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相关概念视频

Single Nucleotide Polymorphisms-SNPs01:05

Single Nucleotide Polymorphisms-SNPs

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A single nucleotide polymorphism or SNP is a single nucleotide variation at a specific genomic position in a large population. It is the most prevalent type of sequence variation found in the human genome. Point mutations that occur in more than 1% of the population qualify as SNPs. These are present once every 1000 nucleotides on an average in the human genome. Replacement of a purine with another purine (A/G) or a pyrimidine with another pyrimidine (C/T) is known as a transition. In contrast,...
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Comparing Copy Number Variations and SNPs02:26

Comparing Copy Number Variations and SNPs

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Sequencing of the human genome has opened up several best-kept secrets of the genome. Scientists have identified thousands of genome variations that exist within a population. These variations can be a single nucleotide or a larger chromosomal variation.
Copy number variations or CNVs are the structural variations that cover more than 1kb of DNA sequence. The single nucleotide polymorphism (SNP), on the other hand, is a single nucleotide change or a point mutation that is found in more than 1%...
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Genome-wide Association Studies-GWAS01:11

Genome-wide Association Studies-GWAS

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Genome-wide association studies or GWAS are used to identify whether common SNPs are associated with certain diseases. Suppose specific SNPs are more frequently observed in individuals with a particular disease than those without the disease. In that case, those SNPs are said to be associated with the disease. Chi-square analysis is performed to check the probability of the allele likely to be associated with the disease.
GWAS does not require the identification of the target gene involved in...
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Mismatch Repair01:20

Mismatch Repair

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Organisms are capable of detecting and fixing nucleotide mismatches that occur during DNA replication. This sophisticated process requires identifying the new strand and replacing the erroneous bases with correct nucleotides. Mismatch repair is coordinated by many proteins in both prokaryotes and eukaryotes.
The Mutator Protein Family Plays a Key Role in DNA Mismatch Repair
The human genome has more than 3 billion base pairs of DNA per cell. Prior to cell division, that vast amount of genetic...
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相关实验视频

Updated: Jul 3, 2025

Oxygenation-sensitive Cardiac MRI with Vasoactive Breathing Maneuvers for the Non-invasive Assessment of Coronary Microvascular Dysfunction
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冠状动脉微血管功能障碍中的单核酸多态.

Andrew P Stein1, Jonathan Harder1, Henry R Holmes1

  • 1Department of Medicine University of Florida Gainesville FL USA.

Journal of the American Heart Association
|February 13, 2024
PubMed
概括
此摘要是机器生成的。

冠状动脉微血管功能障碍可能有遗传联系. 这篇评论探讨了与这种情况相关的单核酸多态性,并提供了对其潜在遗传基础的见解.

关键词:
冠状动脉微血管功能障碍单核酸多态性,遗传性多态性,单核酸多态性

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科学领域:

  • 心脏病学 心脏病学
  • 遗传学 是一个遗传学.
  • 病理学 病理学 病理学

背景情况:

  • 冠状动脉微血管功能障碍 (CMD) 是一种被诊断不足的疾病,与不良的临床结果有关.
  • 新出现的证据表明,一种潜在的遗传成分会影响CMD的发展.
  • 了解遗传因素对于推进CMD诊断和治疗至关重要.

研究的目的:

  • 为提供与冠状动脉微血管功能障碍相关的单核酸多态 (SNP) 的最新审查.
  • 综合当前关于CMD遗传基础的知识.
  • 突出基因变异在CMD病变发生过程中的作用.

主要方法:

  • 对调查遗传多态化和CMD的研究进行文献综述.
  • 对与冠状动脉微血管功能相关的单核酸多态性发表数据的分析.
  • 从遗传关联研究中得出的结合结果.

主要成果:

  • 在冠状动脉微血管功能障碍中涉及的特定单核酸多态的识别.
  • 潜在影响内皮功能和血管度的遗传变异的总结.
  • 对目前的CMD遗传情景的概述.

结论:

  • 遗传因素,特别是特定的SNP,可能在冠状动脉微血管功能障碍的易感性和表现方面发挥重要作用.
  • 进一步研究CMD的遗传决定因素是有必要的.
  • 基因洞察力可能会导致CMD的新型诊断和治疗策略.