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崔慧萍周薇郭长虹 《中国生物化学与分子生物学报》2017,(3):220-226
过氧化物酶体是高度动态、代谢活跃的细胞器,主要参与脂肪酸等脂质的代谢及产生和清除不同的活性氧(reactive oxygen species,ROS)。ROS是细胞有氧代谢的副产物。当胁迫长期作用于植物,过量的ROS会引起氧胁迫,损害细胞结构和功能的完整性,导致细胞代谢减缓,活性降低,甚至死亡;但低浓度的ROS则作为分子信号,感应细胞ROS/氧化还原变化,从而触发由环境因素导致的过氧化物酶体动力学以及依赖ROS信号网络改变而产生快速、特异性的应答。ROS也可以通过直接或间接调节细胞生长来控制植物的发育,是植物发育的重要调节剂。此外,过氧化物酶体的动态平衡由ROS、过氧化物酶体蛋白酶及自噬过程调节,对于维持细胞的氧化还原平衡至关重要。本文就过氧化物酶体中ROS的产生和抗氧化剂的调控机制进行综述,以期为过氧化物酶体如何感知环境变化,以及在细胞应答中,ROS作为重要信号分子的研究提供参考。 相似文献
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过氧化物酶体生物发生研究进展 总被引:1,自引:0,他引:1
过氧化物酶体是存在于真核细胞中的一种亚细胞器,主要功能是参与脂肪酸等脂质的代谢过程和氧化应激的调节。近年来研究发现,多种疾病都与过氧化物酶体的生物发生异常有关。过氧化物酶体的生物发生指过氧化物酶体的形成过程,包括从头合成和分裂增殖两条途径。两条途径中,参与过氧化物酶体生物发生的蛋白质,即peroxin(PEX)的基因发生突变,会导致过氧化物酶体生成障碍,引起疾病的发生。因此,就过氧化物酶体生物发生的研究进展进行综述,有助于为相关疾病的诊断和治疗提供参考和依据。 相似文献
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过氧化物酶体是细胞中一种重要的细胞器.过氧化物酶体在细胞功能的发挥和人体健康方面有着重要作用.目前,以酵母过氧化物酶体为模型,研究过氧化物酶体的形成机制是研究热点.从过氧化物酶体起源、生成方式介绍最新研究进展,总结在酵母细胞中参与过氧化物酶体形成的必需基因(pex),及其编码Peroxin蛋白在过氧化物酶体形成过程中的... 相似文献
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过氧化物酶体(peroxisome,P)是真核细胞中普遍存在的细胞器,参与多种重要的代谢过程。P的产生、增殖及降解是细胞器发生机理研究的重要部分。到目前已知的P发生相关基因有30多个,但其机制仍不完全清楚。作为一种多细胞真核生物,丝状真菌在P发生机制的研究中有重要价值。近年来,随着基因组序列的应用和真菌生物技术的进展,丝状真菌中P功能及发生机制的研究取得了较大进展。同时,作为丝状真菌真菌中的重要类群,植物病原真菌P在致病过程中的作用也引起关注。本文对P发生机制、在丝状真菌中的研究概况,以及与植物病原真菌致病性的关系进行了综述。 相似文献
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除线粒体外,过氧化物酶体也是真核细胞脂肪酸β氧化分解的重要部位.过氧化物酶体β氧化过程包括氧化、加水、脱氢和硫解4步反应,主要参与极长链、支链脂肪酸等的分解.近年关于过氧化物酶体β氧化的研究活跃,在代谢途径及功能等方面有了新的认识,尤其在对相关代谢酶的研究中取得了较大进展.本文就过氧化物酶体β氧化相关进展作一综述. 相似文献
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植物谷胱甘肽过氧化物酶研究进展 总被引:18,自引:1,他引:18
氧化胁迫可诱导植物多种防御酶的产生,其中包括超氧化物歧化酶(SOD,EC1.15.L1)、抗坏血酸过氧化物酶(APX,EC1.11.1.11)、过氧化氢酶(CAT,E.C.1.11.1.6)和谷胱甘肽过氧化物酶(GPXs,EC1.11.1.9).它们在清除活性氧过程中起着不同的作用.GPXs是动物体内清除氧自由基的主要酶类,但它在植物中的功能报道甚少.最近几年研究表明,植物体内也存在类似于哺乳动物的GPXs家族,并对其功能研究已初见端倪.本文综述了有关GPXs的结构以及植物GPXs功能的研究进展. 相似文献
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植物抗坏血酸过氧化物酶 总被引:34,自引:0,他引:34
植物抗坏血酸过氧化物酶沈文飚黄丽琴徐朗莱(南京农业大学理学院应用化学系,南京210095)关键词抗坏血酸过氧化物酶植物抗坏血酸过氧化物酶(APX,EC1.11.1.11)的发现至今已有20多年了。Foyer和Haliwel[1]首先于1976年发现以... 相似文献
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Gursev S. Dhaunsi Inderjit Singh Coral D. Hanevold 《Molecular and cellular biochemistry》1993,126(1):25-35
Exposure to a sublethal dose of endotoxin offers protection against subsequent oxidative stresses. The cellular mechanisms involved in generating this effect are not well understood. We evaluated the effect of endotoxin on antioxidant enzymes in liver peroxisomes. Peroxisomes have recently been shown to contain superoxide dismutase (SOD) and glutathione peroxidase (GPX) in addition to catalase. Peroxisomes were isolated from liver homogenates by differential and density gradient centrifugations. Endotoxin treatment increased the specific activity of SOD and GPX in peroxisomes to 208% and 175% of control activity, respectively. These findings correlated with increases in peroxisomal SOD and GPX proteins observed by