活性氧所致超氧化物歧化酶肽链断裂的观察

探究活性氧所致铜锌超氧化物歧化酶（ＳＯＤ）肽链断裂的情况,将过氧化氢或抗坏血酸－Ｆｅ（Ⅲ）分另竽马来酰亚胺标记的ＳＯＤ,然后用高效液相反应相色谱（ＲＰ－ＨＰＬＣ）分析,经１ｍｍｏｌ／ＬＨ２Ｏ２处理后ＳＯＤ用ＲＰ－ＨＰＬＣ分离出二个肽段,用顺磁共振检测显示只有一个肽段具有马来酰亚胺信号经５ｍｍｏｌ／ＬＨ２Ｏ２处理后ＳＯＤ有四个肽段生成,其中有一个肽段具有马来酰亚胺信号,用５ｍｍｏｌ／Ｌ抗坏血酸和０．     

NMR法研究天花粉蛋白TDK肽片段的溶液构象

用ＨＮＭＲ法测定ＴＤＫ肽在Ｈ２Ｏ（ＨＯＤＫ）,５０％六氟丙醇（ＦＰＤＫ）和２ｍｏｌ／ＬＧｕ．ＨＣｌ（ＧＵＤＫ）溶液构象。在ＨＯＤＫ和ＦＰＤＫ中,ＴＤＫ肽的两段序列Ａｓｐ０－Ｉｌｅ４,Ｓｅｒ９－Ｉｌｉ１７分别具有较稳定的α－螺旋含量;而ＧＵＤＫ的ＳＡＬＳ序列仍能检测到有序残存结构。并假设ＳＡＬＳ序列是肽链形成二级结构的原始核心。     

HMR法研究天花粉蛋白TDK肽片段的溶液构象

用１ＨＮＭＲ法测定ＴＤＫ肽在Ｈ２Ｏ（ＨＯＤＫ）,５０％六氟丙醇（ＦＰＤＫ）和２ｍｏｌ／ＬＧｕ·ＨＣｌ（ＧＵＤＫ）中的溶液构象。在ＨＯＤＫ和ＦＰＤＫ中,ＴＤＫ肽的两段序列Ａｓｐ０～Ｉｌｅ４,Ｓｅｒ９～Ｉｌｅ１７分别具有较稳定的α－螺旋含量;而ＧＵＤＫ的ＳＡＬＳ序列仍能检测到有序残存结构。并假设ＳＡＬＳ序列是肽链形成二级结构的原始核心。     

用顺磁共振及自旋标记研究活性氧对铜锌超氧化物歧化酶结构的影响

用抗坏血酸－Ｆｅ（Ⅲ）或过氧化氢为活性氧体系分别作用于牛红细胞铜锌超氧化物歧化酶（ＣｕＺｎ－ＳＯＤ）,发现酶活性降低的同时,其活性中心中Ｃｕ（Ⅱ）被还原成Ｃｕ（Ⅰ）。进一步用抗坏血酸－Ｆｅ（Ⅲ）或过氧化氢作用于马来酰亚胺标记ＣｕＺｎ－ＳＯＤ,用ＥＳＲ测定的结果表明酶分子亚基的缔合受到影响。结果提示酶的失活与活性中心中Ｃｕ（Ⅱ）的还原及酶构象的变化有关。     

H_2O_2－Fe~（3＋）所致人淋巴细胞DNA双链断裂损伤

采用脉冲电场凝胶电泳法检测Ｈ２Ｏ２－Ｆｅ（３＋）体系产生的ＯＨ对人淋巴细胞ＤＮＡ的双链断裂损伤．Ｈ２Ｏ２－Ｆｅ（３＋）浓度与ＤＮＡ双链断裂呈明显量效关系;随ＯＨ作用时间延长,细胞ＤＮＡ双链断裂加重;过氧化氢酶对ＯＨ损伤有明显抑制作用．脉冲电场凝胶电泳法可检测到的Ｈ２Ｏ２和ＦｅＣｌ３引起细胞ＤＮＡ双链断裂的最低浓度为０．３ｍｍｏｌ／Ｌ和６μｍｏｌ／Ｌ．     

