Ohsawa K, Dowe G H, Morris S J, Whittaker V P
Brain Res. 1979 Feb 9;161(3):447-57. doi: 10.1016/0006-8993(79)90674-7.
The lipid, protein, acetylcholine and ATP content of cholinergic synaptic vesicles isolated from the richly innervated electric organ of Torpedo marmorata and purified to constant composition has been determined. The number of vesicles present in the preparations has been estimated by quantitative electron microscopy and the mean composition of the vesicle deduced. The acetylcholine content of the purest preparations was considerably greater than that previously attained and reached a mean of 6.10 mmole/g of protein and 2.6 X 10(5) molecules/vesicle; the mean values, for all determinations, were 4.1 +/- S.E.M. 0.6 and 2.6 X 10(5) +/- S.E.M. 0.6 X 10(5) respectively. The lipid and protein content of the vesicle (about 140 and 80 ag/vesicle respectively) is relatively low, indicating a thin, lipid-rich membrane and a highly hydrated core of which not more than 1-2% can be occupied by protein. These findings are consistent with conclusions drawn from recent density determinations made at different osmotic pressures using penetrating and non-penetrating gradients.
已对从多斑电鳐神经高度密集的电器官中分离出来并纯化至成分恒定的胆碱能突触小泡的脂质、蛋白质、乙酰胆碱和ATP含量进行了测定。通过定量电子显微镜估算了制剂中存在的小泡数量,并推断出小泡的平均成分。最纯制剂的乙酰胆碱含量大大高于之前所达到的水平,平均达到6.10毫摩尔/克蛋白质和2.6×10⁵个分子/小泡;所有测定的平均值分别为4.1±标准误0.6和2.6×10⁵±标准误0.6×10⁵。小泡的脂质和蛋白质含量(分别约为140和80阿克/小泡)相对较低,表明其膜薄且富含脂质,以及高度水合的核心,其中蛋白质所占比例不超过1 - 2%。这些发现与最近使用渗透性和非渗透性梯度在不同渗透压下进行密度测定得出的结论一致。
