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2 cze 2021 · Cellular material displays various physical and mechanical properties that can strongly affect both intracellular and multicellular biological events. This review provides a summary of how cells, as matter, connect molecular biology to cellular and multicellular scale functions.
In this review, we introduce progress in characterizing and understanding living cells as a material. We also summarize recent progress in revealing the physiological functions of cellular material properties in the context of stem cells, cancer cells, and immune cells.
This review provides a summary of how cells, as matter, connect mo-lecular biology to cellular and multicellular scale functions. Within the areas of cell biology and molecular biology, we review recent progress in utilizing cellular material properties to direct cell-fate decisions in the communities of immune cells, neurons, stem cells, and ...
2 cze 2021 · Viewing cell as matter to understand the intracellular biomolecular processes and multicellular tissue behavior represents an emerging research area at the interface of physics and biology.
Cells grow and replicate their DNA, and then they divide. Learn the substages of this iterative pattern, called the cell cycle. How does a cell regulate these stages?
The most basic function of the cell cycle is to duplicate accurately the vast amount of DNA in the chromosomes and then segregate the copies precisely into two genetically identical daughter cells. These processes define the two major phases of the cell cycle.
The cell cycle has two major phases: interphase and the mitotic phase (Figure 6.3). During interphase, the cell grows and DNA is replicated. During the mitotic phase, the replicated DNA and cytoplasmic contents are separated and the cell divides. Watch this video about the cell cycle: https://openstax.org/l/biocellcyc.