箬叶多糖及其化学修饰物、亚硒酸钠和GSH对Cu~(2+)诱导的LDL氧化修饰的保护作用

研究了箬叶多糖ＦⅢ－ａ及其化学修饰物、亚硒酸钠和ＧＳＨ对Ｃｕ２＋诱导的低密度脂蛋白氧化修饰的保护作用．其结果表明箬叶多糖、硫酸酯多糖、硒酸酯多糖可显著抑制脂质过氧化产物（ＴＢＡＲＳ）及荧光物质的生成,彼此之间无明显差异．但对ＶＥ的消耗有着不同的保护作用,其顺序是ＦⅢ－ａ＞Ｓ－ＦⅢ－ａ＞Ｓｅ－ＦⅢ－ａ,并且具有明显的量效关系．硒或ＧＳＨ对Ｃｕ２＋诱导的ＬＤＬ氧化修饰无明显的抑制,但联合使用在０．１２５ｍｍｏｌ／ＬＮａ２ＳｅＯ３和０．２ｍｍｏｌ／ＬＧＳＨ及１２．５μｍｏｌ／ＬＮａ２ＳｅＯ３和０．０２ｍｍｏｌ／ＬＧＳＨ的浓度下能强烈地抑制ＴＢＡＲＳ的生成,甚至比正常的ＬＤＬ还要低．但是对ＶＥ的消耗只有较弱的保护作用,硒酸酯多糖与此相似．Ｎａ２ＳｅＯ３在０．１２５ｍｍｏｌ／Ｌ时可以明显抑制荧光物质的生成．     

PSI颗粒中LHPC—I含量与类囊体膜状态的关系

菠菜叶绿体经低渗ＫＣＬ或１ｍｍｏｌ／ＬＥＤＴＡ溶液处理后,再用毛地黄苷法提取ＰＳＩ颗粒,前者ｃｈｌ ａ／ｂ高于后者。而ＥＤＴＡ－ＰＳＩ颗粒的耗氧活力极强,低温荧光发射具很强的Ｆ６８０。ＳＤＳ－凝胶电脉谱带也表明ＥＤＴＡ－ＰＳＩ颗粒具较浓的２０－２４ｋｄ谱带。凡此都说明ＥＤＴＡ－ＰＳＩ颗粒的ＬＨＰＣ－Ｉ含量远超过ＫＣＬ－ＰＳＩ颗粒的。而叶绿体经ＭｇＣｌ２、ＫＣｌ、ＥＤＴＡ溶液处理后,基粒类囊体膜垛叠     

L-SOD发挥活性作用的可能机制

氧化剂、还原剂处理前后,Ｌ－ＳＯＤ的活性及紫外光谱发生变化,Ｈ２Ｏ２使Ｆｅ（Ⅲ）吸收增强,同时钝化Ｌ－ＳＯＤ的活性;加入保险粉后,Ｌ－ＳＯＤ重新活化,Ｆｅ（Ⅲ）吸收减弱．ＮＥＭ封闭Ｃｙｓ后,Ｌ－ＳＯＤ紫外吸收谱发生变化,且活性减弱．说明Ｆｅ辅基及Ｃｙｓ是活性发挥的必需基团．     

多胺对裸大麦离体叶片活性氧代谢的影响

裸大麦离体叶片分别在光照和暗诱导下,以腐胺、亚精胺和精胺等３种多胺,分别用２ｍｍｏｌ／Ｌ,０．５ｍｍｏｌ／Ｌ,和０．２ｍｍｏｌ／Ｌ３种浓度处理,均使丙二醛累积减少,延缓过氧化氢酶和ＳＯＤ活性的下降。以ＣａＣｌ２（５ｍｍｏｌ／Ｌ）＋Ｓｐｄ（０．５ｍｍｏｌ／Ｌ）处理,可降低Ｓｐｄ（０．５ｍｍｏｌ／Ｌ）的效应,因此多胺延缓离体叶片衰老与活性氧代谢有关,并且进入细胞时,与Ｃａ发生竞争。     

