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利用倒置显微镜研究电制备巨囊泡,并分析其形成和成长的动力学机理.由于磷脂头部的电特性,电场对水化的磷脂双层的静电力促使磷脂膜内双层之间分离.在动力学的作用下,双层两叶的不对称受力引发其弯曲、出芽、膨胀、封闭以及相互融合.结果表明,电场参数、干磷脂膜的均匀性、缓冲液以及温度等因素影响巨囊泡的粒径、形状和稳定性. 相似文献
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摘要:巨囊泡作为细胞的简化模型,其分相与出芽机理及动力学规律已引起许多领域科学家的关注。在富含胆固醇的典型生物膜体系如二棕榈酰磷脂酰胆碱DPPC(2-dihexadecanoyl-rac-glycero-3phosphocholine)/二油酰磷脂酰胆碱DOPC(dioleoyl-phosphatidylcholine)/胆固醇(Chol)的三组分形成的巨囊泡作为模型,从高温退火至低温会发生相分离,形成微畴。实验中借助荧光显微镜观察生物膜体系侧向分离的相结构图。实验发现,体系各组分的不同会影响磷脂膜的相结构和膜内微畴的成长,固定 DOPC/DPPC为1:1的前提下,微畴尺寸随着胆固醇参入量的增加而变大。最后运用理论进一步分析了微畴的成长机理。 相似文献
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利用倒置显微镜研究电制备巨囊泡, 并分析其形成和成长的动力学机理. 由于磷脂头部的电特性, 电场对水化的磷脂双层的静电力促使磷脂膜内双层之间分离. 在动力学的作用下, 双层两叶的不对称受力引发其弯曲、出芽、膨胀、封闭以及相互融合. 结果表明, 电场参数、干磷脂膜的均匀性、缓冲液以及温度等因素影响巨囊泡的粒径、形状和稳定性. 相似文献
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Luca Deseri Mario D. Piccioni Giuseppe Zurlo 《Continuum Mechanics and Thermodynamics》2008,20(5):255-273
A new free energy for thin biomembranes depending on chemical composition, degree of order and membranal-bending deformations
is derived in this paper. This is a result of constitutive and geometric assumptions at the three-dimensional level. The enforcement
of a new symmetry group introduced in (Deseri et al., in preparation) and a 3D--2D dimension reduction procedure are among
the ingredients of our methodology. Finally, the identification of the lower order term of the energy (i.e. the membranal
contribution) on the basis of a bottom-up approach is performed; this relies upon standard statistical mechanics calculations.
The main result is an expression of the biomembrane free energy density, whose local and non-local counterparts are weighted
by different powers of the bilayer thickness. The resulting energy exhibits three striking aspects:
L. Deseri gratefully acknowledges the support received by (i) the Cofin-PRIN 2005-MIUR Italian Grant Mathematical and numerical modelling and experimental investigations for advanced problems in continuum and structural mechanics, (ii) the Department of Theoretical and Applied Mechanics at Cornell University and (iii) the Center for Non-linear Analysis
under the National Science Foundation Grant No. DMS 0635983 and the Department of Mathematical Sciences, Carnegie-Mellon University. 相似文献
| (i) | the local (purely membranal) energy counterpart turns out to be completely determined through the bottom-up approach mentioned above, which is based on experimentally available information on the nature of the constituents; |
| (ii) | the non-local energy terms, that spontaneously arise from the 3D--2D dimension reduction procedure, account for both bending and non-local membranal effects; |
| (iii) | the non-local energy contributions turn out to be uniquely determined by the knowledge of the membranal energy term, which in essence represents the only needed constitutive information of the model. It is worth noting that the coupling among the fields appearing as independent variables of the model is not heuristically forced, but it is rather consistently delivered through the adopted procedure. |
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巨囊泡作为细胞的简化模型,其相分离与出芽动力学规律已引起许多领域科学家的关注.本实验采用DPPC/DOPC/Chol的三组分形成的巨囊泡作为模型,借助荧光显微镜观察该三组分体系侧向分离的相结构图,并对微畴的成长过程作了系统的观察研究和理论分析.实验发现:从高温的均相区域淬灭到低温的分相区域,膜表面发生侧向分离形成微畴.体系内胆固醇的掺入量的多少会影响磷脂膜的相结构和膜内微畴的成长,固定DOPC/DPPC为1:1的前提下,微畴尺寸随着胆固醇掺入量的增加而变大. 相似文献
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The bottom-up construction of self-powered artificial cells is significant to understand the energy supply and metabolism of nature cells. Here, we demonstrate an efficient manner to build thylakoid-containing artificial cells, which continuously convert light energy into chemical energy to supply adenosine 5’-triphosphate (ATP) under light illumination. The production of ATP supplies energy to promote the biological enzyme cascade reactions, where glucose is transformed into glucose 6-phosphate (G6P) under the catalysis of hexokinase (HK). G6P was further converted to gluconolactone 6-phosphate (PG) in the presence of 6-phosphate dehydrogenase (G6PDH), meanwhile NADP+ was converted to nicotinamide adenine dinucleotide phosphate (NADPH). The self-powered artificial cells were demonstrated to generate ATP and NADPH successively, which provided a way for building more complicated artificial cells. 相似文献
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