人血清蛋白对生物材料吸附的研究

K Akagi
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摘要

在口腔种植材料与人血清蛋白相互作用的研究中,我们建立了一种简单的柱层析方法来测量生物材料对蛋白质的提取。该方法允许通过二维微电泳对吸收的蛋白质进行后续分析。本文描述了一种测量二维聚丙烯酰胺凝胶上染色蛋白的系统,该系统采用电视摄像机进行数据采集和微型计算机进行数据分析。可以看出,从羟基磷灰石柱洗脱的质量相似,在0.1 M磷酸盐下洗脱的蛋白质更多。1250℃和1400℃的羟基磷灰石陶瓷吸附较少的蛋白质,用0.01 M和0.1 M的磷酸盐溶液洗脱等量的蛋白质。0.1 M磷酸盐洗脱液随后进行双向电泳分析。从生物材料中洗脱的蛋白质吸附带估计为白蛋白,pl 4.7-4.9;transferin, pl5.9, IgG, pl5.8 -7.3。从文献中获得Pl,并与参比血清进行初步鉴定。每种生物材料的蛋白质模式都是可复制的。从未处理的羟基磷灰石中获得白蛋白、IgG和转铁蛋白。在1250℃和1450℃的羟基磷灰石陶瓷洗脱液中观察到不同的图案。大的斑点,初步确定为白蛋白和少量的IgG,是唯一的蛋白质。我们认为羟基磷灰石和羟基磷灰石陶瓷可以吸附人血清蛋白。在烧结温度的作用下,蛋白质会发生选择性吸附,使材料表面发生结构变化。
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[Study on adsorption of human serum protein to biomaterials].

In our study of the interaction between dental implant materials and human serum proteins, a simple column chromatographic method to measure extraction of proteins by the biomaterials was developed. The method allows for subsequent analysis of the absorped proteins by two dimensional microelectrophoresis. A system to measure dyestained proteins on two-dimensional polyacrylamide gels employing a television camera for data acquisition and a micro computer for data analysis is described. It can be seen that elution from the hydroxyapatite columns are qualitatively similar, more protein eluting at 0.1 M phosphate. Less protein was adsorbed by the 1,250 degrees C and 1,400 degrees C hydroxyapatite ceramics, and equal amounts were eluted with 0.01 M and 0.1 M phosphate solutions. The 0.1 M phosphate eluates were subsequently analyzed by two-dimensional electrophoresis. The proteins adsorbed band eluted from the biomaterials, are estimated to be albumin, pl 4.7-4.9; transferin, pl 5.9 and IgG, pl 5.8-7.3. pl's were obtained from literature and tentative identifications made by comparison with the patterns of reference serum. The protein pattern from each biomaterial was reproducible. Albumin, IgG and transferin were obtained from non-treated hydroxyapatite. Different patterns were observed with eluates of 1,250 degrees C and 1,450 degrees C hydroxyapatite ceramics. The large spot, tentatively identified as albumin and a small amount of IgG, were the only proteins seen. We conclude that hydroxyapatite and hydroxyapatite ceramics can adsorbed of human serum protein. Selective adsorption of protein may occur a structure change of the material surface activated by sintered temperature.

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