PSI颗粒中LHPC－I含量与类囊体膜状态的关系

菠菜叶绿体经低渗ＫＣｌ或１ｍｍｏｌ／ＬＥＤＴＡ溶液处理后,再用毛地黄苷法提取ＰＳＩ颗粒,前者ｃｈｌａ／ｂ高于后者。而ＥＤＴＡ－ＰＳＩ颗粒的耗氧活力极强,低温荧光发射具很强的Ｆ６８０。ＳＤＳ－凝胶电泳谱带也表明ＥＤＴＡ－ＰＳＩ颗粒具较浓的２０～２４ｋｄ谱带。凡此都说明ＥＤＴＡ－ＰＳＩ颗粒的ＬＨＰＣ～Ｉ含量远超过ＫＣＩ－ＰＳＩ颗粒的。而叶绿体经ＭｇＣｌ２、ＫＣｌ、ＥＤＴＡ溶液处理后,基粒类囊体膜垛叠的情况不同,它们的ｃｈｌａ／ｂ比值依次下降。说明ＰＳＩ颗粒中ＬＨＰＣ－Ｉ含量与提取时类囊体膜垛叠状态有关。     

Participation of H2O2 in Enhancement of Cold Chilling by Salicylic Acid in Banana Seedlings

The possible physiological mechanism of enhancement of cold tolerance by salicylic acid (SA) in banana seedlings (Musa acuminata cv. Williams 8188) was explored. Measurements of leakage electrolyte after 2 d of recovery at 30/22 ℃ (day/night) following 3 d of cold stress at 7 ℃ showed that pretreatment with hydroponic solution containing SA 0.3－0.9 mmol/L as foliar spray under normal growth conditions (30/22 ℃) could significantly enhance cold tolerance of banana plants. The highest enhancing effect of SA occurred at 0.5 mmol/L and it showed the lowest leakage rate of electrolyte or smaller leaf wilting area after 2 d of recovery at normal temperature from 3 d of 7 ℃ or 5 ℃ cold stress. Higher concentrations (≥2.5 mmol/L) of SA, however, caused more electrolyte leakage, indicating that they aggravated chilling damage. Enhanced cold tolerance by SA could be related to H2O2 metabolism. Compared with water-treated seedlings (control), SA 0.5 mmol/L treatment inhibited activities of catalase (CAT) and ascorbate peroxidase (APX), increased peroxidase (POX) activity, but did not affect the activity of superoxide dismutase (SOD) under normal growth conditions, and these changes might lead to an accumulation of H2O2, whereas SA pretreatment enhanced the activities of CAT and APX, and reduced the increase in productions of H2O2 and thiobarbituric acid-reaction substances (TBARS) during subsequent 7 ℃ cold stress and recovery periods. Exogenous H2O2 treatments (1.5－2.5 mmol/L) also increased cold tolerance of banana seedlings. Furthermore, pretreatment of banana seedlings with dimethylthiourea (a trap for H2O2) significantly inhibited cold tolerance induced by SA. These results suggested that endogenous H2O2 may be required for SA-enhanced cold tolerance. The significance of the interaction of SA, H2O2 and H2O2-metabolizing enzymes during cold stress has been discussed.     

水杨酸调节决明根系铝诱导的氧化胁迫

水杨酸(Salicylicacid,SA)在调节生物和非生物胁迫,诱导植物氧化胁迫中起着重要的作用,但对铝诱导的氧化胁迫的调节作用尚不清楚。本文研究了SA对决明(CassiatoraL.)根系铝诱导的H2O2和O2-含量变化,包括抗氧化酶活性以及细胞质膜过氧化胁迫变化的影响。介质中20mmol/L铝处理增加质膜透性,导致MDA含量上升及根尖细胞Evansblue染色加重(测定细胞死亡),而外源供给5mmol/LSA能缓解铝诱导的氧化胁迫。SA处理能明显降低根尖H2O2和O2-的含量,但两者含量与CAT、APX和GR的活性变化没有相关性,而与POD活性增加有关。水杨酸诱导H2O2含量的下降与抑制O2-积累和SOD活性有关。结果表明,SA可能激活一条由H2O2介导的、依赖于POD的抗氧化机制来缓解脂质的过氧化作用。     

