Microdensitometry。

L. Bitensky
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引用次数: 22

摘要

微密度测定法,或微分光光度测定法,是在显微镜下确定的区域测量发色团的浓度或质量,并受公认的物理定律支配。最初,它被证明在分离细胞的单个细胞核中DNA的相对量的费尔根细胞光度法中有价值。它现已广泛应用于通过化学计量显色反应来测量细胞生化活性。其中一些测量的有效性已被比较生化和微密度测定法证实。因此,微密度测定,即使是分布不均的发色团,也可以是精确的,只要该技术在操作时适当考虑到其在物理定律中的局限性。潜在的误差包括:组织切片厚度的变化(路径长度);散射;眩光;衍射;光被光学致密粒子遮挡;以及非均匀性误差。然而,在细胞化学反应和操作微密度计的正确条件下,这些潜在的误差变得很小或可以忽略不计。因此,高灵敏度的促甲状腺素细胞化学生物测定是通过控制微密度测定法可以达到的精度的例证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microdensitometry.
Microdensitometry, or microspectrophotometry, is the measurement of the concentration or mass of a chromophore in microscopically defined regions, and is governed by well-established laws of physics. Initially it proved of value in Feulgen cytophotometry of the relative amounts of DNA in individual nuclei of isolated cells. It has now achieved wide applicability to the measurement of cellular biochemical activity by means of stoichiometric chromogenic reactions. The validity of some of these measurements has been confirmed by comparative biochemical and microdensitometric assays. Thus microdensitometry, even of heterogeneously distributed chromophores, can be precise, provided that the technique is operated with due regard to its limitations within the laws of physics. The potential errors include: variation in thickness of tissue sections (path-length); scatter; glare; diffraction; occlusion of light by optically dense particles; and the inhomogeneity error. However, under correct conditions for the cytochemical reactions and for operating the microdensitometer, these potential errors become small or negligible. Thus the highly sensitive cytochemical bioassay of thyrotropin exemplifies the precision that can be achieved by controlled use of microdensitometry.
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