Genetic studies of murine catalase: Regulation of multiple molecular forms of kidney catalase

Starch gel electrophoresis of kidney catalase in inbred strains C3H and C57BL/6, their F₁ hybrid, and first and second backcross generations demonstrated that single-component (type A) v. multiple-component (type B) electrophoretic patterns are controlled by a single locus. The type A electrophoretic pattern is dominant. Twenty-five inbred strains of mice were classified according to their kidney catalase electrophoretic pattern. The data indicate that the segregating genetic factor determines a specific substance in the type A kidney which affects the electrophoretic mobility of catalase. A comparison of the F₁ hybrid enzyme with a 1:1 mixture of C3H and C57BL/6 enzyme showed that the alteration of electrophoretic mobility is the result of posttranslational modification of the catalase molecule. An association of kidney catalase electrophoretic pattern and the H-2 ^k haplotype indicates that the locus controlling the electrophoretic pattern is most likely located on chromosome 17 in close proximity to the H-2 complex.     

荧光假单胞菌香兰素脱氢酶基因功能的验证

验证了荧光假单胞菌(Pseudomonas fluorescensATCC13525)香兰素脱氢酶基因(vanillin dehydrogenasegene,vdh)的功能。基因vdh表达产物(Vdh)的活性测定结果显示Vdh具有很高的活性,而且不经IPTG诱导的Vdh也具有同样高的活性。经过4 h的体外酶促反应,重组蛋白Vdh能把95%以上的香兰素转化为香兰素酸,从而验证了vdh基因的表达产物具有香兰素脱氢酶的功能。同时发现NAD 是从香兰素到香兰素酸体外转化必不可少的因素。     

以Fe(III) 改性胶原纤维为载体固定过氧化氢酶

将胶原纤维用三价铁改性后作为载体,通过戊二醛的交联作用将过氧化氢酶固定在该载体上。制备的固定化过氧化氢酶蛋白固载量为16.7 mg/g,酶活收率为35％。研究了固定化酶与自由酶的最适pH、最适温度、热稳定性、贮存稳定性及操作稳定性。结果表明：过氧化氢酶经此法固定化后,最适pH及最适温度与自由酶相同,分别为pH 7.0和25 ℃;但固定化酶的热稳定性显著提高,在75 ℃保存5 h后,仍能保留30％的活力,而自由酶则完全失活;固定化酶在室温下保存12 d后,酶活力仍保持在88％以上,而自由酶在此条件下则完全失     

Unique oligomeric intermediates of bovine liver catalase

Catalases, although synthesized from single genes and built up from only one type of subunit, exist in heterogeneous form with respect to their conformations and association states in biological systems. This heterogeneity is not of genetic origin, but rather reflects the instability of this oligomeric heme enzyme. To understand better the factors that stabilize the various association states of catalase, we performed studies on the multimeric intermediates that are stabilized during guanidine-hydrochloride- and urea-induced unfolding of bovine liver catalase (BLC). For the first time, we have observed an enzymatically active, folded dimer of native BLC. This dimer has slightly higher enzymatic activity and altered structural properties compared to the native tetramer. Comparative studies of the effect of NaCl, GdmCl, and urea on BLC show that cation binding to negatively charged groups present in amino acid side chains of the enzyme leads to stabilization of an enzymatically active, folded dimer of BLC. Besides the folded dimer, an enzymatically active expanded tetramer and a partially unfolded, enzymatically inactive dimer of BLC were also observed. A complete recovery of native enzyme was observed on refolding of expanded tetramers and folded dimers; however, a very low recovery (maximum of approximately 5%) of native enzyme was observed on refolding of partially unfolded dimers and fully unfolded monomers.     

Effects of rs769217 and rs1001179 polymorphisms of catalase gene on blood catalase,carbohydrate and lipid biomarkers in diabetes mellitus

Abstract

Oxidative stress and deficiency of the enzyme catalase, which is the primary scavenger of the oxidant H₂O₂, may contribute to diabetes. The current study examined two polymorphisms in the catalase gene, ?262C>nT in the promoter and 111C>T in exon 9, and their effects on blood catalase activity as well as on concentrations of blood glucose, haemoglobin A1c, triglyceride, cholesterol, HDL, LDL, ApoA-I and ApoB. Subjects were type-1 and type-2 diabetics. We evaluated PCR-single strand conformational polymorphism for 111C>T and PCR-restriction fragment length polymorphism for ??262C>T. TT genotype frequency of 111C>T polymorphism was increased in type-1 diabetes. Type-2 diabetics with the CC or CT genotypes had decreased catalase and increased glucose, hemoglobinA1c and ApoB. Type-2 diabetics who have TT genotype in ?262C>T may have elevated risk for diabetes complications; these patients had the lowest mean catalase and HDL, as well as the highest glucose, haemoglobin A1c, cholesterol and ApoB.     

