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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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Mutations in Microorganisms01:18

Mutations in Microorganisms

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Mutations are heritable changes in an organism’s genome involving alterations in the base sequence of DNA or RNA. These changes can influence cellular processes and phenotypic traits, potentially transforming the unaltered wild type into a mutant form. Such changes, termed forward mutations, are pivotal in shaping the genetic diversity of organisms.RNA viruses exhibit the highest mutation rates due to the absence of robust proofreading mechanisms during genome replication. In contrast,...
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Eukaryotic Evolution01:24

Eukaryotic Evolution

40.1K
The endosymbiont theory is the most widely accepted theory of eukaryotic evolution; however, its progression is still somewhat debated. According to the nucleus-first hypothesis, the ancestral prokaryote first evolved a membrane to enclose DNA and form the nucleus. Conversely, the mitochondria-first hypothesis suggests that the nucleus was formed after endosymbiosis of mitochondria.
Contrary to the endosymbiont theory, the eukaryote-first hypothesis proposes that the simpler prokaryotic and...
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Evolutionary Relationships through Genome Comparisons02:54

Evolutionary Relationships through Genome Comparisons

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Genome comparison is one of the excellent ways to interpret the evolutionary relationships between organisms. The basic principle of genome comparison is that if two species share a common feature, it is likely encoded by the DNA sequence conserved between both species. The advent of genome sequencing technologies in the late 20th century enabled scientists to understand the concept of conservation of domains between species and helped them to deduce evolutionary relationships across diverse...
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Mutation, Gene Flow, and Genetic Drift01:09

Mutation, Gene Flow, and Genetic Drift

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In a population that is not at Hardy-Weinberg equilibrium, the frequency of alleles changes over time. Therefore, any deviations from the five conditions of Hardy-Weinberg equilibrium can alter the genetic variation of a given population. Conditions that change the genetic variability of a population include mutations, natural selection, non-random mating, gene flow, and genetic drift (small population size).
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Viral Mutations00:36

Viral Mutations

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A mutation is a change in the sequence of bases of DNA or RNA in a genome. Some mutations occur during replication of the genome due to errors made by the polymerase enzymes that replicate DNA or RNA. Unlike DNA polymerase, RNA polymerase is prone to errors because it is not capable of “proofreading” its work. Viruses with RNA-based genomes, like HIV, therefore accrue mutations faster than viruses with DNA-based genomes. Because mutation and recombination provide the raw material...
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Updated: Jan 13, 2026

Following the Dynamics of Structural Variants in Experimentally Evolved Populations
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エピ変異:進化の原材料?

Nabeel S Ganem1, Peter Sarkies2

  • 1Department of Biochemistry, University of Oxford, Oxford, UK.

The EMBO journal
|January 6, 2026
PubMed
まとめ
この要約は機械生成です。

エピジェネティック変化、またはエピ変異は、世代を超えて受け継がれる可能性がある。これらのエピ変異は、DNA変異と同様に、自然淘汰と遺伝的ドリフトに影響を与えることで進化に寄与する可能性がある。

キーワード:
クロマチンエピジェネティクス進化集団遺伝学小さな非コードRNA

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科学分野:

  • 進化生物学
  • エピジェネティクス
  • 遺伝学

背景:

  • エピジェネティクスは、DNA配列を変化させることなく遺伝子発現を調節することにより、細胞分化を制御する。
  • 世代を超えたエピジェネティック遺伝は、エピジェネティック情報が世代間で伝達されることを可能にする。
  • エピ変異、すなわちエピジェネティック変異は、DNA変異に類似しており、進化に影響を与える可能性がある。

研究 の 目的:

  • エピ変異の速度、分布、安定性、および効果を含む特性を評価すること。
  • ドリフトや自然淘汰などの進化プロセスにおけるエピ変異とDNA配列変異との比較分析を行うこと。
  • 特にC. elegansのような動物におけるエピ変異が進化的変化を駆動する可能性を探求すること。

主な方法:

  • エピ変異に関する既存の文献のレビューと分析。
  • エピ変異の特性とDNA変異の特性との比較分析。
  • 詳細な検査のために、特に線虫C. elegansのような動物モデルに焦点を当てる。

主要な成果:

  • エピ変異は、DNA変異と比較して、速度、ゲノム全体の分布、および安定性に関して異なる特性を示す。
  • エピ変異は、遺伝的ドリフトや自然淘汰などの進化力に影響を与える可能性がある。
  • エピ変異の安定性と遺伝性は、進化への影響の鍵となる要因である。

結論:

  • エピ変異は、進化に寄与する可能性のある遺伝可能な変異の重要な供給源を表す。
  • DNA配列変化を超えた進化メカニズムの包括的な視点には、エピ変異の理解が不可欠である。
  • 特にモデル生物におけるエピ変異ダイナミクスのさらなる研究は、進化におけるそれらの役割を明確にするだろう。