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相关概念视频

Genetic Variation01:25

Genetic Variation

256
Genetic variation is the diversity in DNA sequences found among individuals of the same species. This diversity is crucial for a species' survival because it helps organisms adapt to environmental changes. Genetic variation begins with fertilization, where an egg and sperm cell merge. Each of these cells carries 23 chromosomes, up to 46 in the fertilized egg. Chromosomes are long DNA strands that contain genes, the basic units of heredity.
Genes exist in different versions called alleles,...
256
Pleiotropy01:33

Pleiotropy

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Pleiotropy is the phenomenon in which a single gene impacts multiple, seemingly unrelated phenotypic traits. For example, defects in the SOX10 gene cause Waardenburg Syndrome Type 4, or WS4, which can cause defects in pigmentation, hearing impairments, and an absence of intestinal contractions necessary for elimination. This diversity of phenotypes results from the expression pattern of SOX10 in early embryonic and fetal development. SOX10 is found in neural crest cells that form melanocytes,...
39.4K
Hardy-Weinberg Principle01:49

Hardy-Weinberg Principle

71.5K
Diploid organisms have two alleles of each gene, one from each parent, in their somatic cells. Therefore, each individual contributes two alleles to the gene pool of the population. The gene pool of a population is the sum of every allele of all genes within that population and has some degree of variation. Genetic variation is typically expressed as a relative frequency, which is the percentage of the total population that has a given allele, genotype or phenotype.
71.5K
Genome-wide Association Studies-GWAS01:11

Genome-wide Association Studies-GWAS

12.3K
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...
12.3K
Mutations01:39

Mutations

78.2K
Overview
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Comparing Copy Number Variations and SNPs02:26

Comparing Copy Number Variations and SNPs

17.0K
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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Navigating MARRVEL, a Web-Based Tool that Integrates Human Genomics and Model Organism Genetics Information
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生殖系遗传变异分类需要更公平的参考数据库表示.

Shana Burstein1, Eva Spier2, Janki Patel1

  • 1Department of Pediatrics, Children's Hospital at Montefiore, Bronx, New York.

Pediatrics
|March 5, 2025
PubMed
概括
此摘要是机器生成的。

儿科患者的生殖系遗传测试可以识别未知意义的变异 (VUS). 对不同人群中VUS的进一步分析可以导致确定的诊断和改进的临床管理.

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Screening for Functional Non-coding Genetic Variants Using Electrophoretic Mobility Shift Assay EMSA and DNA-affinity Precipitation Assay DAPA
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Determining the Likelihood of Variant Pathogenicity Using Amino Acid-level Signal-to-Noise Analysis of Genetic Variation
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Screening for Functional Non-coding Genetic Variants Using Electrophoretic Mobility Shift Assay EMSA and DNA-affinity Precipitation Assay DAPA
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科学领域:

  • 遗传学 遗传学 是一个
  • 儿科血液瘤学
  • 基因组医学是基因组医学.

背景情况:

  • 生殖系遗传测试有助于诊断,但可以产生未知意义的变异 (VUS).
  • VUS使诊断复杂化,增加患者/家庭压力,并且在代表性不足的人群中更常见.
  • 基因组数据库往往缺乏多样性,影响了变体解释.

研究的目的:

  • 为了说明VUS和罕见变异如何影响儿科血液瘤学中的临床管理.
  • 突出在不同患者队列中进一步调查VUS的诊断效用.
  • 强调需要在基因组数据库中得到更广泛的代表性.

主要方法:

  • 7名来自不同城市环境的儿科血液瘤学患者的病例系列.
  • 对生殖系遗传测试结果的审查,包括VUS,新型和罕见变异.
  • 随着变种重新分类和进一步调查后的临床相关性和结果.

主要成果:

  • 鉴定VUS,新型或罕见的致病变体影响了临床管理.
  • 诊断包括·希佩尔-林道综合征,血细胞淋巴细胞瘤,非典型的血性尿素综合征,严重的综合免疫缺陷和Fanconi贫血.
  • 进一步的调查和变异的重新分类对于诊断至关重要.

结论:

  • 详细的病例分析可以提供有关VUS病原性的见解.
  • 将多样化的种群纳入基因组数据库对于准确的变体表征至关重要.
  • 解决医疗保健差异需要改善对代表性不足的群体的基因组数据.