Marciani D J, Papamatheakis J D
J Virol. 1978 Jun;26(3):825-7. doi: 10.1128/JVI.26.3.825-827.1978.
The sodium dodecyl sulfate (SDS) complex of the major glycoprotein of avian myeloblastosis virus exhibited an anomalously low free electrophoretic mobility compared with those of non-glycosylated protein standards. The apparent molecular weight of the glycoprotein calculated from the relation between log molecular weight and electrophoretic mobility depended on the acrylamide concentration and reached a lower limit of 80,000. The molecular weight was also estimated from the retardation coefficients of protein standards and the viral glycoprotein. This method yielded a molecular weight of 64,000 for the avian myeloblastosis virus glycoprotein. When gel chromatography in SDS was used to determine the apparent molecular weight of the glycoprotein from its hydrodynamic properties alone, the estimated value was 50,000. The generally assigned value of 80,000 daltons for the avian myeloblastosis virus major glycoprotein, as determined by SDS electrophoresis, may be an overestimate due to its relatively low free electrophoretic mobility and peculiar conformation in SDS.
与非糖基化蛋白质标准品相比,禽成髓细胞瘤病毒主要糖蛋白的十二烷基硫酸钠(SDS)复合物表现出异常低的自由电泳迁移率。根据对数分子量与电泳迁移率之间的关系计算出的糖蛋白表观分子量取决于丙烯酰胺浓度,下限为80,000。还通过蛋白质标准品和病毒糖蛋白的阻滞系数估算分子量。此方法得出禽成髓细胞瘤病毒糖蛋白的分子量为64,000。当仅利用SDS中的凝胶色谱法根据其流体力学性质测定糖蛋白的表观分子量时,估算值为50,000。通过SDS电泳测定的禽成髓细胞瘤病毒主要糖蛋白通常指定的80,000道尔顿的值,可能由于其在SDS中相对较低的自由电泳迁移率和特殊构象而被高估。