immunoblot. Although the quantity of catalase protein was increased when assessed by immunoblot analysis, the specific activity of catalase was decreased to 68% of control activity. Activation of catalase with ethanol only restored catalase activity to control levels suggesting that catalase had undergone irreversible inactivation. The observed increase in GPX activity may represent a compensatory mechanism triggered by accumulating H2O2. The data presented here suggest for the first time that mammalian peroxisomal antioxidant enzymes are altered during the oxidative injury of endotoxin treatment. 相似文献
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Cadmium causes the oxidative modification of proteins in pea plants 总被引:23,自引:0,他引:23
M. C. Romero-Puertas J. M. Palma M. Gómez L. A. Del Río & L. M. Sandalio 《Plant, cell & environment》2002,25(5):677-686
In pea (Pisum sativum L.) leaves from plants grown in the presence of 50 µm CdCl2 the oxidative production of carbonyl groups in proteins, the rate of protein degradation and the proteolytic activity were investigated. In leaf extracts the content of carbonyl groups measured by derivatization with 2,4‐dinitrophenylhydrazine (DNPH), was two‐fold higher in plants treated with Cd than in control plants. The identification of oxidized proteins was carried out by sodium dodecyl sulphate‐polyacrylamide gel electrophoresis of proteins derivatized with DNPH and immunochemical detection with an antibody against DNPH. The intensity of the reactive bands was higher in plants exposed to Cd than in controls. By using different antibodies some of the oxidized proteins were identified as Rubisco, glutathione reductase, manganese superoxide dismutase, and catalase. The incubation of leaf crude extracts with increasing H2O2 concentrations showed a progressive enhancement in carbonyl content and the pattern of oxidized proteins was similar to that found in Cd‐treated plants. Oxidized proteins were more efficiently degraded, and the proteolytic activity increased 20% due to the metal treatment. In peroxisomes purified from pea leaves a rise in the carbonyl content similar to that obtained in crude extracts from Cd‐treated plants was observed, but the functionality of the peroxisomal membrane was not apparently affected by Cd. Results obtained demonstrate the participation of both oxidative stress, probably mediated by H2O2, and proteolytic degradation in the mechanism of Cd toxicity in leaves of pea plants, and they appear to be involved in the Cd‐induced senescence previously reported in these plants. 相似文献
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- Senna occidentalis is an invasive plant producing a series of allelochemicals that might inhibit the development of other plants. The objective of this study was to assess the phytotoxic effect of S. occidentalis extracts on the germination, development and antioxidant defence of the native species Tabebuia chrysotricha, T. pentaphylla, T. roseoalba and Handroanthus impetiginosus (Ipê species).
