目录号 | 产品详情 | 靶点 | |
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T4241 | Free radical scavengers PARP Caspase | ||
Rubiadin (1,3-Dihydroxy-2-Methylanthracene-9,10-Dione) 是一种二羟基蒽醌,提取自茜草,具有抗氧化剂作用。 | |||
TN2008 | NF-κB TLR | ||
Okanin 是鬼针草中的一种有效成分,可通过抑制TLR4/NF-κB 信号通路减弱 LPS 诱导的小胶质细胞活化。 | |||
TN4972 | Others | ||
Sculponeatin N 是一种 ent-kaurane 二萜衍生物,分离自 Isodon sculponeata 植物。 | |||
TN3120 | Histone Demethylase Antiviral | ||
5-Hydroxy-7-acetoxy-8-methoxyflavone 是一种类黄酮化合物,可以抑制脂质过氧化,可能具有抗流感病毒活性。 | |||
T9956 | Mitochondrial Metabolism Lipid | ||
VK-28 是一种具有神经保护作用的脑渗透性铁螯合剂。 VK-28 抑制基础以及铁诱导的线粒体脂质过氧化。 | |||
TN1863 | MRP | ||
Licoisoflavone A (Phaseoluteone) 是一种 MRP 抑制剂,可抑制脂质过氧化,IC50 为 7.2 μM。 | |||
TN1644 | Others | ||
Flavanomarein 是Coreopsis tinctoria Nutt 的主要黄酮类化合物,对糖尿病性肾病具有保护作用。它具有很好的抗氧化,降糖,降压和降血脂作用。 | |||
T19792 | Others | ||
1,3,7-Trimethyluric acid 是咖啡因的代谢产物。其与咖啡因的代谢比可以反映 CYP3A 活性的变化情况。 | |||
TN1962 | NOS Xanthine Oxidase | ||
Myricetin 3-O-galactoside (Myricetin 3-O-beta-D-galactopyranoside) 可抑制黄嘌呤氧化酶 (xanthine oxidase; XO) 活性,脂质过氧化并清除自由基。杨梅素3- o -半乳糖苷具有很多作用包括细胞毒性、抗氧化、抗基因毒性、抗感染性、抗炎作用和抗氧化活性,其主要作用是抑制诱导型一氧化氮合酶(iNOS)的合成。Myricetin 3-O-galactoside 抑制脂质过氧化的 IC50 为 160 μg/mL。 | |||
TN2374 | Others | ||
Methyl Linolenate (Linolenic acid methyl ester) 是一种多不饱和脂肪酸。 它用于研究不饱和脂肪酸氧化/过氧化的机制和预防。 |
目录号 | 产品名/同用名 | 种属 | 表达系统 | ||
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TMPY-02582 | Ferritin light chain Protein, Human, Recombinant (His) | Human | E. coli | ||
Ferritin, light polypeptide (FTL) is the light subunit of the ferritin protein. Ferritin is the major intracellular iron storage protein in prokaryotes and eukaryotes. It is composed of 24 subunits of the heavy and light ferritin chains. Storage of iron in the tissues occurs in the form of ferritin and hemosiderin. The latter originates from ferritin that has undergone intracellular digestion of its protein shell, leaving the iron core. Ferritin and hemosiderin are components of a continuum. Ferritin has been identified in all types of living organisms: animals, plants, molds, and bacteria. Whithin the protein shell of ferritin, iron is first oxidized to the ferric state for storage as ferric oxyhdroxide. Thus, ferritin removes excess iron from the cell sap where it could otherwise participate in peroxidation mechanisms.
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TMPY-01588 | ALDH7A1 Protein, Human, Recombinant (His) | Human | E. coli | ||
ALDH7A1 (Aldehyde dehydrogenase 7 family, member A1) is a member of subfamily 7 in the aldehyde dehydrogenase family. These enzymes are thought to play a major role in the detoxification of aldehydes generated by alcohol metabolism and lipid peroxidation. Mammalian ALDH7A1 is homologous to plant ALDH7B1 which protects against various forms of stress such as increased salinity, dehydration and treatment with oxidants or pesticides. In mammals, ALDH7A1 is known to play a primary role during lysine catabolism through the NAD+-dependent oxidative conversion of aminoadipate semialdehyde (AASA) to its corresponding carboxylic acid, α-aminoadipic acid. Deleterious mutations in human ALDH7A1 are responsible for pyridoxine-dependent and folinic acid-responsive seizures. ALDH7A1 is a novel aldehyde dehydrogenase expressed in multiple subcellular compartments that protects against hyperosmotic stress by generating osmolytes and metabolizing toxic aldehydes.
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TMPY-02299 | ALDH3A1 Protein, Human, Recombinant (His) | Human | Baculovirus-Insect Cells | ||
Aldehyde dehydrogenase 3A1 (ALDH3A1) is a metabolic enzyme that catalyzes the oxidation of various aldehydes. Certain types of epithelial tissues in mammals, especially those continually exposed to environmental stress (e.g., corneal epithelium), express ALDH3A1 at high levels and its abundance in such tissues is perceived to help to maintain cellular homeostasis under conditions of oxidative stress. Metabolic as well as non-metabolic roles for ALDH3A1 have been associated with its mediated resistance to cellular oxidative stress. Aldehyde dehydrogenase 1A1 (ALDH1A1) and ALDH3A1 are corneal crystallins. They protect inner ocular tissues from ultraviolet radiation (UVR)-induced oxidative damage through catalytic and non-catalytic mechanisms. Additionally, ALDH3A1 has been postulated to play a regulatory role in the corneal epithelium based on several studies that report an inverse association between ALDH3A1 expression and corneal cell proliferation. Aldehyde dehydrogenase 3A1 (ALDH3A1) plays an important role in many cellular oxidative processes, including cancer chemoresistance, by metabolizing activated forms of oxazaphosphorine drugs such as cyclophosphamide (CP) and its analogues, such as mafosfamide (MF), ifosfamide (IFM), and 4-hydroperoxycyclophosphamide (4-HPCP). Compounds that can selectively target ALDH3A1 could permit delineation of its roles in these processes and could restore chemosensitivity in cancer cells that express this isoenzyme. ALDH3A1 may act to protect corneal cells against cellular oxidative damage by metabolizing toxic lipid peroxidation products (e.g., 4-HNE), maintaining cellular GSH levels and redox balance, and operating as an antioxidant.
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