Natural variation in the cytochrome c oxidase subunit 5B OsCOX5B regulates seed vigor by altering energy production in rice

Seed vigor is a crucial trait for the direct seeding of rice.Here we examined the genetic regulation of seed vigor traits in rice,including germination index(GI)and germination potential(GP),using a genome-wide association study approach.One major quantitative trait locus,qGI6/qGP6,was identified simultaneously for both GI and GP.The candidate gene encoding the cytochrome c oxidase subunit 5B(OsCOX5B)was validated for qGI6/qGP6.The disruption of OsCOX5B caused the vigor traits to be significantly lower in Oscox5b mutants than in the japonica Nipponbare wild type(WT).Gene co-expression analysis revealed that OsCOX5B influences seed vigor mainly by modulating the tricarboxylic acid cycle process.The glucose levels were significantly higher while the pyruvic acid and adenosine triphosphate levels were significantly lower in Oscox5b mutants than in WT during seed germination.The elite haplotype of OsCOX5B facilitates seed vigor by increasing its expression during seed germination.Thus,we propose that OsCOX5B is a potential target for the breeding of rice varieties with enhanced seed vigor for direct seeding.

Cancer and age related colonic crypt deficiencies in cytochrome c oxidase Ⅰ

AIM: To investigate whether defi ciency of expressionof cytochrome c oxidase I (CcOI) in colonic crypts is associated with colon cancer.METHODS: The pattern and level of expression of CcOI in non-neoplastic colonic crypts,and in dysplastic tissues,was assessed using standard immunohis-tochemical methods.Biopsies were obtained from individuals undergoing colonoscopies for screening purposes or for a medically indicated reason.Tissue samples were also obtained from surgical colonic resections.Samples from resections were taken from colonic mucosa 1 and 10 cm from tumors and from the tumors themselves.Samples were evaluated for frequency of crypts with reduced or absent expression of CcOI.In most crypts the loss was apparent throughout the entire crypt,while in a small minority the loss was segmental.The strong immunoreactivity using this monoclonal antibody makes the scoring unambiguous.The percent of crypts with reduced or absent expression of CcOI or (infrequent) segmented loss of expression was then calculated.Data analyses were performed using SPSS statistical package 17.0.RESULTS: The average frequency of CcOI deficient crypts (CcOI-DC) is low in individuals between 20 and 39 years of age,with 0.48% ± 0.40% CcOI-DC for women and 1.80% ± 0.35% for men.CcOI-DC increases after age 40 years,so that between the ages of 40 and 44 years the average frequency of CcOI- DC goes up to 5.89% ± 0.84% in women and 2.15% ± 1.27% in men.By 80-84 years of age,the average frequency of CcOI-DC goes up in women to 15.77% ± 0.97% and in men to 22.6% ± 0.65%.The increases in CcOI-DC from ages 40-44 years compared to 80-84 years in women and men are significantly different with P < 0.01.For women over age 60 years,deficiency of CcOI expression is greater in those women who have had a cancer in their colon.The frequency of CcOI-DC,measured in men,increased in tissues adjacent to colon cancer,being 4.03% ± 0.27% in individuals free of neoplasia in the age range 55-64 yearsand 14.13% ± 0.35% in resected histologically normal tissue of men with cancer in the same age range,P < 0.001.Similar signifi cant differences were noted in older age ranges.The frequency of CcOI-DC crypts in the cecum and sigmoid colon of an individual are signifi cantly correlated,with an R2 = 0.414 for women and R2 = 0.528 for men,P < 0.001.This suggests that the factors determining the level of CcOI deficiency act throughout the colon.Most defective crypts are in clusters of two or more,a likely consequence of crypt fission.In the non-neoplastic margins of cancers,crypts are frequently defi cient for CcOI,and such crypts may appear in large clusters,some containing more than 100 defi cient crypts.CcOI defi ciency is also apparent in colon cancers and sometimes involves a large section of the tumor.Overall,CcOI deficient cells can be visualized in segments of crypts,in whole crypts that increase in frequency with age,in crypts undergoing f ission,in clusters of crypts where the clusters increase in size with age,in increased frequency near tumors,in large clusters in the intimate margins of tumors,and in the tumors themselves.There is no clear dividing line between early stages that can be considered aspects of aging and later stages that can be considered aspects of the progression to cancer.This ambiguity may re ect a rather general situation leading to adult cancer where the early stages of cellular change appear to be relatively innocuous features of the aging process but over decades may evolve into malignancy.CONCLUSION: CcOI defi cient crypts increase in frequency with age,and clusters of defi cient crypts are associated with,and may give rise to,colon cancer.

