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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).
63.4K
lncRNA - Long Non-coding RNAs02:39

lncRNA - Long Non-coding RNAs

9.8K
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...
9.8K
What is Genetic Engineering?00:49

What is Genetic Engineering?

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Overview
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Genetics of Speciation02:16

Genetics of Speciation

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Speciation is the evolutionary process resulting in the formation of new, distinct species—groups of reproductively isolated populations.
21.0K
What is Population Genetics?01:25

What is Population Genetics?

64.5K
A population is composed of members of the same species that simultaneously live and interact in the same area. When individuals in a population breed, they pass down their genes to their offspring. Many of these genes are polymorphic, meaning that they occur in multiple variants. Such variations of a gene are referred to as alleles. The collective set of all the alleles within a population is known as the gene pool.
64.5K
Animal Mitochondrial Genetics02:59

Animal Mitochondrial Genetics

9.0K
Among all the organelles in an animal cell, only mitochondria have their own independent genomes. Animal mitochondrial DNA is a double-stranded, closed-circular molecule with around 20,000 base pairs. Mitochondrial DNA is unique in that one of its two strands, the heavy, or H, -strand is guanine rich, whereas the complementary strand is cytosine rich and called the light, or L, -strand. Compared to nuclear DNA, mitochondrial DNA has a very low percentage of non-coding regions and is marked by...
9.0K

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相关实验视频

Updated: Jan 25, 2026

An Allele-specific Gene Expression Assay to Test the Functional Basis of Genetic Associations
10:17

An Allele-specific Gene Expression Assay to Test the Functional Basis of Genetic Associations

Published on: November 3, 2010

23.3K

基因共享已经稳定了遗传密码.

Peder Worning1, Rodrigo Ibarra-Chávez2

  • 1Department of Clinical Microbiology, Copenhagen University Hospital, Hvidovre, Denmark; Centre for Evolutionary Hologenomics, Globe Institute, University of Copenhagen, Copenhagen, Denmark.

Trends in genetics : TIG
|January 23, 2026
PubMed
概括

遗传代码就是我们的遗传代码.

科学领域:

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

背景情况:

  • 遗传密码几乎是普遍的,但存在27种变异,主要在真核生物中.
  • 标准代码的 Prokaryotic 保存是很少理解的.
  • 研究表明,遗传密码比以前认为的更灵活.

研究的目的:

  • 为了研究维护 prokaryotes 中标准遗传密码的进化力量.
  • 探索横向基因转移 (HGT) 在遗传密码保护中的作用.

主要方法:

  • 对比基因组学分析.比较基因组学分析.
  • 综合重编码研究的审查.
  • 进化动态的理论建模.

主要成果:

  • 横向基因转移 (HGT) 促进 prokaryotes 中的翻译兼容性和代码统一性.
  • 由于繁殖和细分,真核生物的遗传隔离允许代码分歧.
  • 移动遗传元素只会导致局部解码中断,而不是广泛的变化.

结论:

  • 几乎普遍的遗传密码不是历史上的意外,而是微生物HGT的新兴属性.

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  • Prokaryotic 的连接性驱动代码的保存,与真核生物的分歧形成鲜明对比.
  • HGT作为稳定遗传密码的进化力量.