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相关概念视频

Changes in the Appendicular Skeleton with Age01:09

Changes in the Appendicular Skeleton with Age

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The upper and lower limb initially develops as a small bulge called a limb bud, which appears on the lateral side of the early embryo. The upper limb bud appears near the end of the fourth week of development, with the lower limb bud appearing shortly after.
Initially, the limb buds consist of a core of mesenchyme covered by a layer of ectoderm. The ectoderm at the end of the limb bud thickens to form a narrow crest called the apical ectodermal ridge. This ridge stimulates the underlying...
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Overview of the Axial Skeleton01:09

Overview of the Axial Skeleton

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The skeleton is subdivided into two major divisions—the axial skeleton and the appendicular skeleton. The axial skeleton forms the vertical, central axis of the body. It includes all of the bones of the head, neck, chest, and back. It protects the brain, spinal cord, heart, and lungs. It also serves as the attachment site for muscles that move the head, neck, and back and for muscles that act across the shoulder and hip joints to move their corresponding limbs.
The axial skeleton of the...
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Introduction to the Skeletal System01:20

Introduction to the Skeletal System

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The skeletal system is the central framework of the body, consisting of different connective tissues: bones, cartilage, tendons, and ligaments.
Components of the Skeletal System
Bone, or osseous tissue, is a hard connective tissue that forms an internal support structure for the human body. Bones shield vulnerable organs and soft tissue from external forces. For example, the vertebral bones protect and support the spinal cord.
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Synteny and Evolution02:31

Synteny and Evolution

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John H. Renwick first coined the term “synteny” in 1971, which refers to the genes present on the same chromosomes, even if they are not genetically linked. The species with common ancestry tend to show conserved syntenic regions. Therefore, the concept of synteny is nowadays used to describe the evolutionary relationship between species.
Around 80 million years ago, the human and mice lineages diverged from the common ancestor. During the course of evolution, the ancestral...
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Carbon Skeletons01:12

Carbon Skeletons

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Life on Earth is carbon-based, as all macromolecules that make up living organisms contain carbon atoms. All organic compounds have a carbon backbone. Each carbon atom is tetravalent and can bond with four other atoms, making it an extraordinarily flexible component of biological molecules. Because carbon’s valence electrons are stable, it rarely becomes an ion. As the carbon chain increases in length, structural modifications such as ring structures, double bonds, and branching side...
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Bone Formation by Endochondral Ossification01:24

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Bone formation, or ossification, begins around the sixth to seventh week of embryonic development. Most bones develop from a cartilaginous template through the process of endochondral ossification. Cartilage formation begins when clusters of mesenchymal cells differentiate into chondrocytes. These chondrocytes proliferate rapidly and secrete an extracellular matrix that becomes encased in a membrane called the perichondrium. The resulting cartilage model provides a template that resembles the...
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Updated: Jul 27, 2025

Author Spotlight: Comparing Alveolar and Long Bone Remodeling to Explore OTM Model Potential
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一个多循环骨演变的路线图

Andre Sanchez1, Anjali Gurajapu1, Wentao Guo2

  • 1Department of Chemistry, University of California-Berkeley, 826 Latimer Hall, Berkeley, California 94720, United States.

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概括
此摘要是机器生成的。

研究人员开发了一种新型的变形碳系统, 这种可控的分子进化使得对新材料和新药的异构化学空间的探索成为可能.

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科学领域:

  • 有机化学
  • 超分子化学
  • 材料科学

背景情况:

  • 多环环系统是生物活性分子和有机材料中的关键3D结构图案.
  • 分子形状和同质性对多环化合物的功能和特性具有重要影响.
  • 合成特定的异构体通常需要开发不同的复杂合成路径.

研究的目的:

  • 开发一种新的动态",形状变化"碳系统,用于控制的同位素勘探.
  • 建立一个化学蓝图, 进化一个共同的骨架祖先到多样化的异构环系统.
  • 研究穿越空间的π轨道相互作用 (同) 在驱动异构化中的作用.

主要方法:

  • 开发一种新的C9化学型,表现出动态异构.
  • 使用光和有机基作为代化学转换的触发器.
  • 使用计算和光物理研究来分析异构体网络和反应机制.

主要成果:

  • 一个常见的骨祖先通过同类结合演变为一个复杂的价值异构体网络.
  • 该系统仅使用两个化学步骤来证明可控和连续的异构化.
  • 获得了对反应性,机制和同类结合性相互作用的基本见解.

结论:

  • 这项工作呈现了一种罕见的小分子,
  • 这些发现为新的动态,变形分子系统的合理设计提供了基础.
  • 这种方法为药物发现和材料科学合成多种同位素多循环提供了强大的工具.