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相关概念视频

Overview of DNA Repair02:25

Overview of DNA Repair

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In order to be passed through generations, genomic DNA must be undamaged and error-free. However, every day, DNA in a cell undergoes several thousand to a million damaging events by natural causes and external factors. Ionizing radiation such as UV rays, free radicals produced during cellular respiration, and hydrolytic damage from metabolic reactions can alter the structure of DNA. Damages caused include single-base alteration, base dimerization, chain breaks, and cross-linkage.
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Spontaneous and Induced Mutations01:30

Spontaneous and Induced Mutations

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Spontaneous mutations arise infrequently during DNA replication due to errors in the process. A key factor behind these errors is tautomeric shifts in nitrogenous bases, where bases transition from keto to enol forms or amino to imino forms. This shift can alter base-pairing rules, leading to mutations. Additionally, reactive oxygen species (ROS) arising from aerobic metabolism can damage DNA, resulting in depurination (loss of a purine base) or depyrimidination (loss of a pyrimidine base).
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Nucleotide Excision Repair01:38

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DNA Distortion and Damage
Cells are regularly exposed to mutagens—factors in the environment that can damage DNA and generate mutations. UV radiation is one of the most common mutagens and is estimated to introduce a significant number of changes in DNA. These include bends or kinks in the structure, which can block DNA replication or transcription. If these errors are not fixed, the damage can cause mutations, which in turn can result in cancer or disease depending on which sequences are...
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Mutations01:35

Mutations

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Mutations are changes in the sequence of DNA. These changes can occur spontaneously or they can be induced by exposure to environmental factors. Mutations can be characterized in a number of different ways: whether and how they alter the amino acid sequence of the protein, whether they occur over a small or large area of DNA, and whether they occur in somatic cells or germline cells.
Chromosomal Alterations Are Large-Scale Mutations
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Base Excision Repair01:54

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One of the common DNA damages is the chemical alteration of single bases by alkylation, oxidation, or deamination. The altered bases cause mispairing and strand breakage during replication. This type of damage causes minimal change to the DNA double helix structure and can be repaired by the base excision repair (BER) pathways. BER corrects damaged DNA sequences by removing the damaged base and restoring the original base sequence using the complementary strand as a template.
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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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微生物代谢物破坏DNA

Jens Puschhof1, Cynthia L Sears2,3

  • 1Microbiome and Cancer Division, German Cancer Research Center, Heidelberg, Germany.

Science (New York, N.Y.)
|October 27, 2022
PubMed
概括
此摘要是机器生成的。

一些以前未知的肠道细菌会产生各种损害宿主细胞的基因毒素. 这一发现突显出肠道微生物对细胞健康的新威胁.

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科学领域:

  • 微生物学
  • 遗传学
  • 毒理学

背景情况:

  • 肠道微生物群对宿主健康起着至关重要的作用.
  • 微生物代谢物可以影响宿主细胞的功能和完整性.
  • 基因毒素是破坏DNA的物质, 可能导致突变和疾病.

研究的目的:

  • 识别以前未知的能够产生基因毒素的肠道微生物种类.
  • 描述这些意想不到的微生物群成员产生的基因毒素类型.
  • 评估这些基因毒素对宿主细胞的潜在影响.

主要方法:

  • 基因组测序以确定微生物组成.
  • 培养物学是为了隔离和培养出意想不到的细菌物种.
  • 检测和识别基因毒素的质谱和生物化学测试.
  • 基于细胞的测试来评估宿主细胞的遗传毒性.

主要成果:

  • 在肠道微生物群中发现了几种以前未知产生基因毒素的细菌物种.
  • 这些意外的微生物产生了各种各样的基因毒素, 包括破坏DNA的化合物.
  • 暴露于这些微生物基因毒素导致宿主细胞显著的DNA损伤.

结论:

  • 肠道微生物群的产生基因毒素的细菌范围比以前更广.
  • 这些新发现的微生物遗传毒素是宿主细胞损伤和相关疾病的潜在危险因素.
  • 需要进一步研究以了解这些发现的体内相关性和影响.