Hippocampal mitochondrial cytochrome C oxidase activity and gene expression in a rat model of chronic cerebral ischemia

The present study established a rat model of chronic cerebral ischemia using bilateral common carotid artery permanent ligation to analyze cytochrome C oxidase activity and mRNA expression in hippocampal mitochondria. Results showed significantly decreased cytochrome C oxidase activity and cytochrome C oxidase II mRNA expression with prolonged ischemia time. Further analysis revealed five mitochondrial cytochrome C oxidase II gene mutations, two newly generated mutations, and four absent mutational sites at 1 month after cerebral ischemia, as well as three mitochondrial cytochrome C oxidase III gene mutations, including two newly generating mutations, and one disappeared mutational site at 1 month after cerebral ischemia. Results demonstrated that decreased cytochrome C oxidase gene expression and mutations, as well as decreased cytochrome C oxidase activity, resulting in energy dysmetabolism, which has been shown to be involved in the DatholoQical Process of ischemic brain iniurv.

Simplifying the Analysis of Enzyme Kinetics of Cytochrome <i>c</i>Oxidase by the Lambert-W Function

Conventional analysis of enzyme-catalyzed reactions uses a set of initial rates of product formation or substrate decay at a variety of substrate concentrations. Alternatively to the conventional methods, attempts have been made to use an integrated Michaelis-Menten equation to assess the values of the Michaelis-Menten KM and turnover kcat constants directly from a single time course of an enzymatic reaction. However, because of weak convergence, previous fits of the integrated Michaelis-Menten equation to a single trace of the reaction have no proven records of success. Here we propose a reliable method with fast convergence based on an explicit solution of the Michaelis-Menten equation in terms of the Lambert-W function with transformed variables. Tests of the method with stopped-flow measurements of the catalytic reaction of cytochrome c oxidase, as well as with simulated data, demonstrate applicability of the approach to de termine KM and kcat constants free of any systematic errors. This study indicates that the approach could be an alternative solution for the characterization of enzymatic reactions, saving time, sample and efforts. The single trace method can greatly assist the real time monitoring of enzymatic activity, in particular when a fast control is mandatory. It may be the only alternative when conventional analysis does not apply, e.g. because of limited amount of sample.

Regulation of cytochrome c oxidase contributes to health and optimal life

The generation of cellular energy in the form of ATP occurs mainly in mitochondria by oxidative phosphorylation.Cytochrome c oxidase(CytOx),the oxygen accepting and rate-limiting step of the respiratory chain,regulates the supply of variable ATP demands in cells by“allosteric ATP-inhibition of CytOx.”This mechanism is based on inhibition of oxygen uptake of CytOx at high ATP/ADP ratios and low ferrocytochrome c concentrations in the mitochondrial matrix via cooperative interaction of the two substrate binding sites in dimeric CytOx.The mechanism keeps mitochondrial membrane potentialΔΨm and reactive oxygen species(ROS)formation at low healthy values.Stress signals increase cytosolic calcium leading to Ca^2+-dependent dephosphorylation of CytOx subunit I at the cytosolic side accompanied by switching off the allosteric ATPinhibition and monomerization of CytOx.This is followed by increase ofΔΨm and formation of ROS.A hypothesis is presented suggesting a dynamic change of binding of NDUFA4,originally identified as a subunit of complex I,between monomeric CytOx(active state with highΔΨm,high ROS and low efficiency)and complex I(resting state with lowΔΨm,low ROS and high efficiency).

Enzymatic Activity of Escherichia Coil Lactate Dehydrogenase and Cytochrome c Oxidase

The catalytic activity of two common bacterial enzymes, lactate dehydrogenase （LDH） and cytochrome c oxidase （COX） from Escherichia coli was examined following bacterial exposure to microwave （MW） radiation under well-defined experimental conditions. The experiments were conducted in a specialized microwave processing apparatus, with an exposure frequency of 18 GHz, and a temperature profile that was restricted to below 40℃ to avoid thermal degradation of the bacteria. The absorbed power was calculated to be 1,500 kW/m3 and the electric field was determined to be 300 Wm. Both values were theoretically confirmed using Computer Simulation Technology （CST） Microwave Studio 3D Electromagnetic Stimulation Software. Results showed that the activity of both enzymes was increased following MW radiation compared to negative controls and thermally treated samples subjected to similar temperature profiles. It is suggested that the increase in COX and LDH enzyme activity could not be explained by conventional heating alone, but was rather a result of micro-thermal effects that incorporated ＇undetectable＇ thermal mechanisms.

