Optical techniques coupled to ohmic heating to study heat-induced changes in biological systems

Symposium on Optics in Industry Pub Date : 2007-05-19 DOI:10.1117/12.742352

P. Vazquez-Landaverde, E. Morales Sánchez, J. Huerta-Ruelas

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Abstract

Solutions of bovine serum albumin protein were heated from 30 to 85°C in a temperature-controlled optical cell equipped with air-convective and ohmic heating systems. A polarized laser beam passed through a photo-elastic modulator was used to measure system changes in optical rotation. Results using both the air-convective and the ohmic heating systems showed that when the protein system was heated, an increase in absolute value of optical rotation occurred close to the temperature of denaturation of the protein. Both heating systems were compared, evaluating data points spread and variation in calculated temperature of denaturation for the replicates. Although no improvement in these parameters was obtained with ohmic heating when compared to those obtained with the air-convective system, the optical change related to protein denaturation was more clearly observed. Because ohmic heating strongly interacts with the sample under study, samples with low polarity and not susceptible to electrolysis should be used to avoid electrical effects; regardless, ohmic heating coupled to optical systems could also be a useful tool for the evaluation of interaction of electric field with biological systems optically active.

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光学技术与欧姆加热相结合，研究生物系统中热引起的变化

牛血清白蛋白溶液在配备空气对流和欧姆加热系统的温控光学细胞中从30°C加热到85°C。利用偏振激光束通过光弹性调制器来测量系统的旋光度变化。空气对流加热系统和欧姆加热系统的结果表明，当蛋白质系统被加热时，在蛋白质变性温度附近发生了旋光绝对值的增加。比较两种加热系统，评估重复计算的变性温度的数据点分布和变化。虽然与空气对流系统相比，欧姆加热对这些参数没有改善，但与蛋白质变性相关的光学变化更清楚地观察到。由于欧姆加热与所研究的样品相互作用强烈，因此应使用低极性且不易电解的样品以避免电效应;无论如何，与光学系统耦合的欧姆加热也可以作为评价电场与生物系统光学活性相互作用的有用工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Symposium on Optics in Industry

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