- We evaluated the effects of chemicals extracted from S. occidentalis on the germination rate, germination speed index (GSI) and biometric parameters of the test species under controlled conditions. The effect of the extracts on the pigment content, amount of H2O2 and malondialdehyde (MDA), and the activity of the antioxidant enzymes in roots and leaves were also tested.
- Alkaloids, coumarins, phenols, saponins, free steroids and condensed tannins were present in all extracts of S. occidentalis, while catechins were present only in leaf and stem extracts. Stem and root extracts caused a growth reduction in all Ipê species and total inhibition of seed germination in T. chrysotricha and T. roseoalba. All target species showed an increase in H2O2 and MDA in radicles and leaves. Oxidative stress contributed strongly to the morphological changes, such as seed blackening, thinning and darkening of radicle tips and reduction of biomass allocation in all Ipê species.
- Although there was activation of antioxidant defence mechanisms, such as an increase in activity of ascorbate peroxidase (APX) and peroxidase (POD) enzymes, the joint action of the allelochemicals caused phytotoxicity, leading to cell dysfunction in all Ipê species.
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Reyhaneh Moradi-Marjaneh Seyed Mahdi Hassanian Mehraneh Mehramiz Majid Rezayi Gordon A. Ferns Majid Khazaei Amir Avan 《Journal of cellular physiology》2019,234(7):10072-10079
Reactive oxygen species (ROS) are produced by mitochondria during metabolism. In physiological states, the production of ROS and their elimination by antioxidants are kept in balance. However, in pathological states, elevated levels of ROS interact with susceptible cellular target compounds including lipids, proteins, and DNA and deregulate oncogenic signaling pathways that are involved in colorectal cancer (CRC) carcinogenesis. Although antioxidant compounds have been successfully used in the treatment of CRC as prevention approaches, they have also been shown in some cases to promote disease progression. In this review, we focus on the role of ROS in gastrointestinal homeostasis, CRC progression, diagnosis, and therapy with particular emphasis on ROS-stimulated pathways. 相似文献
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ELS KEUNEN DARIN PESHEV JACO VANGRONSVELD WIM VAN DEN ENDE ANN CUYPERS 《Plant, cell & environment》2013,36(7):1242-1255
Plants suffering from abiotic stress are commonly facing an enhanced accumulation of reactive oxygen species (ROS) with damaging as well as signalling effects at organellar and cellular levels. The outcome of an environmental challenge highly depends on the delicate balance between ROS production and scavenging by both enzymatic and metabolic antioxidants. However, this traditional classification is in need of renewal and reform, as it is becoming increasingly clear that soluble sugars such as disaccharides, raffinose family oligosaccharides and fructans – next to their associated metabolic enzymes – are strongly related to stress‐induced ROS accumulation in plants. Therefore, this review aims at extending the current concept of antioxidants functioning during abiotic stress, with special focus on the emanate role of sugars as true ROS scavengers. Examples are given based on their cellular location, as different organelles seem to exploit distinct mechanisms. Moreover, the vacuole comes into the picture as important player in the ROS signalling network of plants. Elucidating the interplay between the mechanisms controlling ROS signalling during abiotic stress will facilitate the development of strategies to enhance crop tolerance to stressful environmental conditions. 相似文献