Construction of Cox7a2 fluorescent vector and its effect on cytochrome C oxidase activity in mouse Sertoli cell line TM4

Objective To construct Cox7a2 fluorescent vector and study its effect on cytochrome C oxidase ( COX) activity in mouse Sertoli cell line TM4. Methods The coding region of CoxTa2 was amplified from mouse Sertoli cell line TM4 by RT-PCR. PCR product was

MitochondrialtRNA^(leu(UUR)) Gene Mutation and the DecreasedActivity of Cytochrom e c Oxidase in Preeclam psia

To explore the roles of mitochondria tRNA leu(UUR) gene mutation at nucleotide 3243 and the activity of cytochrome c oxidase in pathogenesis of preeclampsia, 57 patients with preeclampsia and 60 normotension pregnancy women were screened for tRNA leu(UUR) nt3243 A→G mutation with the method of polymers chain reaction (PCR) and restriction fragment length polymorphism. Cytochrome c oxidase activity was determined by measuring the rate of cyanide sensitive oxidation of reduced cytochrome c using luminosity photographer. The results showed that cytochrome c oxidase activity was significantly lower in the preeclampsia group (0.30±0.39/min, n = 32) than that in the controls (0.73±0.54/min, n = 26, P <0.01). The mitochondria DNA mutation at position 3243 was not found in our series. The results suggested that the decreased activity of cytochrome c oxidase might impair the energy production, leading to the mitochondria dysfunction and placenta dysfunction in preeclampsia patients. Mitochondria dysfunction may be involved in the pathogenesis of preeclampsia. The mutation of mitochondria DNA may not be the common contributor of preeclampsia in our series.

氡染毒大鼠肺组织病理改变与CcO活性的相关性研究

目的观察氡染毒对大鼠肺组织的病理改变以及线粒体细胞色素C氧化酶(CcO)活性的影响。方法多功能生态氡室对Wistar大鼠进行氡及其子体染毒,累积染毒剂量分别达100、200、400WLM,染毒后观察各组大鼠的肺组织损伤程度,提取大鼠肺组织线粒体进行CcO活性的测定。结果染毒后肺组织主要病理变化为肺间质充血水肿,炎症细胞浸润,纤维化变性,肺泡腔萎缩消失。线粒体CcO的活性随着染氡剂量的增加逐渐降低,并且与肺泡间隔厚度成负相关,与肺泡腔面积成正相关。结论氡染毒后肺组织的病理改变与CcO的活性相关。

小鼠脑缺血再灌后海马组织SDH、CCO活力的动态变化

目的 :观察高脂血症小鼠脑缺血再灌注后海马组织琥珀酸脱氢酶 (Succinodenhydrogenase,SDH)、细胞色素氧化酶 (Cytochrome C oxidase,CCO)活力的动态变化。方法 :在造成小鼠高脂血症基础上 ,制备脑缺血再灌注模型。采用差速离心法提取脑海马组织线粒体 ,用生化法测定 SDH、CCO活力。结果 :模型组小鼠海马组织 SDH活力在术后第 1、7、1 5、30天均显著低于正常对照组 (P<0 .0 1 ) ,且随着时间的延长 ,酶活力一直处于低水平。 CCO活力与 SDH活力的变化趋势相同。结论 :SDH、CCO活力降低导致的能量代谢障碍是脑缺血再灌注引起神经元损伤的机制之一。

基于线粒体COⅠ基因序列的梭鲈野生群体遗传结构

为了解梭鲈种群的遗传结构,实验利用线粒体细胞色素c氧化酶Ⅰ亚基(COⅠ)基因部分序列分析了中国6个和中亚2个群体的遗传差异,并与欧洲群体的单倍型序列进行了比较。结果在640 bp的COⅠ基因序列中检测到5个变异位点,定义了7种单倍型,发现Hap1为8个梭鲈群体的共享单倍型,且与欧洲群体的HapA相同,在中国群体所占比例(93.36%)高于中亚群体(72.58%)和欧洲群体(53.85%);Hap2和Hap3是中国群体的特异单倍型,而Hap4~Hap7为中亚群体的特异单倍型。单倍型序列的聚类图和网络图均显示Hap1/A为梭鲈群体的原始单倍型,中国和中亚群体的特异单倍型相对于原始单倍型仅有1~2个位点的变异,属于Hap1/A的亚型,与欧洲群体的特异单倍型具有较大的差异。每个群体检测到1~4种单倍型,斋桑湖(ZS)群体单倍型最多,而中国的腾格里湖(NX)、兴凯湖(XK)和鸭绿江(YJ)群体仅有1个单倍型(Hap1);塔什干(TS)群体的单倍型多样性(Hd)和核苷酸多样性(π)最高(Hd=0.514±0.069;π=0.00079±0.00011),其次是ZS群体,而中国梭鲈群体的多样性参数较低。AMOVA分析结果显示,梭鲈群体间遗传变异占20.74%,群体间遗传分化程度较高(0.15≤F_(st)=0.20736<0.25),TS群体与ZS群体和中国群体间的遗传分化极大(F_(st)>0.25),中国群体中仅黑河(HH)群体与其他群体的遗传分化较大,而中国其他5个群体间无遗传分化。基于群体间遗传距离的系统进化树显示,来自中国的6个梭鲈群体与哈萨克斯坦的ZS群体聚为一支,而乌兹别克斯坦的TS群体独立为一支。研究结果为梭鲈群体的繁殖及放流管理提供了参考。

