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Cell Differentiation through Tissue Elasticity-coupled Myosin-driven Remodeling

机译：通过组织弹性耦合肌球蛋白驱动的重塑进行细胞分化

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Cells may lack eyes to see and ears to hear, but cells do seem to have a sense of ‘touch’ that allows them to feel their microenvironment. This is achieved in part through contractility-coupled adhesion to physically flexible ‘soft’ tissue. Here we summarize some of the known variations in elasticity of solid tissue and review some of the long-term effects of cells ‘feeling’ this elasticity, focusing on differentiation processes of both committed cell types and stem cells. We then highlight what is known of molecular remodeling in cells under stress on short time scales. Key roles for forces generated by ubiquitous and essential myosin-II motors in feedback remodeling are emphasized throughout.

机译：细胞可能看不到眼睛，耳朵也听不到，但是细胞似乎确实具有一种“触摸”的感觉，可以让他们感觉到自己的微环境。这部分是通过收缩耦合到物理上柔软的“软”组织的粘附来实现的。在这里，我们总结了一些已知的实体组织弹性变化，并回顾了细胞“感受”这种弹性的一些长期影响，重点研究了定型细胞和干细胞的分化过程。然后，我们重点介绍了短时间内在压力下细胞中分子重塑的知识。贯穿整个过程，强调了无处不在的和基本的肌球蛋白II电机产生的力在反馈重塑中的关键作用。

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期刊名称 other
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Allison Zajac; Dennis E. Discher;
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年(卷),期 -1(20),6
年度 -1
页码 609–615
总页数 12
原文格式 PDF
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专利

1. Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling [J] . Zajac AL, Discher DE Current Opinion in Cell Biology . 2008,第6期

机译：通过组织弹性偶联，肌球蛋白驱动的重塑进行细胞分化
2. Cardiomyocyte dedifferentiation and remodeling in 3D scaffolds to generate the cellular diversity of engineering cardiac tissues [J] . Wang Changyong, Liu Wei, Shen Yuan, Biomaterials Science . 2019,第11期

机译：3D支架中的心肌细胞消除和重塑，产生工程心脏组织的细胞多样性
3. A novel micro-grooved collagen substrate for inducing vascular smooth muscle differentiation through cell tissue arrangement and nucleus remodeling [J] . Nagayama Kazuaki, Uchida Keiichi, Sato Akiko Journal of the mechanical behavior of biomedical materials . 2019,第期

机译：一种新型微沟胶原基质，用于通过细胞组织布置和细胞核重塑诱导血管平滑肌分化
4. Effect of Bone Remodeling Coupling Factors on Osteogenic Differentiation of Human Mesenchymal Stem Cells Induced by Microstructured Titanium Surfaces [C] . Jingyao Dene, D. Joshua Cohen, Zvi Schwartz, Society for Biomaterials annual meeting and exposition . 2019

机译：骨重塑耦合因子对微结构钛表面诱导人间充质干细胞成骨分化的影响
5. Tissue and Molecular Impact of Modeled Microgravity on Bone Remodeling and Analysis of Tissue Engineering on Bone Tissue and the Relationship of Fluid Movement in Modeled Microgravity on Adult Retinal Pigmented Epithelial Cells and Bone Cells. [D] . Mann, Vivek. 2017

机译：微重力对骨骼重塑的组织和分子影响以及对骨组织的组织工程分析以及微重力对成年视网膜色素上皮细胞和骨细胞的流体运动的关系。
6. Nestin(+) Tissue-Resident Multipotent Stem Cells Contribute to Tumor Progression by Differentiating into Pericytes and Smooth Muscle Cells Resulting in Blood Vessel Remodeling [O] . Diana Klein, Nicole Meissner, Veronika Kleff, 2014

机译：Nestin（+）组织驻留多能干细胞通过分化为周细胞和平滑肌细胞导致血管重塑而促进肿瘤进展
7. Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling [O] . Allison L Zajac, Dennis E Discher 2008

机译：细胞分化通过组织弹性偶联，肌苷驱动的重塑

Cell Differentiation through Tissue Elasticity-coupled Myosin-driven Remodeling

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