Tripartite sporopollenin microcapsules prepared from pine pollen (Pinus sylvestris L. and Pinus nigra Arnold) were analysed with respect to the permeability of the different strata of the exine which surround the gametophyte and form the sacci. The sexine at the surface of the sacci is highly permeable for polymer molecules and latex particles with a diameter of up to 200 nm, whereas the nexine covering the gametophyte is impermeable for dextran molecules, with a Stokes’ radius ≥4 nm (Dextran T 70), and for the tetravalent anionic dye Evans Blue (Stokes’ radius = 1·3 nm). The central capsules obtained by dissolution of the sporoplasts showed strictly membrane‐controlled exchange of non‐electrolytes, with half‐equilibration times in the range of minutes (monosaccharides, oligosaccharides) to hours (dextran molecules with Stokes’ radii up to 2·5 nm). The dependence of the permeability coefficients of the nexine for non‐electrolytes on Stokes’ radius or molecular weight shows that the aqueous pores through the nexine are inhomogeneous with respect to their size, and that most pores are too narrow for free diffusion of sugar molecules. To explain the barrier function of the nexine for Evans Blue, it is assumed that at least the larger pores, which enable slow permeation of dextran molecules, contain negative charges.
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机译:分析了由松花粉(Pinus sylvestris L.和Pinus nigra Arnold)制得的三方孢粉微胶囊的包围盖在配子体上并形成囊的外层不同层的渗透性。包囊表面的六丁胺对于直径高达200 nm的聚合物分子和乳胶颗粒具有很高的渗透性,而覆盖配子体的nexine对dextran分子则不能渗透,斯托克斯半径≥4nm(Dextran T 70 ),四价阴离子染料伊文思蓝(斯托克斯半径= 1·3 nm)。通过孢子体的溶解获得的中央胶囊显示出严格的膜控制性非电解质交换,半平衡时间在数分钟(单糖,寡糖)至数小时(斯托克斯半径高达2·5 nm的右旋糖酐分子)范围内)。非电解质的萘的渗透系数与斯托克斯半径或分子量的相关性表明,通过萘的水孔的大小不均匀,并且大多数孔太窄而不能使糖分子自由扩散。为了解释奈辛对伊文思蓝的屏障功能,假定至少能够使葡聚糖分子缓慢渗透的较大孔含有负电荷。
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