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An Experimentally Validated Biophysical Model for Candida albicans Interactions with Nanofiber-Textured Surfaces

机译：实验验证的白色念珠菌与纳米纤维织构表面相互作用的生物物理模型。

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We have developed a biophysical model that predicts the overall geometry of a cell and its relative stable position with respect to nanofibers deposited on a smooth surface based on the cell's total free energy. When a cell interacted with a nanofiber-textured surface, it responded by adjusting its geometry and relative position to minimize free energy. By extension, our model can also predict the extent of biofilm formation on nanopatterned surfaces, as the surface design that yields the highest cell free energy is expected to yield the lowest cell attachment density. This biophysical model can be extended to other nanostructures and microorganisms for ab initio biomaterial design.

机译：我们已经开发了一种生物物理模型，可以基于细胞的总自由能预测细胞的整体几何形状以及相对于沉积在光滑表面上的纳米纤维的相对稳定位置。当细胞与具有纳米纤维纹理的表面相互作用时，它会通过调整其几何形状和相对位置以最小化自由能来做出响应。通过扩展，我们的模型还可以预测纳米图案表面上生物膜的形成程度，因为产生最高细胞自由能的表面设计有望产生最低的细胞附着密度。这种生物物理模型可以扩展到其他纳米结构和微生物，以进行从头开始的生物材料设计。

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《Annual meeting of the Adhesion Society》|2016年|114-118|共5页
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Zhou Ye; AhRam Kim; Amrinder Nain; Bahareh Behkam;
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1. Role of Glucosyltransferase B in Interactions of Candida albicans with Streptococcus mutans and with an Experimental Pellicle on Hydroxyapatite Surfaces [J] . S. Gregoire, J. Xiao, B. B. Silva, Applied and Environmental Microbiology . 2011,第18期

机译：葡糖基转移酶B在白色念珠菌与变形链球菌和羟基磷灰石表面实验菌丝相互作用中的作用
2. A recently evolved transcriptional repressor governs Candida albicans cell surface remodeling and determines the outcome of interactions with host immune cells [J] . Boehm L., Muralidhara P., Perez J. C. Mycoses: Diagnosis, therapy and prophylaxis of fungal diseases . 2015,第Suppla3期

机译：最近进化的转录阻遏物控制白色念珠菌细胞表面重塑并决定与宿主免疫细胞相互作用的结果
3. Mechanisms of Interaction between Candida albicans and Streptococcus wnutanst An experimental and mathematical modelling study [J] . MARIA I. BRUSCA, RAMIRO M. IRASTORZA, DIEGO I. CATTONI, Acta odontologica Scandinavica. . 2013,第1a4期

机译：白色念珠菌与wnutanst链球菌相互作用的机理实验与数学模型研究
4. An Experimentally Validated Biophysical Model for Candida albicans Interactions with Nanofiber-Textured Surfaces [C] . Zhou Ye, AhRam Kim, Amrinder Nain, Annual meeting of the Adhesion Society . 2016

机译：念珠菌与纳米纤维纹理表面相互作用的实验验证的生物物理模型
5. Informing Physics-Based Particle Deposition Models Using Novel Experimental Techniques to Evaluate Particle-Surface Interactions [D] . Whitaker, Steven Michael. 2017

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6. Role of Glucosyltransferase B in Interactions of Candida albicans with Streptococcus mutans and with an Experimental Pellicle on Hydroxyapatite Surfaces [O] . S. Gregoire, J. Xiao, B. B. Silva, 2011

机译：葡糖基转移酶B在白色念珠菌与变形链球菌和羟基磷灰石表面实验菌丝相互作用中的作用
7. Role of Glucosyltransferase B in Interactions of Candida albicans with Streptococcus mutans and with an Experimental Pellicle on Hydroxyapatite Surfaces [O] . Gregoire, S, Xiao, J, Silva, BB, 2015

机译：葡糖基转移酶B在白色念珠菌与变形链球菌和羟基磷灰石表面实验菌丝相互作用中的作用
8. Experimental Validation of a Lifting Surface Model for Rotor Wake-Stator Interaction [R] . Schulten, J. B. H. M. 1989

机译：转子唤醒 - 定子相互作用升力面模型的实验验证

An Experimentally Validated Biophysical Model for Candida albicans Interactions with Nanofiber-Textured Surfaces

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