水分胁迫下植物活性氧代谢研究进展(综述Ⅰ)

本文概述植物活性氧代谢的研究及水分胁迫下活性氧与植物抗旱性(抗水分胁迫)之间的关系;着重叙述水分胁迫响应中植物脱毒酶和抗氧化物的功能和机制;并对植物抗氧化基因的研究进展作了讨论。     

水分胁迫下植物体内OH的产生与细胞的氧化损伤

干旱是植物组织的一种重要的胁迫因子。它能干扰植物细胞中活性氧产生与清除的平衡,导致植物细胞遭受氧化胁迫。过去十多年来,人们对水分胁迫下植物体内活性氧的产生、活性氧对植物的伤害及植物保护系统的作用进行了大量的研究,取得了明显的进展［１～４］。然而,水分...     

水分胁迫积累的ABA诱导抗氧化防护系统的信号级联

水分胁迫是限制植物生长发育的主要胁迫因子之一。植物通过感受刺激,产生和传递信号、启动多种防御机制对水分胁迫做出响应和适应。脱落酸(ABA)作为一种重要的植物体内胁迫激素,参与了许多这样的反应。研究表明,ABA增强植物水分胁迫的忍耐力与ABA诱导的抗氧化剂防护系统有关;且细胞溶质Ca2 ([Ca2 ]i)、活性氧(ROS)等许多第二信使参与了ABA诱导的信号转导过程。本文就这些信号分子在水分胁迫积累的内源ABA诱导的抗氧化剂防护系统中的作用作一综述。     

植物响应水分胁迫的主要功能蛋白

植物对水分胁迫的响应蛋白根据其在抗逆机制中的作用不同分为调节蛋白和功能蛋白,本文就植物抵抗和适应水分胁迫的活性氧清除机制、渗透调节机制及膜修饰机制相关的主要功能蛋白作一综述。     

水分亏缺诱导的氧化胁迫和植物的抗氧化作用

简要介绍了水分胁迫下植物体内O2、H2O2、OH及1O2等活性氧的产生及其检测方法,评述了水分胁迫下植物内源抗氧化系统的作用,并对有关方面的研究作了展望。     

干旱与条锈病复合胁迫对小麦的生理影响

以抗旱性和抗病性不同的小麦为材料,以正常生长为对照,观察了病原菌和水分复合胁迫对小麦叶片相对含水量、活性氧代谢以及对抗氰呼吸的发生、运行的影响。讨论了在干旱与病原菌侵染复合胁迫下,抗氰呼吸在植物抗逆机制中所扮演的角色。复合胁迫下,抗病小麦显然具备更强的水分调控能力,而感病品种不能有效控制病叶水分散失。水分胁迫能引起抗氰呼吸的下降,但不能抵消因病原菌侵染引起的抗氰呼吸的增强,条锈菌侵染对小麦抗氰呼吸的影响远远大于水分胁迫。病原菌侵染和水分复合胁迫下,活性氧产生的速率表现出累加效应,而抗氰呼吸表现出和基质抗氧化酶的活性互补。植物交替氧化酶在干旱与病原菌侵染复合胁迫中具有重要的抗氧化功能,并可能调节着逆境下物质与能量需求间的矛盾。     

植物叶片衰老与氧化胁迫

叶片衰老是叶片生长发育进程中的最后阶段,与活性氧伤害有着密切的关系。介绍了植物叶片衰老过程中活性氧产生及清除系统的变化,讨论了对水分胁迫与氧化胁迫的交叉抗性,并对下一步的研究作出了展望     

植物叶片衰老与氧化胁迫

叶片衰老是叶片生长发育进程中的最后阶段,与活性氧伤害有着密切的关系。介绍了植物叶片衰老过程中活性氧产生及清除系统的变化,讨论了对水分胁迫与氧化胁迫的交叉抗性,并对下一步的研究作出了展望。     

植物-病原物互作过程中的活性氧

活性氧与水分胁迫、环境污染、衰老及低温等方面的关系已有大量的报道。在植物－病原物互作过程中,病原物作为一种特殊的胁迫因子而起作用。近年来对植物一病原物互作过程中活性氧的研究已成为植物病理生理学研究的一个热点,本文对此作一综述。１植物─-病原物巨作过程的活性氧的产生在正常情况下,植物体内活性氧（ａｃｔｉｖｅｏｘｙｇｅｎｓｐｅｃｉｅｓ,ＡＯＳ,包括超氧阴离子Ｏ－２;过氧化氢Ｈ２Ｏ２;氢氧自由基ＯＨ;单线态氧１Ｏ２）处于低水平状态,在植物过敏性反应（ＨＲ）早期阶段常出现ＡＯＳ迅速释放,这种ＡＯＳ迅速释…     

脱落酸与植物细胞的抗氧化防护

水分胁迫是一种影响植物生长发育、限制植物产量的重要胁迫因子.植物能够通过感知刺激、产生和传导信号、启动各种防护机制来响应与适应水分胁迫.植物激素脱落酸(ABA)作为一种胁迫信号,在调节植物对水分胁迫的反应中起着重要的作用.ABA不仅能诱导气孔关闭,而且能诱导编码耐脱水蛋白的基因表达.正在增加的证据显示,ABA增强水分胁迫的耐性与其诱导抗氧化防护系统有关.本文综述了ABA在诱导活性氧(ROS)产生、调节抗氧化酶基因表达以及增强抗氧化防护系统方面的作用,着重讨论了在ABA诱导的抗氧化防护过程中Ca2 、NADPH氧化酶与ROS之间的交谈机制.     

