Characterization of Hemoglobin Variants by Capillary Electrophoresis, UV-Vis, and FTIR Spectroscopy.

IF 3 3区生物学 Q2 BIOCHEMICAL RESEARCH METHODS ELECTROPHORESIS Pub Date : 2025-01-07 DOI:10.1002/elps.202400154

Julia Werle, Katerina Dunovska, Jakub Podhajsky, Michal Cerny, Jana Cepova, Arli Aditya Parikesit, Geir Bjørklud, Karel Kotaska, Eva Klapkova, Richard Prusa, Egon Werle, Rene Kizek

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Abstract

Hemoglobinopathies, hereditary disorders affecting the structure or production of hemoglobin, were detected by routine HbA_1c measurements by capillary electrophoresis (CE) at the University Hospital Motol, Prague. The potential of ultraviolet-visible (UV-Vis) and Fourier-transform infrared (FTIR) spectroscopy for the detection and characterization of hemoglobinopathies was investigated. FTIR spectra were recorded with a very high resolution (0.5 cm^-1) with 128 scans. The broad amide I peak, located at 1700-1600 cm^-1, can be formed by superimposition of the conformational structures of hemoglobin. These secondary protein structures were subjected to mathematical analysis. The application of band narrowing techniques, followed by curve fitting and integration processes, provided the basis for the quantitative estimation of protein secondary structure. As a result, unambiguous differences in UV-Vis spectra among patients with presumably normal hemoglobin, an HbC or a hemoglobin S/hemoglobin G (HbS/HbG)-Philadelphia variant could not be demonstrated. However, FTIR spectra indicated slight differences in α-helix, β-turns, β-sheet, or random coil secondary hemoglobin structures for these mutations. In the spectral wavenumber range of 950-850 cm^-1, there were some obvious FTIR differences at specific wavenumbers between patients with normal hemoglobin and those with the HbC variant. Further investigations are needed with a sufficient number of hemoglobin variants to elucidate the potency of FTIR spectroscopy for the characterization of hemoglobinopathies.

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血红蛋白变异的毛细管电泳，紫外可见和红外光谱表征。

在布拉格Motol大学医院，通过毛细管电泳（CE）常规HbA1c测量检测血红蛋白病，即影响血红蛋白结构或产生的遗传性疾病。研究了紫外可见光谱（UV-Vis）和傅里叶变换红外光谱（FTIR）检测和表征血红蛋白病变的潜力。128次扫描记录了高分辨率（0.5 cm-1）的FTIR光谱。位于1700-1600 cm-1的宽酰胺I峰可以通过血红蛋白构象结构的叠加而形成。对这些二级蛋白质结构进行了数学分析。应用窄带技术，然后进行曲线拟合和积分处理，为定量估计蛋白质二级结构提供了基础。因此，在推测为正常血红蛋白、HbC或HbS/HbG -Philadelphia变体的患者中，紫外可见光谱的明确差异无法被证明。然而，FTIR光谱显示，这些突变在α-螺旋、β-旋、β-片或随机线圈二级血红蛋白结构上存在细微差异。在950-850 cm-1的光谱波数范围内，正常血红蛋白患者与HbC变异患者在特定波数上的FTIR有明显差异。需要对足够数量的血红蛋白变异进行进一步的研究，以阐明FTIR光谱在血红蛋白病变表征方面的效力。

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来源期刊

ELECTROPHORESIS 生物-分析化学

CiteScore

6.30

自引率

13.80%

发文量

244

审稿时长

1.9 months

期刊介绍： ELECTROPHORESIS is an international journal that publishes original manuscripts on all aspects of electrophoresis, and liquid phase separations (e.g., HPLC, micro- and nano-LC, UHPLC, micro- and nano-fluidics, liquid-phase micro-extractions, etc.). Topics include new or improved analytical and preparative methods, sample preparation, development of theory, and innovative applications of electrophoretic and liquid phase separations methods in the study of nucleic acids, proteins, carbohydrates natural products, pharmaceuticals, food analysis, environmental species and other compounds of importance to the life sciences. Papers in the areas of microfluidics and proteomics, which are not limited to electrophoresis-based methods, will also be accepted for publication. Contributions focused on hyphenated and omics techniques are also of interest. Proteomics is within the scope, if related to its fundamentals and new technical approaches. Proteomics applications are only considered in particular cases. Papers describing the application of standard electrophoretic methods will not be considered. Papers on nanoanalysis intended for publication in ELECTROPHORESIS should focus on one or more of the following topics: • Nanoscale electrokinetics and phenomena related to electric double layer and/or confinement in nano-sized geometry • Single cell and subcellular analysis • Nanosensors and ultrasensitive detection aspects (e.g., involving quantum dots, "nanoelectrodes" or nanospray MS) • Nanoscale/nanopore DNA sequencing (next generation sequencing) • Micro- and nanoscale sample preparation • Nanoparticles and cells analyses by dielectrophoresis • Separation-based analysis using nanoparticles, nanotubes and nanowires.

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