Accumulation of Superoxide Radical in Corn Leaves During Waterlogging

The changes in superoxide (O2-) production, hydrogen peroxide (H2O2) content and active oxygen scavenging system in corn (Zea mays L. ) leaves under waterlogging stress were investigated to explore the relationship between O2- accumulation and waterlogging injury. Corn plants were grown in pots in a controlled environment. The results showed that prolonged waterlogging treatment conducted at 4-leaf stage caused a significant increase in the production of O2- and H2O2, while the extent of O2- change was more than that of H2O2. Malondialdehyde (MDA) accumulation, chlorophyll loss and electrolye leakage were positively correlated with O2- production in corn waterlogged leaves. Foliage spraying with 0. 1 mmol/L paraquat (02- producer) at the start of waterlogging treatment led to a significant increase in 02-, H202 and MDA levels. The addition of DDTC (SOD activity inhibitor) aggravated 02- formation in waterlogged leaves. Waterlogging apperantly reduced the activities of SOD. catalase (CAT), ascorbate peroxidase (AP) and the concentrations of ascorbic acid (ASA) and glutathione (GSH). It was noted that the decline in SOD activity proceeded the diminishment of H2O2 scavengers in chloroplasts (i. e. AP, AsA and GSH). The present findings suggest that O2- is involved in waterlogging damage, and excessive accumulation of 02- is due to the reduced SOD activity.     

Species and Organ Diversity in the Effects of Hydrogen Peroxide on Superoxide Dismutase Activity In Vitro

Superoxlde dlsmutase （SOD） is ubiquitous in aerobic organisms and constitutes the first link In the enzyme scavenging system of reactive oxygen species. In the present study, species and organ diversity of SOD activity In a solution and In an in-gel assay system, as well as the effects of hydrogen peroxide （H202） on SOD activity, were Investigated. In a solution assay system, SOD activity of jackfruIt root, shoot, leaves, axes, and cotyledons, of maize embryos and endosperms, of mung bean leaves and seeds, of sacred lotus axes and cotyledons, and of rice and wheat leaves was Increased by 1-15 mmol/L H2O2. However, SOD activity In rice root and seeds, maize roots and leaves, mung bean roots and shoots, and wheat seeds was decreased by 1-15 mmol/L H2O2. The SOD activity of wheat root and soybean roots, leaves, axes, and cotyledons was Increased by 1-4 mmol/L H2O2, but was decreased by concentrations of H2O2 〉4 mmol/L. The SOD activity of soybean shoots was not affected by 1-15 mmol/L H2O2. The SOD activity In crude mltochondrla of jackfruIt, maize, and upas seeds, as well as In purified mitochondria of jackfruIt, was also Increased by 1-15 mmol/L H2O2. In the In-gel assay system, the SOD In jackfruIt cotyledons was comprised of Mn-SOD, Cu/Zn-SOD, and Fe-SOD, the crude mltochondria of jackfruit seeds and maizes embryo was comprised of Mn-SOD and Cu/ Zn-SOD, and the crude mltochondria of maize seeds was comprised of Mn-SOD only. In the present study, H2O2 markedly Inhibited Cu/Zn-SOD and Fe-SOD activity.     

Identification of isomerization and racemization of aspartate in the Asp-Asp motifs of a therapeutic protein

A thermally stressed Fab molecule showed a significant increase of basic variants in imaged capillary isoelectric focusing (iCIEF) analysis. Mass analyses of the reduced protein found an increase in −18 Da species from both light chain and heavy chain. A tryptic peptide map identified two isoAsp-containing peptides, both containing Asp–Asp motifs and located in complementarity-determining regions (CDRs) of light chains and heavy chains, respectively. The approaches of hydrolyzing succinimide in H₂¹⁸O followed by tryptic digestion were used to label and identify the sites of isomerization. This method enabled identification of the isomerization site by comparing the MS/MS spectra of isomerized peptides with and without ¹⁸O incorporation. The light chain peptide L2 VTITCITSTDID₁₂DDMNWYQQKPGK underwent simultaneous isomerization and recemization at residue Asp-12 after thermal stress as evidenced by the coinjection of synthetic peptide L2 with l-Asp-12, l-isoAsp-12, d-Asp-12, and d-isoAsp-12, respectively. A thermal stress study of the synthetic peptide (l-)L2 showed that the isomerization and racemization did not occur, indicating that the Asp degradation in this Asp–Asp motif is more related to the protein conformation than the primary sequence. Another isomerization site was identified as Asp-24 in the heavy chain peptide H5 QAPGQGLEWMGWINTYTGETTYAD₂₄DFK. No other isomerizations were detected in CDR peptides containing either Asp–Ser or Asp–Thr motifs.     