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Teratogenesis has been a topic of increasing interest and concern in recent years, generating controversy in association with danger to humans and other living things. A veritable host of chemicals is known to be involved, encompassing a wide variety of classes, both organic and inorganic. Contact with these chemicals is virtually unavoidable due to contamination of air, water, ground, food, beverages, and household items, as well as exposure to medicinals. The resulting adverse effects on reproduction are numerous. There is uncertainty regarding the mode of action of these chemicals, although various theories have been advanced, e.g., disruption of the central nervous system (CNS), DNA attack, enzyme inhibition, interference with hormonal action, and insult to membranes, proteins, and mitochondria. This review provides extensive evidence for involvement of oxidative stress (OS) and electron transfer (ET) as a unifying theme. Successful application of the mechanistic approach is made to all of the main classes of toxins, in addition to large numbers of miscellaneous types. We believe it is not coincidental that the vast majority of these substances incorporate ET functionalities (quinone, metal complex, ArNO2, or conjugated iminium) either per se or in metabolites, potentially giving rise to reactive oxygen species (ROS) by redox cycling. Some categories, e.g., peroxides and radiation, appear to generate ROS by non-ET routes. Other mechanisms are briefly addressed; a multifaceted approach to mode of action appears to be the most logical. Our framework should increase understanding and contribute to preventative measures, such as use of antioxidants. 相似文献
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Skulachev VP 《Biochemistry. Biokhimii?a》2007,72(12):1385-1396
Antioxidants specifically addressed to mitochondria have been studied for their ability to decelerate aging of organisms. For this purpose, a project has been established with participation of several research groups from Belozersky Institute of Physico-Chemical Biology and some other Russian research institutes as well as two groups from the USA and Sweden, with support by the "Mitotechnology" company founded by "RAInKo" company (O. V. Deripaska and Moscow State University). This paper summarizes the first results of the project and estimates its prospects. Within the framework of the project, antioxidants of a new type (SkQ) were synthesized comprising plastoquinone (an antioxidant moiety), a penetrating cation, and decane or pentane linker. Using planar bilayer phospholipid membranes, we selected SkQ derivatives with the highest penetrating ability, namely plastoquinonyl-decyl-triphenylphosphonium (SkQ1), plastoquinonyl-decyl-rhodamine 19 (SkQR1), and methylplastoquinonyl-decyl-triphenylphosphonium (SkQ3). Anti- and prooxidant properties of these substances and also of ubiquinone and ubiquinonyl-decyl-triphenylphosphonium (MitoQ) were tested on isolated mitochondria. Micromolar concentrations of cationic quinones are found to be very strong prooxidants, but in lower (sub-micromolar) concentrations they display antioxidant activity. The antioxidant activity decreases in the series SkQ1=SkQR1>SkQ3>MitoQ, so the window between the anti- and prooxidant effects is smallest for MitoQ. SkQ1 is rapidly reduced by complexes I and II of the mitochondrial respiratory chain, i.e. it is a rechargeable antioxidant. Extremely low concentrations of SkQ1 and SkQR1 completely arrest the H2O2-induced apoptosis in human fibroblasts and HeLa cells (for SkQ1 C1/2=1.10(-9) M). Higher concentrations of SkQ are required to block necrosis initiated by reactive oxygen species (ROS). In mice, SkQ1 decelerates the development of three types of accelerated aging (progeria) and also of normal aging, and this effect is especially demonstrative at early stages of aging. The same pattern is shown in invertebrates (drosophila and daphnia). In mammals, the effect of SkQs on aging is accompanied by inhibition of development of such age-related diseases as osteoporosis, involution of thymus, cataract, retinopathy, etc. SkQ1 manifests a strong therapeutic action on some already developed retinopathies, in particular, congenital retinal dysplasia. With drops containing 250 nM SkQ1, vision is recovered in 50 of 66 animals who became blind because of retinopathy. SkQ1-containing drops instilled in the early stage of the disease prevent the loss of sight in rabbits with experimental uveitis and restore vision to animals that had already become blind. A favorable effect is also achieved in experimental glaucoma in rabbits. Moreover, the pretreatment of rats with 0.2 nmol SkQ1 per kg body weight significantly decreases the H2O2-induced arrhythmia of the isolated heart. SkQ1 strongly reduces the damaged area in myocardial infarction or stroke and prevents the death of animals from kidney infarction. In p53-/- mice, SkQ1 decreases the ROS level in the spleen cells and inhibits appearance of lymphomas which are the main cause of death of such animals. Thus, it seems reasonable to perform clinical testing of SkQ preparations as promising drugs for treatment of age-related and some other severe diseases of human and animals. 相似文献
