Spectrophotometric determination of phenylalanine in aqueous solutions with different acidity

Q4 Chemistry Analitika i Kontrol Pub Date : 2022-01-01 DOI:10.15826/analitika.2022.26.3.003
V. Vasil'eva, A. Saud
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引用次数: 1

Abstract

A method for the determination of phenylalanine using the spectrophotometric method without preliminary correction of the solutions pH and the use of auxiliary chemical reagents has been developed. A comparative analysis of the spectrophotometric determination of phenylalanine by varying acidity of the medium was carried out. The errors and the possibility of their minimization were analyzed. It was shown that the analytical signal and the results of amino acid determination in the solutions with different pH differ significantly due to the presence of phenylalanine in various ionic forms that vary in the magnitude of the molar absorption coefficient. It was found that the maximum value of the molar absorption coefficient decreases in the series ε(Phe−)> ε(Phe+)> ε(Phe±) by 20%. The maximum error in determining the phenylalanine concentration without taking into account the dependence of the optical density of the solution on the acidity of the medium was found in strongly alkaline solutions. The correlation dependences of the analytical wavelength and molar absorption coefficient of phenylalanine on the pH of the medium were obtained experimentally. A long-wavelength (bathochromic) shift of the absorption band maximum was established upon the transition from positive to negative charge of the phenylalanine molecule with increasing pH of the solution. Two ranges of pH values have been identified, in which a change in the acidity of the solutions did not cause spectral changes. These were the regions where the amino acid was predominantly found in cationic Phe+ and bipolar Phe± forms (pH < 8) and in the region of anionic Phe− (pH > 10) form. The regression equations that allow choosing the analytical wavelength at any arbitrary pH of the solution were presented. The advantage of the developed approach is the possibility of increasing the detection sensitivity and ensuring that the error in the amino acid determination in the solutions of arbitrary acidity is less than 0.5% with the variation of no more than 0.3%. The detection limit of amino acid, calculated by 3σ – test, is (1.4 − 1.6) × 10-5 M. The range of the determined phenylalanine contents is (0.5 − 5.3) × 10-3 M. The efficiency of the proposed approach for determining the content of phenylalanine in a sample of the "L-Phenylalanine" (Protein Company, Russia) drug by the method of standard addition was shown. The possibility of minimizing the error in determining the amino acid when applying the technique to control the content of components in the process of demineralization of water-salt solutions of phenylalanine by electrodialysis with experimental membranes has been proven.
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不同酸度水溶液中苯丙氨酸的分光光度法测定
建立了一种不用预先校正溶液pH值和使用辅助化学试剂的分光光度法测定苯丙氨酸的方法。对不同酸度介质分光光度法测定苯丙氨酸进行了比较分析。分析了误差及其最小化的可能性。结果表明,由于苯丙氨酸以不同的离子形式存在,其摩尔吸收系数的大小不同,在不同pH溶液中,分析信号和氨基酸测定结果有显著差异。在ε(Phe−)> ε(Phe+)> ε(Phe±)系列中,摩尔吸收系数的最大值降低了20%。在强碱性溶液中,测定苯丙氨酸浓度时,不考虑溶液的光密度对介质酸度的依赖,误差最大。实验得到了苯丙氨酸的分析波长和摩尔吸收系数与介质pH的相关关系。随着溶液pH值的增加,苯丙氨酸分子的正电荷向负电荷的转变产生了吸收带最大值的长波移(色移)。已经确定了两个pH值范围,其中溶液酸度的变化不会引起光谱变化。这些区域氨基酸主要以阳离子Phe+和双极Phe±形式(pH < 8)和阴离子Phe - (pH bbb10)形式存在。给出了在溶液的任意pH值下选择分析波长的回归方程。该方法的优点是可以提高检测灵敏度,保证在任意酸度溶液中测定氨基酸的误差小于0.5%,变化不大于0.3%。氨基酸的检出限为(1.4 ~ 1.6)× 10-5 m,苯丙氨酸的测定范围为(0.5 ~ 5.3)× 10-3 m,用标准加入法测定“l -苯丙氨酸”(俄罗斯蛋白质公司)药品样品中苯丙氨酸的含量是有效的。应用该技术控制实验膜电渗析苯丙氨酸水盐溶液脱矿过程中各组分含量,可以最大限度地减少测定氨基酸的误差。
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来源期刊
Analitika i Kontrol
Analitika i Kontrol Chemistry-Analytical Chemistry
CiteScore
0.90
自引率
0.00%
发文量
15
期刊介绍: Analitika i Kontrol is a scientific journal covering theoretical and applied aspects of analytical chemistry and analytical control, published since autumn 1997. Founder and publisher of the journal is the Ural Federal University named after the first President of Russia Boris Yeltsin (UrFU, Ekaterinburg).
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