Effects of Exogenous Spermidine on Antioxidant System Responses of Typha latifolia L. Under Cd^2＋ Stress

The effects of foliar spraying with spermidine (Spd), ranging in concentration from 0.25 to 0.50 mmol/L, on the antioxidant system under Cd^2 stress (range 0.1- 0.2 mmol/L Cd^2 ) in Typha latifolia L. grown hydroponically were investigated in order to offer a referenced evidence for an understanding of the mechanism by which polyamines (PAs) relieve the damage to plants by heavy metal and improve the phytoremediation efficiency of heavy metal-contaminated water. The results showed that Cd^2 stress induced oxidative injury, as evidenced by an increase in the generation of superoxide anion (O2), as well as the hydrogen peroxide (H2O2) and malondialdehyde (MDA) contents in both leaves and caudices. With the exception of superoxide dismutase (SOD) activity in the leaves, an increase in the activities of catalase (CAT), guaiacol peroxidase (GPX), and glutathione reductase (GR) was observed in both leaves and caudices, SOD activity was increased in caudices, and ascorbate peroxidase (APX) activity was increased in leaves following Cd^2 treatment. The reduced glutathione (GSH) content in both leaves and caudices and the reductive ascorbate content in leaves was obviously increased, which were prompted by the application of exogenous Spd. Spraying with Spd increased the activity of GR and APX in both leaves and caudices, whereas the activity of SOD, CAT, and GPX was increased only in caudices following spraying with Spd. The generation of O2 and the H2O2 and MDA content in both leaves and caudices decreased after spraying with Spd. The decrease in MDA was more obvious following the application of 0.25 than 0.50 mmol/L Spd. It is supposed that exogenous Spd elevated the tolerance of T. latifolia under Cd^2 stress primarily by increasing GR activity and the GSH level.     

Ex-vivo and in vitro protective effects of kolaviron against oxygen-derived radical-induced DNA damage and oxidative stress in human lymphocytes and rat liver cells

The present study reports the protective effects of kolaviron, a Garcinia biflavonoid from the seeds of Garcinia kola widely consumed in some West African countries against oxidative damage to molecular targets ex-vivo and in vitro. Treatment with hydrogen peroxide (H2O2) at a concentration of 100 micromol/L increased the levels of DNA strand breaks and oxidized purine (formamidopyrimidine glycosylase (FPG) and pyrimidine (endonuclease III (ENDO III) sites) bases in both human lymphocytes and rat liver cells using alkaline single cell gel electrophoresis (the comet assay). Kolaviron was protective at concentrations between 30-90 micromol/L and decreased H2O2-induced DNA strand breaks and oxidized bases. Neither alpha-tocopherol nor curcumin decreased H2O2-induced DNA damage in this assay. In lymphocytes incubated with Fe3+/GSH, Fe3+ was reduced to Fe2+ by GSH initiating a free radical generating reaction which induced 11.7, 6.3, and 4.9 fold increase respectively in strand breaks, ENDO III and FPG sensitive sites compared with control levels. Deferoxamine (2 mmol/L), an established iron chelator significantly inhibited GSH/Fe3+-induced strand breaks and oxidized base damage. Similarly, kolaviron at 30 and 90 micromol/L significantly attenuated GSH/Fe3+-induced strand breaks as well as base oxidation. Kolaviron (100 mg/kg bw) administered to rats for one week protected rat liver cells against H2O2-induced formation of strand breaks, ENDO III, and FPG sensitive sites, Fe3+/EDTA/ascorbate-induced malondialdehyde formation and protein oxidation using gamma-glutamyl semialdehyde (GGS) and 2-amino-adipic semialdehyde (AAS) as biomarkers of oxidative damage to proteins. We suggest that kolaviron exhibits protective effects against oxidative damage to molecular targets via scavenging of free radicals and iron binding. Kolaviron may therefore be relevant in the chemoprevention of oxidant-induced genotoxicity and possibly human carcinogenesis.     

