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Related Concept Videos

Tissues01:25

Tissues

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Tissues are a group of cells that share a common embryonic origin. Microscopic observation reveals that the cells in a tissue share morphological features and are arranged in an orderly pattern to perform specific functions. From an evolutionary perspective, tissues appear in more complex organisms. Although there are many types of cells in the human body, they are organized into four broad categories of tissues: epithelial, connective, muscle, and nervous. Each of these categories is...
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Plants are multicellular eukaryotes with tissue systems made of various cell types that carry out specific functions. Different tissues work together to perform a unique function and form an organ. Organs working together form organ systems. Vascular plants have two distinct organ systems: a shoot system and a root system. The shoot system consists of two portions: the vegetative (non-reproductive) parts of the plant, such as the leaves and the stems, and the reproductive parts of the plant,...
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It is convenient to consider the body's structures in terms of fundamental levels of organization that increase in complexity: subatomic particles, atoms, molecules, organelles, cells, tissues, organs, organ systems, and organisms.
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Cadherins in Tissue Organization01:19

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The cadherins are a superfamily of cell adhesion molecules comprising over 180 variants, with specific tissues expressing a particular combination of cadherin types. Cadherins generally exhibit homophilic binding; i.e., cadherins on one cell bind to cadherins of the same or closely related type on another cell. Thus, cells of the same type have a specific affinity to bind to each other and sort themselves into clusters to form tissues.
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Updated: Oct 3, 2025

Tissue Engineering: Construction of a Multicellular 3D Scaffold for the Delivery of Layered Cell Sheets
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Tissue Schematics: A framework to decipher tissue architecture and assembly.

Manu Setty1

  • 1Basic Sciences Division and Translational Data Science IRC, Fred Hutchinson Cancer Research Center, Seattle, WA, USA.

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|February 17, 2022
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Summary
This summary is machine-generated.

High-parameter spatial proteomics enables the study of tissue assembly. Bhate et al. introduce "Tissue Schematics," a framework and computational method to understand the rules governing how tissues are built.

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Area of Science:

  • Cellular and Molecular Biology
  • Biophysics
  • Computational Biology

Background:

  • High-parameter spatial proteomics offers novel insights into tissue architecture.
  • Understanding tissue assembly rules is crucial for developmental biology and regenerative medicine.

Purpose of the Study:

  • To present a conceptual framework and computational approach for deciphering tissue assembly rules.
  • To enable the analysis of complex tissue architectures using spatial proteomics data.

Main Methods:

  • Development of the "Tissue Schematics" conceptual framework.
  • Application of computational methods to analyze high-parameter spatial proteomics data.

Main Results:

  • A novel framework for interpreting spatial proteomics data in the context of tissue assembly.
  • Demonstration of a computational approach to uncover the rules governing tissue organization.

Conclusions:

  • The "Tissue Schematics" framework provides a powerful tool for understanding tissue assembly.
  • This approach advances the analysis of spatial proteomics data for biological discovery.