NMR Analysis of Dog Erythrocytic Membrane Antigen

Asian Journal of Research in Biochemistry Pub Date : 2024-04-19 DOI:10.9734/ajrb/2024/v14i3286

G. Kalaiselvi, K. G. Tirumurugaan, G. D. Raj, K. Vijayarani, R. Baranidharan

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Abstract

Aim: NMR spectroscopy analysis of dog erythrocytic membrane antigen in order to differentiate blood groups in dogs Methodology: The purified dog erythrocytic membrane glycoprotein of DEA1.1 positive and negative blood were subjected in to NMR spectroscopy analysis. One-dimensional C13-NMR spectra were acquired at 25°C on a high resolution spectrometer Fourier 300 MHz (Bruker’s, (USA) using the first increment of the pulse sequence NOESY-presat, 128 scans, sweep window 20 ppm, 32 k points and relaxation delay 5 seconds. The spectra were processed and analyzed with Bruker’s. TopSpin software 300 zero-filing to 64 k points and line broadening 0.5 Hz22 and MestReNova 8.1 software (Mestrelab Research, Santiago de Compostela, Spain). Results: The DEA 1.1 positive and negative membrane glycoprotein showed chemical shift with minimum spectral difference and functional group, CH3CO at the level of 20-30 ppm, RCH2Cl at the level of 35-45 ppm, RCH2OH, C=O (in acids and esters) at the level of 170 ppm were identified in both DEA 1.1 positive and negative membrane glycoprotein in NMR analysis of canine erythrocytic membrane antigen. Conclusion: NMR studies of conformational changes of membrane proteins in response to small molecule and protein ligands and the changing lipid environment at different physiological states of cellular membranes. The exploration of the structural and mechanistic biology of membrane proteins by NMR has a bright future and bring many new exciting discoveries.

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狗红细胞膜抗原的核磁共振分析

目的：对狗红细胞膜抗原进行核磁共振光谱分析，以区分狗的血型：对纯化的狗红细胞膜糖蛋白（DEA1.1阳性和阴性血）进行核磁共振光谱分析。一维 C13-NMR 光谱是在 25°C 下，使用高分辨率光谱仪 Fourier 300 MHz（美国布鲁克公司），以 NOESY-presat 脉冲序列的第一增量、128 次扫描、20 ppm 扫描窗口、32 k 点和 5 秒弛豫延迟采集的。光谱由布鲁克公司的 TopSpin 软件 300 进行处理和分析。TopSpin 软件 300 归零至 64 k 点，线展宽 0.5 Hz22 和 MestReNova 8.1 软件（Mestrelab Research，西班牙圣地亚哥-德孔波斯特拉）进行处理和分析：结果：在犬红细胞膜抗原的核磁共振分析中，DEA 1.1 阳性膜糖蛋白和阴性膜糖蛋白的化学位移光谱差异最小，在 DEA 1.1 阳性膜糖蛋白和阴性膜糖蛋白中均发现了 20-30 ppm 的 CH3CO、35-45 ppm 的 RCH2Cl、170 ppm 的 RCH2OH、C=O（酸和酯中）等官能团：在细胞膜的不同生理状态下，核磁共振研究膜蛋白在小分子和蛋白质配体以及不断变化的脂质环境中的构象变化。核磁共振对膜蛋白结构和机理生物学的探索前景广阔，将带来许多激动人心的新发现。

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Asian Journal of Research in Biochemistry

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