Cremers A F, Fischer J C, Schilstra M J, Mellema J E
Ultramicroscopy. 1979;4(4):395-412. doi: 10.1016/s0304-3991(79)80017-0.
The structure of the contractile sheath of the defective phage from B. subtilis (PBS-Z) has been investigated by low-dose electron microscopy and image reconstruction. The extended and contracted sheath particles were imaged by means of two negative stains which consisted of uranyl- and phosphotungstate-containing solutions of a pH of 4.2 and 7.0 respectively. Images of identical parts of the same type of specimen were recorded at a total electron dose of 80 C/m2 (5 electrons/A2) and 4 x 10(3) C/m2 (250 electrons/A2). The low-dose reconstructions of the extended and contracted sheath structure in the two stains show good correspondence and made it possible to draw the following structural conclusions. The sheath protein in both types of structure has an elongated shape, and in both structures the long molecular axis lies in a plane perpendicular to the helical sheath axis. The orientation of the protein in the extended and contracted sheath is different; the long axes differ by about 35 degrees in orientation. The reconstructions did not permit conclusions about different conformational states of the protein in both structures. These data, together with the packing parameters of the protein subunits in the contractile sheath [1], form the complete structural analysis of this biological structure by electron microscopy. The radiation damage effects which have been monitored in analyzing image pairs to the full extent may be summarized as follows. (1) Diameters of the sheath structure increase, which indicate flattening. (2) There is no loss in resolution, and layerline altitudes of the Fourier-transformed images do not change. (3) Uranyl stain behaves differently compared to phosphotungstate. In both negative stains the structural noise level increases upon irradiation as follows from the increase in phase residuals of the digital layerline data. In uranyl-stained images also more aperiodic noise appears. (4) The Fourier amplitudes of the principal layerline maxima shift towards lower spatial frequencies; phases of corresponding maxima generally remain constant. This pattern is more pronounced in the extended sheath data; there is no rationale describing these positional shifts. Moreover, in the case of contracted sheath the amplitudes of Fourier components also change more in absolute value. Therefore the damage effects also seem to depend on the type of structure embedded in the stain. (5) In the reconstructed images these radiation effects create artificial stain-excluded volumes of a type and at a radius which depend on the stain and structure.
通过低剂量电子显微镜和图像重建技术,对来自枯草芽孢杆菌的缺陷噬菌体(PBS-Z)收缩鞘的结构进行了研究。分别用pH值为4.2和7.0的含铀酰和磷钨酸盐的两种负染剂对伸展和收缩状态的鞘颗粒进行成像。在总电子剂量为80 C/m²(5电子/Ų)和4×10³ C/m²(250电子/Ų)的条件下,记录了同一类型标本相同部分的图像。两种染剂中伸展和收缩鞘结构的低剂量重建结果显示出良好的一致性,从而得以得出以下结构结论。两种结构中的鞘蛋白均呈细长形,且在两种结构中,长分子轴均位于垂直于螺旋鞘轴的平面内。伸展鞘和收缩鞘中蛋白的取向不同;长轴的取向相差约35度。重建结果无法得出两种结构中蛋白不同构象状态的结论。这些数据,连同收缩鞘中蛋白亚基的堆积参数[1],构成了通过电子显微镜对这种生物结构的完整结构分析。在全面分析图像对时监测到的辐射损伤效应可总结如下。(1)鞘结构的直径增大,表明出现扁平化。(2)分辨率没有损失,傅里叶变换图像的层线高度不变。(3)铀酰染剂与磷钨酸盐的表现不同。在两种负染剂中,照射后结构噪声水平均因数字层线数据相位残差的增加而升高。在铀酰染色的图像中还出现了更多的非周期性噪声。(4)主要层线最大值的傅里叶振幅向较低空间频率移动;相应最大值的相位通常保持不变。这种模式在伸展鞘数据中更为明显;没有合理的解释来描述这些位置移动。此外,在收缩鞘的情况下,傅里叶分量的振幅在绝对值上变化也更大。因此,损伤效应似乎也取决于嵌入染剂中的结构类型。(5)在重建图像中,这些辐射效应产生了取决于染剂和结构的类型及半径的人工染剂排除体积。
