Defining Single Molecular Forces Required to Activate Integrin and Notch Signaling

Xuefeng Wang; Taekjip Ha

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Defining Single Molecular Forces Required to Activate Integrin and Notch Signaling

机译：定义激活整合素和Notch信号所需的单分子力

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Cell-cell and cell-matrix mechanical interactions through membrane receptors direct a wide range of cellular functions and orchestrate the development of multicellular organisms. To define the single molecular forces required to activate signaling through a ligand-receptor bond, we developed the tension gauge tether (TGT) approach in which the ligand is immobilized to a surface through a rupturable tether before receptor engagement. TGT serves as an autonomous gauge to restrict the receptor-ligand tension. Using a range of tethers with tunable tension tolerances, we show that cells apply a universal peak tension of about 40 piconewtons (pN) to single integrin-ligand bonds during initial adhesion. We find that less than 12 pN is required to activate Notch receptors. TGT can also provide a defined molecular mechanical cue to regulate cellular functions.

机译：通过膜受体的细胞-细胞和细胞-基质机械相互作用指导广泛的细胞功能，并协调多细胞生物的发展。为了定义激活通过配体-受体键的信号传递所需要的单个分子力，我们开发了张力计系链（TGT）方法，其中配体在受体参与之前通过可断裂的系链固定在表面上。 TGT用作限制受体-配体张力的自主量规。使用一系列具有可调张力公差的系链，我们显示细胞在初始粘附过程中向单个整联蛋白-配体键施加了约40皮牛顿（pN）的通用峰值张力。我们发现激活Notch受体需要少于12 pN。 TGT还可以提供确定的分子力学提示来调节细胞功能。

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《Science》 |2013年第6135期|991-994|共4页
作者
Xuefeng Wang; Taekjip Ha;
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作者单位

Department of Physics, Center for the Physics of Living CellsD and Institute for Genomic Biology University of Illinois at Urbana-Champaign, Urbana, IL 61801, USA;

Department of Physics, Center for the Physics of Living CellsD and Institute for Genomic Biology University of Illinois at Urbana-Champaign, Urbana, IL 61801, USA,Howard Hughes Medical Institute, Urbana, IL 61801, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
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1. Defining Single Molecular Forces Required for Notch Activation Using Nano Yoyo [J] . Chowdhury Farhan, Li Isaac T. S., Ngo Thuy T. M., Nano letters . 2016,第6期

机译：使用纳米Yoyo定义缺口激活所需的单分子力
2. Responses of Neutrophils to Anti-Integrin Antibodies Depends on Costimulation through Low Affinity FcyRs:Full Activation Requires Both Integrin and Nonintegrin Signals [J] . Zoltan Jakus, Giorgio Berton, Erzsebet Ligeti, The Journal of Immunology: Official Journal of the American Association of Immunologists . 2004,第3期

机译：中性粒细胞对抗整合素抗体的反应取决于通过低亲和力FcγRs的共刺激：完全激活需要整合素和非整合素信号
3. Responses of Neutrophils to Anti-Integrin Antibodies Depends on Costimulation through Low Affinity FcγRs: Full Activation Requires Both Integrin and Nonintegrin Signals [J] . Zoltán Jakus, Giorgio Berton, Erzsébet Ligeti, The journal of immunology . 2004,第3期

机译：中性粒细胞对抗整合素抗体的反应取决于通过低亲和力FcγR的共刺激：完全激活需要整合素和非整合素信号
4. Differential Macrophage Activation Due to Biomaterial Topography Requires the B2-Integrin Signaling Pathway [C] . A. M. B. Collie, P. C. S. Bota, P. S. Stayton Society for Biomaterials Transaction Annual Meeting vol.29 pt.1; 20060426-29; Pittsburgh,PA(US) . 2006

机译：由于生物材料的地形而不同的巨噬细胞活化需要B2-整合素信号通路。
5. Notch signalling is required for neural stem cell maintenance. [D] . Alexson, Tania Oresta. 2004

机译：Notch信号是神经干细胞维持所必需的。
6. Defining Single Molecular Forces Required to Activate Integrin and Notch Signaling [O] . Xuefeng Wang, Taekjip Ha -1

机译：定义激活整合素和Notch信号所需的单分子力
7. Defining Single Molecular Forces Required to Activate Integrin and Notch Signaling [O] . X. Wang, T. Ha 2013

机译：定义激活整合曲线和缺口信号传导所需的单一分子力

Defining Single Molecular Forces Required to Activate Integrin and Notch Signaling

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