Role for dopamine in malonate-induced damage in vivo in striatum and in vitro in mesencephalic cultures

Defects in mitochondrial energy metabolism have been implicated in the pathology of several neurodegenerative disorders. In addition, the reactive metabolites generated from the metabolism and oxidation of the neurotransmitter dopamine (DA) are thought to contribute to the damage to neurons of the basal ganglia. We have previously demonstrated that infusions of the metabolic inhibitor malonate into the striata of mice or rats produce degeneration of DA nerve terminals. In the present studies, we demonstrate that an intrastriatal infusion of malonate induces a substantial increase in DA efflux in awake, behaving mice as measured by in vivo microdialysis. Furthermore, pretreatment of mice with tetrabenazine (TBZ) or the TBZ analogue Ro 4-1284 (Ro-4), compounds that reversibly inhibit the vesicular storage of DA, attenuates the malonate-induced DA efflux as well as the damage to DA nerve terminals. Consistent with these findings, the damage to both DA and GABA neurons in mesencephalic cultures by malonate exposure was attenuated by pretreatment with TBZ or Ro-4. Treatment with these compounds did not affect the formation of free radicals or the inhibition of oxidative phosphorylation resulting from malonate exposure alone. Our data suggest that DA plays an important role in the neurotoxicity produced by malonate. These findings provide direct evidence that inhibition of succinate dehydrogenase causes an increase in extracellular DA levels and indicate that bioenergetic defects may contribute to the pathogenesis of chronic neurodegenerative diseases through a mechanism involving DA.     

Scurvy in capybaras bred in captivity in Argentine

In order to determine if the absence of vitamin C in the diet of capybaras (Hydrochoerus hydrochaeris) causes scurvy, a group of seven young individuals were fed food pellets without ascorbic acid, while another group of eight individuals received the same food with 1 g of ascorbic acid per animal per day. Animals in the first group developed signs of scurvy-like gingivitis, breaking of the incisors and death of one animal. Clinical signs appeared between 25 and 104 days from the beginning of the trial in all individuals. Growth rates of individuals deprived of vitamin C was considerably less than those observed in the control group. Deficiency of ascorbic acid had a severe effect on reproduction of another population of captive capybaras. We found that the decrease in ascorbic acid content in the diet affected pregnancy, especially during the first stages. The results obtained suggest that it is necessary to supply a suitable quantity of vitamin C in the diet of this species in captivity.     

Changes in lactate dehydrogenase activity in chicken tissues in hyperthyreosis in ontogenesis

The lactate dehydrogenase activity in reactions of lactate oxidation and synthesis was studied in subfractions of the chicken brain, heart and liver at the embryonal, early postembryonal and adult stages of development after thyroxine administration. It has been shown that during embryogenesis thyroxine predominantly enhanced the rate of lactate oxidation in the mitochondrial tissues. A marked increase in the lactate synthesis was found in cytoplasm of the adult chicken tissues. Specificity of enzyme activity alterations was detected in the chicken brain during ontogenesis after thyroxine administration.     

SSTR5 ablation in islet results in alterations in glucose homeostasis in mice

Somatostatin (SST) peptide is a potent inhibitor of insulin secretion and its effect is mediated via somatostatin receptor 5 (SSTR5) in the endocrine pancreas. To investigate the consequences of gene ablation of SSTR5 in the mouse pancreas, we have generated a mouse model in which the SSTR5 gene was specifically knocked down in the pancreatic beta cells (betaSSTR5Kd) using the Cre-lox system. Immunohistochemistry analysis showed that SSTR5 gene expression was absent in beta cells at three months of age. At the time of gene ablation, betaSSTR5Kd mice demonstrated glucose intolerance with lack of insulin response and significantly reduced serum insulin levels. Insulin tolerance test demonstrated a significant increase of insulin clearance in vivo at the same age. In vitro studies demonstrated an absence of response to SST-28 stimulation in the betaSSTR5Kd mouse islet, which was associated with a significantly reduced SST expression level in betaSSTR5Kd mice pancreata. In addition, betaSSTR5Kd mice had significantly reduced serum glucose levels and increased serum insulin levels at 12 months of age. Glucose tolerance test at an older age also indicated a persistently higher insulin level in betaSSTR5Kd mice. Further studies of betaSSTR5Kd mice had revealed elevated serum C-peptide levels at both 3 and 12 months of age, suggesting that these mice are capable of producing and releasing insulin to the periphery. These results support the hypothesis that SSTR5 plays a pivotal role in the regulation of insulin secretion in the mouse pancreas.