色氨酸的分析、营养和健康益处。

IF 2.7 Q3 NEUROSCIENCES International Journal of Tryptophan Research Pub Date : 2018-09-26 DOI:10.1177/1178646918802282
Mendel Friedman
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引用次数: 133

摘要

色氨酸是体内蛋白质生物合成所需的一种重要的植物来源氨基酸。食用后,它会代谢转化为生物活性代谢产物,包括血清素、褪黑激素、犬尿氨酸和维生素烟酸(烟酰胺)。这篇简短的综合综述调查并解释了我们目前对纯蛋白质、含蛋白质食品以及体液和组织中游离和蛋白质结合色氨酸的多种分析方法的了解,l-色氨酸及其异构体d-色氨酸在强化婴儿食品和玉米饼中的营养意义,以及色氨酸对多种人类疾病的诊断和缓解作用。分析方法包括采用酸性茚三酮、近红外反射光谱法、比色法、碱性水解法;S-吡啶基乙基化蛋白质的酸水解以及高效液相和气相色谱-质谱法。还涵盖了色氨酸强化婴儿配方奶粉和玉米玉米饼的营养价值、人类食用色氨酸的安全性,以及对玉米、水稻和大豆植物的分析,这些植物已成功进行基因工程,以产生越来越多的色氨酸。膳食色氨酸及其代谢产物似乎有助于治疗自闭症、心血管疾病、认知功能、慢性肾脏疾病、抑郁症、炎症性肠病、多发性硬化症、睡眠、社交功能和微生物感染。色氨酸还可以促进某些疾病的诊断,如人类白内障、结肠肿瘤、肾细胞癌和糖尿病肾病的预后。所描述的发现不仅具有基本的科学意义,而且对农业、食品加工、食品安全、营养以及动物和人类健康都有实际意义。整理后的信息和建议的研究需求有望促进和指导进一步的研究,以优化游离和蛋白质结合的色氨酸和代谢产物的使用,帮助改善动物和人类的营养和健康。
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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Analysis, Nutrition, and Health Benefits of Tryptophan.

Tryptophan is an essential plant-derived amino acid that is needed for the in vivo biosynthesis of proteins. After consumption, it is metabolically transformed to bioactive metabolites, including serotonin, melatonin, kynurenine, and the vitamin niacin (nicotinamide). This brief integrated overview surveys and interprets our current knowledge of the reported multiple analytical methods for free and protein-bound tryptophan in pure proteins, protein-containing foods, and in human fluids and tissues, the nutritional significance of l-tryptophan and its isomer d-tryptophan in fortified infant foods and corn tortillas as well the possible function of tryptophan in the diagnosis and mitigation of multiple human diseases. Analytical methods include the use of acid ninhydrin, near-infrared reflectance spectroscopy, colorimetry, basic hydrolysis; acid hydrolysis of S-pyridylethylated proteins, and high-performance liquid and gas chromatography-mass spectrometry. Also covered are the nutritional values of tryptophan-fortified infant formulas and corn-based tortillas, safety of tryptophan for human consumption and the analysis of maize (corn), rice, and soybean plants that have been successfully genetically engineered to produce increasing tryptophan. Dietary tryptophan and its metabolites seem to have the potential to contribute to the therapy of autism, cardiovascular disease, cognitive function, chronic kidney disease, depression, inflammatory bowel disease, multiple sclerosis, sleep, social function, and microbial infections. Tryptophan can also facilitate the diagnosis of certain conditions such as human cataracts, colon neoplasms, renal cell carcinoma, and the prognosis of diabetic nephropathy. The described findings are not only of fundamental scientific interest but also have practical implications for agriculture, food processing, food safety, nutrition, and animal and human health. The collated information and suggested research need will hopefully facilitate and guide further studies needed to optimize the use of free and protein-bound tryptophan and metabolites to help improve animal and human nutrition and health.

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来源期刊
CiteScore
7.30
自引率
4.50%
发文量
19
审稿时长
8 weeks
期刊最新文献
Baseline Inflammation but not Exercise Modality Impacts Exercise-induced Kynurenine Pathway Modulation in Persons With Multiple Sclerosis: Secondary Results From a Randomized Controlled Trial. Erratum to 'Dietary Hesperidin Suppresses Lipopolysaccharide-Induced Inflammation in Male Mice'. Investigations Towards Tryptophan Uptake and Transport Across an In Vitro Model of the Oral Mucosa Epithelium. The Tryptophan Metabolite Indole-3-Propionic Acid Raises Kynurenic Acid Levels in the Rat Brain In Vivo. Periconceptional Non-medical Maternal Determinants Influence the Tryptophan Metabolism: The Rotterdam Periconceptional Cohort (Predict Study).
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