Salinity up-regulates the antioxidative system in root mitochondria and peroxisomes of the wild salt-tolerant tomato species Lycopersicon pennellii

The effect of salinity on the antioxidative system of root mitochondria and peroxisomes of a cultivated tomato Lycopersicon esculentum (Lem) and its wild salt-tolerant related species L. pennellii (Lpa) was studied. Salt stress induced oxidative stress in Lem mitochondria, as indicated by the increased levels of lipid peroxidation and H(2)O(2). These changes were associated with decreased activities of superoxide dismutase (SOD) and guaiacol peroxidases (POD) and contents of ascorbate (ASC) and glutathione (GSH). By contrast, in mitochondria of salt-treated Lpa plants both H(2)O(2) and lipid peroxidation levels decreased while the levels of ASC and GSH and activities of SOD, several isoforms of ascorbate peroxidase (APX), and POD increased. Similarly to mitochondria, peroxisomes isolated from roots of salt-treated Lpa plants exhibited also decreased levels of lipid peroxidation and H(2)O(2) and increased SOD, ascorbate peroxidase (APX), and catalase (CAT) activities. In spite of the fact that salt stress decreased activities of antioxidant enzymes in Lem peroxisome, oxidative stress was not evident in these organelles.     

A comparison of chemical systems for luminometric determination of antioxidant capacity towards individual reactive oxygen species.

The aim of the study was to investigate the reactive oxygen species (ROS) production in the hypoxanthine-xanthinoxidase (HX-XO), hydrogen peroxide-ferrous sulphate (H2O2-FeSO4) and hydrogen peroxide (H2O2) systems by using various concentrations of ROS scavengers, such as superoxide dismutase (SOD), dimethylthiourea (DMTU) or catalase (CAT). Luminol (0.8 mmol/L) was dissolved in a borate buffer, pH 9.0, and was used as a luminophor in the chemiluminescence (CL) measurements. In the HX-XO system SOD, CAT and DMTU deepened the CL signal, whereas in the H2O2-FeSO4 system, only CAT and DMTU deepened the CL signal, and in the H2O2 system SOD and CAT increased and DMTU deepened the CL signal. Electron spin resonance (ESR) measurements were performed only in the H2O2-FeSO4 system. 5,5-dimethyl-pyrroline-N-oxide (DMPO) was used as a spin trap. According to typical ESR spectra, .OH was produced in this chemical system. It can be concluded that the chemical systems do not produce single reactive oxygen species but a mixture of them.     

蜡样芽胞杆菌M22铜锌超氧化物歧化酶基因的克隆及表达

采用PCR技术 ,从蜡样芽胞杆菌M2 2基因组DNA扩增到长 132 0bp的基因片段 .该片段含编码 179个氨基酸残基的开放阅读框 ,推定蛋白序列与报道的BacillusanthracisCu ,Zn SOD序列有96 %同源性 ,其中N端 16个氨基酸残基推定为信号肽序列 .将Cu ,Zn SOD编码区插入载体pET 2 2b(+ )构建表达载体pET 2 2b sodC ,转化E .coliBL2 1(DE3) ,IPTG诱导融合蛋白表达 .SDS PAGE显示 ,融合蛋白表观分子质量约 2 4kD ,占菌体裂解液中总蛋白的 2 1 3% .将此表达载体转入SOD缺陷型大肠杆菌PN132 ,赋予了该菌株对paraquat的抗性 .NBT光抑制法测定SOD活性显示 ,与PN132无SOD活性相比 ,重组子在IPTG诱导前SOD活性极低 (1 79U/mg) ,诱导后活性高达 6 9 76U/mg .非变性电泳结果显示 ,该酶活性不同程度地受到 5mmol LH2 O2 和 5mmol LKCN的抑制