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Several lipoxygenase products were able to enhance ultraweak light emission and membrane permeability of human erythroleukemia K562 cells. In particular, 13-hydroperoxyoctadecadienoic acid (13-HPOD) was more effective than hydrophilic hydroperoxides, like H2O2 and tert-butyl hydroperoxide. The enhancement of luminescence induced by 13-HPOD was inhibited by superoxide and hydroxyl radical scavengers. The effect of 13-HPOD was inhibited by superoxide and hydroxyl radical scavengers. The effect of 13-HPOD was potentiated by the calcium ionophore A23187 and inhibited by the calcium chelator EDTA, and was observed also in liposomes containing unsaturated lipids. Cholesterol enrichment, which decreases the membrane fluidity, did not modify the effect of 13-HPOD on K562 cells. © 1997 John Wiley & Sons, Ltd. 相似文献
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Alison M. Sinclair Chris P. Trobacher Neeta Mathur John S. Greenwood Jaideep Mathur 《The Plant journal : for cell and molecular biology》2009,59(2):231-242
Plants survive against myriad environmental odds while remaining rooted to a single spot. The time scale over which plant cells can respond to environmental cues is seldom appreciated. Fluorescent protein-assisted live imaging of peroxisomes reveals that they respond within seconds of exposure to hydrogen peroxide and hydroxyl radicals by producing dynamic extensions called peroxules. Observations of the Arabidopsis flu mutant and treatments with xenobiotics eliciting singlet oxygen and superoxide reactive oxygen species suggest that the observed responses are specific for hydroxyl radicals. Prolonged exposure to hydroxyl radicals inhibits peroxule extension, and instead causes motile and spherical peroxisomes in a cell to become immotile and elongate several-fold. Expression of photo-convertible EosFP–PTS1 demonstrates that vermiform peroxisomes result from rapid stretching of individual peroxisomes, while the subsequent 'beads-on-a-string' morphology results from differential protein distribution within an elongated tubule. Over time, the beads in elongated peroxisomes also extend peroxules randomly before undergoing asynchronous, asymmetrical fission. Peroxule extension does not appear to involve cytoskeletal elements directly, but is closely aligned with and reflects the dynamics of ER tubules. Peroxisomal responses reveal a rapidly invoked subcellular machinery that is involved in recognition of hydroxyl stress thresholds, and its possible remediation locally through extension of peroxules or globally by increasing peroxisome numbers. A matrix protein retro-flow mechanism that supports peroxisome–ER connectivity in plant cells is suggested. 相似文献
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Isabella Nymann Westensee Karen Louise Thomsen Rajeshwar Prosad Mookerjee Brigitte Städler 《Advanced Biosystems》2024,8(4):2300547
Access to therapeutic strategies that counter cellular stress induced by reactive oxygen species (ROS) is an important, long-standing challenge. Here, the assembly of antioxidant artificial cells is based on alginate hydrogels equipped with non-native catalysts, namely platinum nanoparticles and an EUK compound. These artificial cells are able to preserve the viability and lower the intracellular ROS levels of challenged hepatic cells by removing peroxides from the extracellular environment. Conceptually, this strategy illustrates the potential use of artificial cells with a synthetic catalyst toward long-term support of hepatic cells and potentially other mammalian cells. 相似文献