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相关概念视频

Gene Conversion02:08

Gene Conversion

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Other than maintaining genome stability via DNA repair, homologous recombination plays an important role in diversifying the genome. In fact, the recombination of sequences forms the molecular basis of genomic evolution. Random and non-random permutations of genomic sequences create a library of new amalgamated sequences. These newly formed genomes can determine the fitness and survival of cells. In bacteria, homologous and non-homologous types of recombination lead to the evolution of new...
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Overview
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Crossing Over01:30

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Crossing over is the exchange of genetic information between homologous chromosomes during prophase I of meiosis I. Genetic recombination gives rise to allelic diversity in the newly formed daughter cells. In humans, crossing over produces genetically distinct haploid egg and sperm cells that undergo fertilization to produce unique offspring. Before cell division starts, the germ cell’s chromosome(s) undergo duplication in the S phase of the cell cycle. As the cells enter prophase I,...
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The basic reaction of homologous recombination (HR) involves two chromatids that contain DNA sequences sharing a significant stretch of identity. One of these sequences uses a strand from another as a template to synthesize DNA in an enzyme-catalyzed reaction. The final product is a novel amalgamation of the two substrates. To ensure an accurate recombination of sequences, HR is restricted to the S and G2 phases of the cell cycle. At these stages, the DNA has been replicated already and the...
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Because the DNA segments are cut and reorganized in a direction-specific manner, site-specific recombination has emerged as an efficient genetic engineering technique. Flippase and Cyclization recombinases or Flp and Cre, respectively, are two members of the tyrosine recombinase family derived from bacteriophages, that are used to mediate site-specific DNA insertions, deletions, and targeted expression of proteins in mammalian cell lines.
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Rapid Analysis of Chromosome Aberrations in Mouse B Lymphocytes by PNA-FISH
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通过断点的基因型-表型相关性 用长读序列测序对基因组平衡复杂染色体重排的表征.

Frenny Sheth1, Jhanvi Shah1, Mamta Muranjan2

  • 1FRIGE Institute of Human Genetics, Ahmedabad, India.

American journal of medical genetics. Part A
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PubMed
概括

这项研究确定了迄今为止在患有发育障碍的儿童中最大的平衡复杂染色体重组 (CCR). 先进的基因组测序揭示了包括NLGN4X在内的基因破坏,这可能解释了智力障碍.

关键词:
在NLGN4X中使用.断点的表征 断点的表征染色体的产生是染色体的产生.染色体复杂性是一种染色体复杂性.复杂的染色体重新安排.在现场光混合化 (FISH)长阅读序列的测序这就是PacBio.整个基因组的测序.

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科学领域:

  • 遗传学 是一个遗传学.
  • 基因组学就是基因组学.
  • 分子生物学分子生物学

背景情况:

  • 平衡的复杂染色体重组 (CCR) 具有挑战性,但对于理解基因型-表型相关性至关重要.
  • 了解CCRs的分子基础对于诊断遗传疾病至关重要.

研究的目的:

  • 在患有智力障碍,发育迟缓和异形症的患者中,对罕见的,大型的和平衡的复杂染色体重组 (CCR) 进行分子特征.
  • 通过先进的基因组技术,研究这种CCR的功能后果.

主要方法:

  • 序列遗传评估包括型,光在位杂交 (FISH),染色体微阵列 (CMA) 和长读序列 (LRS).
  • 长读全基因组测序 (PacBio) 用于断点表征.
  • 对基因破坏,融合和位置效应的分析.

主要成果:

  • 鉴定了一种平衡的CCR,涉及8个染色体,最大的染色体生成报告.
  • 破坏了三个编码蛋白质的基因:NLGN4X,LAMA4和ALG6.
  • 观察到NLGN4X基因破坏与患者的智力障碍之间存在潜在的关联.

结论:

  • 先进的基因组技术与细胞遗传技术相结合,可以划分复杂的染色体重排.
  • 即使是平衡的CCR也可能具有显著的功能基因组后果,导致疾病表型.
  • 这项研究强调了详细的分子表征对于理解罕见遗传疾病的重要性.