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本文引用的文献

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The Hypopigmentation Mechanism of Tyrosinase Inhibitory Peptides Derived from Food Proteins: An Overview.食品蛋白来源的酪氨酸酶抑制肽的色素减退作用机制:概述。
Molecules. 2022 Apr 22;27(9):2710. doi: 10.3390/molecules27092710.
2
Tyrosinase Inhibitory and Antioxidant Activity of Enzymatic Protein Hydrolysate from Jellyfish ().海蜇酶解蛋白水解物的酪氨酸酶抑制及抗氧化活性()
Foods. 2022 Feb 21;11(4):615. doi: 10.3390/foods11040615.
3
Salicylic acid in ginseng root alleviates skin hyperpigmentation disorders by inhibiting melanogenesis and melanosome transport.水杨酸在人参根中通过抑制黑色素生成和黑素小体转运来缓解皮肤色素沉着紊乱。
Eur J Pharmacol. 2021 Nov 5;910:174458. doi: 10.1016/j.ejphar.2021.174458. Epub 2021 Sep 1.
4
Proteome Analysis and In Vitro Antiviral, Anticancer and Antioxidant Capacities of the Aqueous Extracts of and Edible Mushrooms.菌物药和食药用菌水提物的蛋白质组分析及体外抗病毒、抗癌和抗氧化活性研究
Molecules. 2021 Jul 30;26(15):4623. doi: 10.3390/molecules26154623.
5
Multifunctional Tyrosinase Inhibitor Peptides with Copper Chelating, UV-Absorption and Antioxidant Activities: Kinetic and Docking Studies.具有铜螯合、紫外线吸收和抗氧化活性的多功能酪氨酸酶抑制剂肽:动力学和对接研究
Foods. 2021 Mar 22;10(3):675. doi: 10.3390/foods10030675.
6
Pepsin Hydrolysis of Orange By-Products for the Production of Bioactive Peptides with Gastrointestinal Resistant Properties.用于生产具有胃肠道抗性特性生物活性肽的橙子副产品的胃蛋白酶水解
Foods. 2021 Mar 23;10(3):679. doi: 10.3390/foods10030679.
7
Anti-tyrosinase activity of South African Aloe species and isolated compounds plicataloside and aloesin.南非芦荟属植物及其分离化合物plicataloside 和芦荟素的酪氨酸酶抑制活性。
Fitoterapia. 2021 Apr;150:104828. doi: 10.1016/j.fitote.2021.104828. Epub 2021 Jan 9.
8
Milk Protein-Derived Antioxidant Tetrapeptides as Potential Hypopigmenting Agents.乳蛋白衍生的抗氧化四肽作为潜在的美白剂
Antioxidants (Basel). 2020 Nov 10;9(11):1106. doi: 10.3390/antiox9111106.
9
Evaluation of tyrosinase inhibitory activity and mechanism of Leucrocin I and its modified peptides.白僵菌素 I 及其修饰肽的酪氨酸酶抑制活性评价及作用机制。
J Biosci Bioeng. 2020 Sep;130(3):239-246. doi: 10.1016/j.jbiosc.2020.04.002. Epub 2020 May 7.
10
Production of antioxidant peptides through hydrolysis of medicinal pumpkin seed protein using pepsin enzyme and the evaluation of their functional and nutritional properties.利用胃蛋白酶水解药用南瓜籽蛋白制备抗氧化肽及其功能和营养特性评价
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两种食用菌蛋白水解物在生物活性方面的优质生物活性肽的发现:酪氨酸酶抑制和抗氧化活性。

Discovery of superior bioactive peptides of two edible mushrooms protein hydrolysate in biological activities: tyrosinase inhibitory and antioxidant activity.

作者信息

Kriangkrai Worawut, Kantasa Tattiya, Sagasae Wannaporn, Inpad Chaturong, Kaewkong Worasak, Roytrakul Sittiruk, Attarat Jongrak

机构信息

Department of Pharmaceutical Technology, Faculty of Pharmaceutical Sciences and Center of Excellence for Innovation in Chemistry, Naresuan University, Phitsanulok, Thailand.

Department of Biochemistry, Faculty of Medical Science, Naresuan University, Phitsanulok, Thailand.

出版信息

Food Sci Biotechnol. 2024 May 3;33(13):3105-3117. doi: 10.1007/s10068-024-01563-7. eCollection 2024 Oct.

DOI:10.1007/s10068-024-01563-7
PMID:39220303
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11364733/
Abstract

This study investigated protein hydrolysates obtained from and fruiting bodies via gastric protease hydrolysis and ultrafiltration, yielding peptides with a molecular weight below 6.5 kDa. These hydrolysates displayed significant tyrosinase inhibitory activity similar to positive controls, peptide from Chinese quince seed (RHAKF) and kojic acid. -derived hydrolysates exhibited superior antioxidant properties compared to in DPPH (47% vs. 23%) and ABTS (77% vs. 23%) assays. Identified bioactive peptides, particularly LILGGSSS from , interacted with tyrosinase through hydrogen bonds at specific residues. Notably, these protein hydrolysates showcased potent tyrosinase inhibition without cytotoxic effects, presenting promising prospects for addressing hyperpigmentation caused by excessive tyrosinase activity from stress or UV exposure.

摘要

本研究通过胃蛋白酶水解和超滤,研究了从[具体名称1]和[具体名称2]子实体中获得的蛋白质水解产物,得到了分子量低于6.5 kDa的肽。这些水解产物表现出与阳性对照(来自木瓜籽的肽(RHAKF)和曲酸)相似的显著酪氨酸酶抑制活性。在DPPH(47%对23%)和ABTS(77%对23%)测定中,[具体名称1]衍生的水解产物比[具体名称2]表现出更好的抗氧化性能。鉴定出的生物活性肽,特别是来自[具体名称1]的LILGGSSS,通过与特定残基的氢键与酪氨酸酶相互作用。值得注意的是,这些蛋白质水解产物在无细胞毒性作用的情况下表现出强大的酪氨酸酶抑制作用,为解决因压力或紫外线暴露导致酪氨酸酶活性过高引起的色素沉着问题提供了广阔前景。