将横纹肌的光衍射解释为收缩蛋白晶格对光的布拉格反射。
Interpretation of light diffraction by cross-striated muscle as Bragg reflexion of light by the lattice of contractile proteins.
作者信息
Rüdel R, Zite-Ferenczy F
出版信息
J Physiol. 1979 May;290(2):317-30. doi: 10.1113/jphysiol.1979.sp012773.
Abstract
- The diffraction spectrum obtained by illuminating a cross-striated muscle fibre with a narrow beam of monochromatic light generally shows asymmetry of light intensity between left and right spectral lines. 2. The asymmetry of light intensity in left and right spectral lines is reversed when the fibre is rotated by 180 degrees. This indicates that intensities of the spectral lines are determined more by Bragg reflexion than by simple diffraction as in a plane grating. Populations of myofibrils with differing tilt of lattice planes must exist in each illuminated fibre segment to account for simultaneous Bragg reflexion to the left- and right-hand sides. 3. The light intensity of spectral lines shows a complicated dependence on the angle at which the incident beam is directed against the fibre. This 'intensity distribution' seems to reflect the specific myofibrillar arrangement at the site of illumination. 4. The intensity distributions of the left and right first order lines show close correlation if the deflexion of the incident beam differs by twice the Bragg angle. 5. The deflexion angle of the incident beam at which maximum intensity in spectral lines is obtained depends on sarcomere length as predicted by Bragg's formula. 6. Intensities of the first and second order lines are little correlated when recorded at the same beam deflexion, but are well correlated when recorded at beam deflexions calculated from Bragg's formula. 7. When a diffraction line is scanned perpendicularly to the meridional plane, the light intensity shows fluctuations resembling those obtained by beam deflexion within the meridional plane.
摘要
- 用一束窄的单色光照射横纹肌纤维所获得的衍射光谱,通常显示左右光谱线之间光强度的不对称性。2. 当纤维旋转180度时,左右光谱线光强度的不对称性会反转。这表明光谱线的强度更多地由布拉格反射决定,而不是像平面光栅那样由简单衍射决定。为了解释同时向左右两侧的布拉格反射,每个被照射的纤维段中必须存在晶格平面倾斜度不同的肌原纤维群体。3. 光谱线的光强度显示出对入射光束指向纤维的角度的复杂依赖性。这种“强度分布”似乎反映了照射部位特定的肌原纤维排列。4. 如果入射光束的偏转角相差两倍布拉格角,则左右一阶线的强度分布显示出密切的相关性。5. 获得光谱线最大强度时入射光束的偏转角取决于布拉格公式所预测的肌节长度。6. 在相同的光束偏转角下记录时,一阶和二阶线的强度相关性很小,但在根据布拉格公式计算的光束偏转角下记录时,它们的相关性很好。7. 当一条衍射线垂直于子午面扫描时,光强度显示出类似于在子午面内通过光束偏转获得的波动。
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