Titlebook: Biologically Inspired Physics; L. Peliti Book 1991 Springer Science+Business Media New York 1991 Biomembran.Potential.blood cell.cells.mec

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書目名稱Biologically Inspired Physics影響因子(影響力)

書目名稱Biologically Inspired Physics影響因子(影響力)學(xué)科排名

書目名稱Biologically Inspired Physics網(wǎng)絡(luò)公開度

書目名稱Biologically Inspired Physics網(wǎng)絡(luò)公開度學(xué)科排名

書目名稱Biologically Inspired Physics被引頻次

書目名稱Biologically Inspired Physics被引頻次學(xué)科排名

書目名稱Biologically Inspired Physics年度引用

書目名稱Biologically Inspired Physics年度引用學(xué)科排名

書目名稱Biologically Inspired Physics讀者反饋

書目名稱Biologically Inspired Physics讀者反饋學(xué)科排名

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DNA Topologyles, which contain all the information on the structure of living organisms, consist of two polymer chains attached to one another by weak, noncovalent interactions. These chains form a double helix in which γo = 10 monomer links (base pairs) occur per turn. Actual DNAs contain from several thousand

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Correlation between Structural Conformations at Different Levels in Hemoglobin Determined by XANEShe dynamics of the biological molecules. Hemoglobin is studied here because it provides a good system to investigate fundamental aspects of biomolecules. In hemoglobin we can distinguish three levels of the protein organization 1) the quaternary structure of the tetramer, 2) the tertiary structure o

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Vesicle Shapes and Shape Transformations: A Systematic Studycell membranes. The most fascinating examples are the shape transitions and shape instabilities. It has been recognized long ago that shape transitions may be induced by changing the osmotic conditions or the temperature.. Apart from spherical and ellipsoidal shapes more exotic shapes such as e. g.

只看該作者 · 發(fā)表于 2025-3-23 00:41:15

Theoretical Analysis of Phospholipid Vesicles and Red Blood Cell Shapes and the Effect of External Ef a cell and its shape changes. As the inner solutions of red blood cells (RBC) and phospholipid vesicles (PV) do not involve any structure, the shapes of these objects depend solely on the physical and chemical state of their membranes. It is commonly believed that for a given membrane the shapes t

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Lipid Membrane Curvature Elasticity and Protein Functionteins and that this may be a rationale for the lipid compositions seen in cell membranes. Lipid monolayer curvature stress arises when lipids which are prone to exhibit nonlamellar mesomorphic phases are a large fraction of the lipids of bilayers. The stress builds as one approaches the boundry of a

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Observation of Surface Undulations on the Mesoscopic Length Scale by NMRhysicists using well established principles of condensed matter physics is the predominance of ultra-soft materials in the organization of natural condensed matter structures as compared with hard materials in man-made materials. An example is that the lipid bilayer component of the membranes of vir

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