斑蝥素中毒大鼠酶化学研究(Ⅰ)——NADHD及CCO的组织化学观察

本实验对急性斑蝥素染毒大鼠的心、胃及小肠进行了还原型尼克酰胺腺嘌吟二核苷酸脱氢酶(NADHD)和细胞色素氧化酶(CCO)组织化学的实验观察。结果表明,染毒大鼠这三种组织的NADHD和CCO与对照组相比,酶反应颗粒均减少,着色变淡,分布稀疏。提示斑蝥素可使其活性受到不同程度的抑制。

白藜芦醇灌胃给药对大鼠脊髓损伤炎症反应中MPO和CCO的作用

目的探讨白藜芦醇灌胃(管饲)后对脊髓损伤后炎症反应中的髓过氧化物酶和细胞色素C氧化酶活性的影响。方法 2008年2月至2012年2月在武汉大学人民医院动物实验中心将96只Sprague-Dawley健康成年雄性大鼠随机分成4组,根据Allen’s法制成中度脊髓损伤模型,术后按照100 mg/kg立即管饲白藜芦醇或甲基强的松龙;通过比色法观察脊髓损伤8 h,1d,3 d及7 d后白藜芦醇组脊髓髓过氧化物酶和细胞色素C氧化酶活性的变化,并与甲基强的松龙组进行疗效对比。结果在脊髓损伤管饲后8 h,1 d,3 d及7 d白藜芦醇组髓过氧化物酶和细胞色素C氧化酶活性与损伤组统计学上具有显著性差异(P<0.01),显示白藜芦醇管饲后对脊髓损伤具有明显神经细胞保护作用,而且损伤后1d白藜芦醇组与甲基强的松龙组间统计学上具有显著性差异(P<0.01);结论在脊髓损伤后管饲白藜芦醇,能够有效降低髓过氧化物酶活性的升高幅度,并提高细胞色素C氧化酶活性,对损伤后脊髓起保护作用。

斑蝥素中毒大鼠酶化学研究(Ⅱ)——NADHD及CCO的细胞化学观察

本实验是在观察了斑蝥素中毒大鼠心、胃、小肠的NADHD及CCO组织化学改变的基础上,进一步观察了心肌线粒体内NADHD和CCO细胞化学变化。结果表明,与对照组相比,斑蝥素染毒后1h NADHD和CCO的活性均开始下降,以后随中毒时间延长而加重,至24 h,线粒体已无可分辨的嵴,成为一片均质状,酶定位改变。说明斑蝥素可破坏线粒体的结构,并影响定位于其上的NADHD及CCO的活性。

内毒素对幼鼠肝脏NOS和CcO的影响

目的:探讨内毒素对SD幼鼠肝细胞一氧化氮合酶(Nitric oxide synthase,NOS)和细胞色素氧化酶(Cytochrome oxi-duse.CcO)的影响,方法:用组织化学方法观察在内毒素刺激后,SD幼鼠肝细胞NOS和CcO反应产物分布和活性变化 结果:内毒索刺激6 h,肝细胞内NOS活性最强,内毒素刺激后1-3 h,CcO活性呈现逐渐减弱趋势。内毒素刺激6 h,CcO活性明显减弱。结论:内毒素可刺激肝细胞NOS活性增强,表明肝细胞内NOS属于诱导性NOS(iNOS);同时内毒素吐土可间接使肝细胞CcO活性减弱。

Synthesis and Characterization of Porphyrin-Trisbenzimidazole Dinucleating Ligand and Its Heterodinuclear Complex as CcO Active Site Model

A new dinucleating ligand having two metalbinding sites has been designed and synthesized as model ligand for Cytochrome c Oxidase. The corresponding heterodinuclear complex, as an active site model of Cytochrome c Oxidase, consisting of a porphyrinatocobalt compound covalently linked with a copper derivative of tris(2-benzimidazylmethyl) amine bearing three benzimidazole ligands for copper was synthesized and spectroscopically characterized. The spectra data suggest that there are interactions between the cobalt and copper coordination units. The cobalt is coordinated to four central nitrogens of the porphyrin and the copper has pentacoordinate geometry with the four tertiary amine nitrogens and a chloride.

