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相关概念视频

Background and Environment Affect Phenotype02:27

Background and Environment Affect Phenotype

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Although the genetic makeup of an organism plays a major role in determining the phenotype, there are also several environmental factors, such as temperature, oxygen availability, presence of mutagens, that can alter an organism’s phenotype.
An example of how genetic background affects phenotype can be seen in horses. The Extension gene in horses is responsible for their coat color. A wild-type gene (EE) produces black pigment in the coat, while a mutant gene (ee) produces red pigment. A...
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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,...
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Dihybrid Crosses01:18

Dihybrid Crosses

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Overview
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Epistasis01:39

Epistasis

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In addition to multiple alleles at the same locus influencing traits, numerous genes or alleles at different locations may interact and influence phenotypes in a phenomenon called epistasis. For example, rabbit fur can be black or brown depending on whether the animal is homozygous dominant or heterozygous at a TYRP1 locus. However, if the rabbit is also homozygous recessive at a locus on the tyrosinase gene (TYR), it will have an unshaded coat that appears white, regardless of its TYRP1...
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Position-effect Variegation02:32

Position-effect Variegation

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In 1928, a German botanist Emil Heitz observed the moss nuclei with a DNA binding dye. He observed that while some chromatin regions decondense and spread out in the interphase nucleus, others do not. He termed them euchromatin and heterochromatin, respectively. He proposed that the heterochromatin regions reflect a functionally inactive state of the genome. It was later confirmed that heterochromatin is transcriptionally repressed, and euchromatin is transcriptionally active chromatin.
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Epistasis Analysis01:09

Epistasis Analysis

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Although Mendel chose seven unrelated traits in peas to study gene segregation, most traits involve multiple gene interactions that create a spectrum of phenotypes. When the interaction of various genes or alleles at different locations influences a phenotype, this is called epistasis. Epistasis often involves one gene masking or interfering with the expression of another (antagonistic epistasis). Epistasis often occurs when different genes are part of the same biochemical pathway. The...
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New annotations for three pea aphid genome assemblies allow comparative analyses of duplication and gene family evolution.

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A chromatin accessibility map of pea aphid brain and embryo identifies tissue-specific regulatory elements.

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Identification of Critical Conditions for Immunostaining in the Pea Aphid Embryos: Increasing Tissue Permeability and Decreasing Background Staining
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豆翅膀可塑性变异具有多基因的基础.

Rose M H Driscoll1, Xiaomi Liu1, Julia McDonough1

  • 1Department of Biology, University of Rochester, 14627 USA.

The Journal of heredity
|February 4, 2025
PubMed
概括

遗传变异影响了豆虫的表型可塑性,影响了对环境拥挤反应的翅膀发育. 这项研究确定了一种候选基因,黄色-h,有助于这种适应性特征变异.

科学领域:

  • 进化生物学 进化生物学
  • 遗传学 是一个遗传学.
  • 生态生态学 生态生态学

背景情况:

  • 表型可塑性允许基因型根据环境线索产生各种表型.
  • 了解塑性变化的遗传基础对于预测人口对环境变化的反应至关重要,例如气候变化.
  • 豆 (Acyrthosiphon pisum) 具有翅膀的可塑性,根据种群密度产生无翼 (繁殖) 或有翅膀 (分散) 的形式.

研究的目的:

  • 为了研究 pea aphids 翅膀可塑性变化的遗传基础.
  • 为了识别特定的遗传基因位置和候选基因与倾向发展翅膀的倾向,以应对拥挤.

主要方法:

  • 交叉不同的豆线,不同于可塑性 (低与高).
  • 分析了逆交后代的可塑性变化 (F1 x低父).
  • 利用转录概况来识别候选基因.

主要成果:

  • 豆种系之间的可塑性差异具有重要的遗传基础.
  • 多个遗传位点可能有助于观察到的翅膀可塑性的变化.
  • 候选基因yellow-h在与可塑性变异相关的基因组区域内被确定.

结论:

关键词:
基因交叉基因交叉基因交叉基因遗传变异是一种遗传变异.现型性可塑性 现型性可塑性多现象主义多现象主义.

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  • 这项研究为生态显著特征的表型可塑性遗传基础提供了新的见解.
  • 这些发现强调了研究可塑性的遗传变异对于理解适应环境挑战的重要性.