or different genes recombine and produce new exon-intron combinations, which might evolve into new genes. 
Exon shuffling follows “splice frame rules.” Each exon...
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Gene Evolution - Fast or Slow?02:05

Gene Evolution - Fast or Slow?

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The genomes of eukaryotes are punctuated by long stretches of sequence which do not code for proteins or RNAs. Although some of these regions do contain crucial regulatory sequences, the vast majority of this DNA serves no known function. Typically, these regions of the genome are the ones in which the fastest change, in evolutionary terms, is observed, because there is typically little to no selection pressure acting on these regions to preserve their sequences.
In contrast, regions which code...
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Gene Evolution - Fast or Slow?02:05

Gene Evolution - Fast or Slow?

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相关实验视频

Updated: Jan 15, 2026

Quantification of Information Encoded by Gene Expression Levels During Lifespan Modulation Under Broad-range Dietary Restriction in C. elegans
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饮食驱动的基因扩张

Magnus Ingelman-Sundberg1

  • 1Department of Physiology and Pharmacology, Karolinska Institutet, Stockholm, Sweden.

Clinical pharmacology and therapeutics
|October 11, 2025
PubMed
概括

饮食压力驱动基因重复,在物种之间扩大排毒基因. 这种基因组适应会影响各种生物体的药物代谢和农药耐药性.

科学领域:

  • 进化生物学是进化的生物学.
  • 基因组学就是基因组学.
  • 生物化学 生物化学

背景情况:

  • 基因重复是分子进化的关键机制.
  • 饮食因素可以对基因组施加显著的选择性压力.
  • 排毒基因对于适应环境毒素至关重要.

研究的目的:

  • 探索饮食在推动基因扩张中的作用.
  • 了解基因复制是如何帮助饮食化合物排毒的.
  • 突出饮食对解毒路径的进化影响.

主要方法:

  • 跨物种的比较基因组学分析.
  • 识别与新陈代谢相关的扩展基因家族.
  • 基因扩张与特定的饮食成分的相关性.

主要成果:

  • 在各种物种中,排毒途径中的基因重复是常见的.
  • 例如,人类的CYP2D6用于类代谢,虫中的CYP6CY3用于尼古丁耐药性.
  • 木鼠显示ADME基因的扩张,用于排毒.

结论:

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  • 饮食驱动的基因扩张 (DGE) 是一个重要的进化力量.
  • DGE影响适应特定的饮食和环境挑战.
  • 了解DGE对于预测药物和农药的反应至关重要.