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相关概念视频

Morphogenesis02:19

Morphogenesis

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Plant morphogenesis—the development of a plant’s form and structure—involves several overlapping developmental processes, including growth and cell differentiation. Precursor cells differentiate into specific cell types, which are organized into the tissues and organ systems that make up the functional plant.
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Seed Structure and Early Development of the Sporophyte02:33

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Seed structures are composed of a protective seed coat surrounding a plant embryo, and a food store for the developing embryo. The embryo contains the precursor tissues for leaves, stem, and roots. The endosperm and cotyledons—seed leaves—act as the food reserves for the growing embryo.
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Trihybrid Crosses02:27

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Trihybrid Crosses
Some of Mendel’s crosses examined three pairs of contrasting characteristics. Such a cross is called a trihybrid cross. A trihybrid cross is a combination of three individual monohybrid crosses. For example, plant height (tall vs. short), seed shape (round vs. wrinkled), and seed color (yellow vs. green).
The F1 generation plants of a trihybrid cross are heterozygous for all three traits and produce eight gametes. Upon self-fertilization, these gametes have an equal...
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Monohybrid Crosses01:20

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Primary and Secondary Growth in Roots and Shoots03:02

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Vascular plants, which account for over 90% of the Earth’s vegetation, all undergo primary growth—which lengthens roots and shoots. Many land plants, notably woody plants, also undergo secondary growth—which thickens roots and shoots.
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Pleiotropy01:33

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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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相关实验视频

Updated: Jun 12, 2025

Chicken Recombinant Limbs Assay to Understand Morphogenesis, Patterning, and Early Steps in Cell Differentiation
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植物发育的奇特之处

Carlo M Pozzi1, Vittoria F Brambilla1, Angelo Gaiti1

  • 1Department of Agricultural and Environmental Sciences, University of Milan, Via Celoria 2, 20133, Milan, Italy.

Planta
|September 24, 2024
PubMed
概括
此摘要是机器生成的。

没有发芽的植物 (SAM) 由于发育基因的重新连接,形成独特的身体形状. 环境和进化因素推动了这种损失,影响了植物形态和繁殖策略.

关键词:
波普兰是巴普兰的设计.进化适应是一种进化适应.植物聚合物植物聚合物植物开发 植物开发萨姆·萨姆·萨姆·萨姆是什么意思

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科学领域:

  • 植物发育生物学植物发育生物学
  • 进化发育生物学 进化发育生物学
  • 遗传学 是一个遗传学.

背景情况:

  • 发芽状干系 (SAM) 对于植物生长和发育至关重要.
  • 一些植物家族,包括Podostemaceae,Lemnaceae和Gesneriaceae,表现出缺席或改变的SAM.
  • 这些植物表现出独特的形态和替代的繁殖策略.

研究的目的:

  • 在缺乏典型SAM的家庭中探索植物体的发育.
  • 研究这些植物的替代发育和繁殖策略.
  • 检查与SAM形成和功能相关的基因表达模式.

主要方法:

  • 在选定的家族中对植物发育的文献综述.
  • 对替代生殖结构 (,叶片,改造的叶片) 的分析.
  • 对SAM相关基因的基因表达研究的审查.

主要成果:

  • 缺乏SAM的植物发展出独特的身体形状.
  • 替代生殖方法绕过了对SAM的需求.
  • 参与SAM形成的基因在异常位置表达,这表明发育网络重新连接.

结论:

  • SAM的损失或减少是由环境压力和进化约束驱动的.
  • 发育基因的重新连接导致了独特的植物形态.
  • 需要进一步的研究,包括下一代测序,以了解遗传适应和环境影响.