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The tissues in our bodies are remarkable materials for many reasons, not least of all because they have widely different functions on different lengthscales. The bulk of our tissues is made up of the extracellular matrix. On an atomic and nanoscopic lengthscale, the extracellular matrix provides a communication systems between the cells in the tissue; on a microscopic lengthscale, it provides the scaffold that supports those cells, i.e. provides a “home” for the tissue’s cells; and at the macroscopic lengthscale, the extracellular matrix is the material which forms the structures in our organs, our blood vessels, bones, tendons, intestines, etc. Understanding how all these functions can arise in a single material is not only essential for understanding the biology of tissues, it can give us clues on how to design new smart materials ourselves.
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论文共 129 篇作者统计合作学者相似作者
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biorxiv(2024)
Mary A. Chama, Godwin A. Dziwornu, Elizabeth Popli,Eduard Mas-Claret,Beverly Egyir,Daniel M. Ayine-Tora, Kofi B-A. Owusu,David G. Reid,Dorcas Osei-Safo,Melinda Duer,Dulcie Mulholland,Andreas Bender
Heliyonno. 7 (2023): e18299-e18299
bioRxiv (Cold Spring Harbor Laboratory) (2022)
Biophysical journalno. 16 (2022): 3023-3033
semanticscholar(2021)
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作者统计
#Papers: 129
#Citation: 4657
H-Index: 34
G-Index: 65
Sociability: 6
Diversity: 0
Activity: 1
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