基于In Silicon模拟消化的北极虾DPP-Ⅳ抑制肽活性分析

北极虾具有很高的营养价值,在食品领域已引起越来越多的关注。对北极虾蛋白进行In Silicon模拟消化获得寡肽,通过PeptideRanker活性评分及理化性质分析,从中筛选出具有潜在生物活性的寡肽。使用ToxinPred分析和BIOPEP-UWM生物活性预测,发现部分寡肽具有二肽基肽酶-Ⅳ(dipeptidyl peptidase-Ⅳ,DPP-Ⅳ)抑制活性,最终确定WFP(一种三肽,Trp-Phe-Pro)具有最优的DPP-Ⅳ抑制活性肽。分子对接表明,WFP和DPP-Ⅳ能够形成稳定的复合物,其结合能为-6.93 kcal/mol,进一步研究表明,WFP通过与DPP-Ⅳ S1、S2、S3三个活性口袋中的9个氨基酸残基发生相互作用而抑制其活性。本研究为阐释北极虾营养价值及生物活性肽的开发提供了理论依据。

铜代谢相关基因COX17与头颈部鳞状细胞癌不良预后相关

目的:探讨铜代谢相关基因细胞色素c氧化酶铜伴侣17(COX17)对头颈部鳞状细胞癌(HNSCC)发生发展及预后的影响。方法:运用生物信息学分析COX17在HNSCC与正常组织中的表达差异;通过构建列线图验证COX17在预测HNSCC预后中的作用;采用KEGG和GO分析对COX17相关基因进行功能富集分析以及利用ssGSEA分析COX17表达与HNSCC组织中免疫细胞浸润丰度的关系;采用实时定量聚合酶链反应(RT-qPCR)验证COX17在HNSCC细胞系与永生化正常上皮细胞系中的表达差异;细胞活力试剂盒(CCK-8)和Transwell实验分别用于检测COX17对细胞增殖、侵袭能力的影响。结果:COX17在HNSCC中表达显著上调(P<0.05)。预后分析表明COX17与HNSCC患者总生存期(OS)密切相关(P<0.05)。免疫浸润相关性分析显示,COX17与多种免疫细胞浸润丰度呈负相关关系(均P<0.001)。敲低COX17可显著抑制HNSCC细胞SCC-9、SAS细胞的增殖及侵袭能力。结论:COX17的表达可影响HNSCC细胞的增殖和侵袭,并与HNSCC组织中免疫细胞浸润存在潜在关联;作为线粒体铜代谢分子标记物,COX17可能是评估HNSCC预后的有效指标和潜在治疗靶点。

Effects of nitroquine on ultrastructures and cytochrome oxidase of exoerythrocytic Plasmodium yoeli in rat liver

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Epiphytic zooplankton community profiles in a typical urban wetland as revealed by DNA metabarcoding

Zooplankton,a crucial component of urban wetland,are one of the effective bioindicators for monitoring the feeding stocks of organisms at higher trophic levels and assessing the ecological quality of ecosystems.However,information about the characteristics of epiphytic zooplankton community structure resulted from traditional methods is limited and hindered by the large amount of detritus and sludge attached to the macrophytes.We investigated the epiphytic zooplankton communities associated with macrophytes(Vallisneria,Nymphaea,and Thalia dealbata)in a subtropical wetland using as DNA markers of the 18 S rRNA gene and the mitochondrial cytochrome c oxidase subunit I(COI)gene.A total of 241 OTUs of zooplankton were obtained from COI amplicons,including 194 OTUs of Rotifera,22 of Cladocera,and 25 of Copepoda,while only 62 OTUs of zooplankton were obtained from 18 S rDNA amplicons including 34 OTUs of Rotifera and 28 of Copepoda.The zooplankton communities associated with the three macrophytes were similar,but they differed significantly from those in the open waters.However,there were no significant temporal differences among the zooplankton communities.Epiphytic zooplankton communities were dominated by littoral zooplankton such as Testudinella,Lecane,and Philodina.Microzooplankton,especially littoral species,utilize macrophytes as food sources and as refuges against predation.This further led to an increase inαandβdiversity of zooplankton communities in urban wetlands.Our result suggests that the joint use of multiple molecular markers could improve the taxonomic resolution and generate a comprehensive biodiversity profile of zooplankton.