超越孟德尔遗传:遗传缓冲和表现型变异。

IF 3.7 Q2 GENETICS & HEREDITY Phenomics (Cham, Switzerland) Pub Date : 2022-04-01 DOI:10.1007/s43657-021-00030-1
Andrea Rossi, Zacharias Kontarakis
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引用次数: 3

摘要

了解基因在个体之间和跨代之间形成形式和功能的方式是许多基因研究的共同主题。遗传学、基因组工程和DNA测序的最新进展强化了这样一种观念:基因并不是决定表型的唯一因素。由于基因表达的生理或病理波动,即使基因相同的细胞在相同的条件下也可能表现出不同的表型。在这里,我们讨论了影响甚至破坏基因型和表型之间轴的机制;修饰基因的作用,遗传冗余的一般概念,遗传补偿,最近描述的转录适应,环境压力源和表型可塑性。我们进一步强调了诱导多能干细胞(iPSCs)的使用,通过基因组工程产生等基因系,以及测序技术可以帮助从迄今为止被认为是“噪音”的东西中提取新的遗传和表观遗传机制。
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Beyond Mendelian Inheritance: Genetic Buffering and Phenotype Variability.

Understanding the way genes work amongst individuals and across generations to shape form and function is a common theme for many genetic studies. The recent advances in genetics, genome engineering and DNA sequencing reinforced the notion that genes are not the only players that determine a phenotype. Due to physiological or pathological fluctuations in gene expression, even genetically identical cells can behave and manifest different phenotypes under the same conditions. Here, we discuss mechanisms that can influence or even disrupt the axis between genotype and phenotype; the role of modifier genes, the general concept of genetic redundancy, genetic compensation, the recently described transcriptional adaptation, environmental stressors, and phenotypic plasticity. We furthermore highlight the usage of induced pluripotent stem cells (iPSCs), the generation of isogenic lines through genome engineering, and sequencing technologies can help extract new genetic and epigenetic mechanisms from what is hitherto considered 'noise'.

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