Green synthesis of self-oriented flower-like Ag@Ag2O nanostructures functionalized with L-Tryptophan for colorimetric simultaneous determination of ultra-trace level of thiamin and riboflavin

IF 3 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Amino Acids Pub Date : 2024-10-12 DOI:10.1007/s00726-024-03406-5
Maryam Abbasi Tarighat, Zahra Khosravani, Gholamreza Abdi
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Abstract

The study focuses on the green synthesis of Ag@Ag2O nanostructures using Padina algae extract and functionalizing them with L-tryptophan to enhance their properties as a colorimetric sensor for simultaneous detection of ultra-trace levels of thiamin and riboflavin. The nanostructures are characterized using techniques like XRD, FESEM, FTIR, TEM, AFM, and DLS to understand their morphology, structure, and interactions with target molecules. FESEM analysis revealed the hierarchical flower-like Ag@Ag2O nanostructures. The TEM image shows the formation of core-shell nanostructures. Also, DLS analysis and surface zeta potential spectra illustrated the aggregated nature of fabricated nanocomposites in the presence of vitamins. The study is the first to report simultaneous determination of thiamin and riboflavin using a colorimetric sensor based on Ag@Ag2O-L-Try nanocomposites using partial leas square (PLS). The dynamic range of thiamin and riboflavin was achieved in 0.1 mol L1 acetate buffer pH 4 and the ratio Ag@Ag2O: L-try 1:1. The Ag@Ag2O-L-Try sensor exhibited two linear ranges of 0.1- 1.0 and 3-350 µMol L− 1 for riboflavin and a linear range 3.0–60 µMol L− 1 for thiamin. Also, low detection limit of 1.92 µMol L− 1 and 0.048 µMol L− 1 was obtained for riboflavin and thiamin, respectively. The results indicated that the success of the method depends on the selective and sensitive colorimetric assay of the sensor along with the simultaneous determination by the PLS algorithm. Hence, the proposed technique can be used for the accurate and precise determination of vitamins in different pharmaceutical syrup and tablet samples.

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用 L-色氨酸功能化的自定向花状 Ag@Ag2O 纳米结构的绿色合成,用于同时比色测定超痕量硫胺素和核黄素含量
本研究的重点是利用 Padina 藻类提取物绿色合成 Ag@Ag2O 纳米结构,并用 L-色氨酸对其进行功能化,以增强其作为比色传感器的特性,从而同时检测超痕量水平的硫胺素和核黄素。利用 XRD、FESEM、FTIR、TEM、AFM 和 DLS 等技术对纳米结构进行表征,以了解其形态、结构以及与目标分子的相互作用。FESEM 分析显示了分层的花状 Ag@Ag2O 纳米结构。TEM 图像显示了核壳纳米结构的形成。此外,DLS 分析和表面 zeta 电位光谱显示了所制备的纳米复合材料在维生素存在下的聚集性质。该研究首次报道了基于 Ag@Ag2O-L-Try 纳米复合材料的比色传感器利用偏倚平方法(PLS)同时测定硫胺素和核黄素。在 0.1 mol L-1 醋酸盐缓冲液(pH 值为 4)和 Ag@Ag2O: L-try 1:1 的比例下,硫胺素和核黄素的测定达到了动态范围。Ag@Ag2O-L-Try 传感器的核黄素线性范围为 0.1-1.0 和 3-350 µMol L- 1,硫胺素的线性范围为 3.0-60 µMol L- 1。核黄素和硫胺素的检测限也很低,分别为 1.92 µMol L- 1 和 0.048 µMol L-1。结果表明,该方法的成功取决于传感器的选择性和灵敏度,以及 PLS 算法的同步测定。因此,所提出的技术可用于准确和精确地测定不同药用糖浆和片剂样品中的维生素。
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来源期刊
Amino Acids
Amino Acids 生物-生化与分子生物学
CiteScore
6.40
自引率
5.70%
发文量
99
审稿时长
2.2 months
期刊介绍: Amino Acids publishes contributions from all fields of amino acid and protein research: analysis, separation, synthesis, biosynthesis, cross linking amino acids, racemization/enantiomers, modification of amino acids as phosphorylation, methylation, acetylation, glycosylation and nonenzymatic glycosylation, new roles for amino acids in physiology and pathophysiology, biology, amino acid analogues and derivatives, polyamines, radiated amino acids, peptides, stable isotopes and isotopes of amino acids. Applications in medicine, food chemistry, nutrition, gastroenterology, nephrology, neurochemistry, pharmacology, excitatory amino acids are just some of the topics covered. Fields of interest include: Biochemistry, food chemistry, nutrition, neurology, psychiatry, pharmacology, nephrology, gastroenterology, microbiology
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