Structure of the Clade 1 catalase,CatF of Pseudomonas syringae,at 1.8 A resolution

Catalase CatF of Pseudomonas syringae has been identified phylogenetically as a clade 1 catalase, closely related to plant catalases, a group from which no structure has been determined. The structure of CatF has been refined at 1.8 A resolution by using X-ray synchrotron data collected from a crystal flash-cooled with liquid nitrogen. The crystallographic agreement factors R and R(free) are, respectively, 18.3% and 24.0%. The asymmetric unit of the crystal contains a whole molecule that shows accurate 222-point group symmetry. The crystallized enzyme is a homotetramer of subunits with 484 residues, some 26 residues shorter than predicted from the DNA sequence. Mass spectrometry analysis confirmed the absence of 26 N-terminal residues, possibly removed by a periplasmic transport system. The core structure of the CatF subunit was closely related to seven other catalases with root-mean-square deviations (RMSDs) of 368 core Calpha atoms of 0.99-1.30 A. The heme component of CatF is heme b in the same orientation that is found in Escherichia coli hydroperoxidase II, an orientation that is flipped 180 degrees with respect the orientation of the heme in bovine liver catalase. NADPH is not found in the structure of CatF because key residues required for nucleotide binding are missing; 2129 water molecules were refined into the model. Water occupancy in the main or perpendicular channel of CatF varied among the four subunits from two to five in the region between the heme and the conserved Asp150. A comparison of the water occupancy in this region with the same region in other catalases reveals significant differences among the catalases.     

Effects of cysteine on growth, protease production, and catalase activity of Pseudomonas fluorescens.

Cysteine inhibits growth of and protease production by Pseudomonas fluorescens NC3. Catalase activity in P. fluorescens NC3 was increased by cysteine. The addition of exogenous hydrogen peroxide did not increase catalase activity, thus suggesting a role for the endogenous generation of hydrogen peroxide via the autoxidation of cysteine.     

Spatial organization of catalase proteins

The three-dimensional structure of the heme-containing fungal catalase fromPenicillium vitale (m.m. 2,80,000) has been studied by X-ray analysis at 2.0 A resolution. The molecule is tetramer, each subunit contains 670 aminoacid residues identified to construct “X-ray” primary structure. The subunit is built of three compact domains and their connections. The first domain of about 350 residues contains aβ-barrel flanked by helices, the second domain of 70 residues is formed by four helices and the third one is composed of 150 residues and is topologically similar to flavodoxin. The active site including heme is deeply buried near theβ-barrel. A comparison of the structure of catalase fromPenicillium vitale with that of beef liver catalase revealed very close structural homology of the first and the second domain, but the third domain is entirely absent in beef liver catalase. A catalase from thermophillic bacteriaThermus thermophilus (m.m. 2,10,000) has been first isolated, crystallized and studied by X-ray analysis. Crystals are cubic, space group is P2₁3, a = 133.4 Å. The molecule is a hexamer with trigonal symmetry 32. The electron density map at 3 Å resolution made it possible to trace the polypeptide chain. The main structural motif is formed by four near parallel helices. There is no heme inThermus thermophilus catalase, the active site is between the four helices and contains two manganese ions.     

荧光假单胞菌短链脱氢酶的克隆、表达及酶学性质分析

为了研究荧光假单胞菌中短链脱氢酶的生理角色和催化特性,从荧光假单胞菌Pseudomonas fluorescens GIM1.49基因组DNA克隆表达了一个短链脱氢酶的编码基因pfd,并分析了该基因产物的酶学性质。基因pfd全长684 bp,编码227个氨基酸,推算分子量为24.2 kDa。将携带短链脱氢酶基因的重组质粒pET28b-pfd转入大肠杆菌BL21(DE3) 进行表达,得到了28 kDa的表达产物。重组荧光假单胞菌短链脱氢酶 (PFD) 能氧化4-氯-3-羟基丁酸乙酯、1-苯乙醇、苯甲醇、仲丁醇和还原4-氯-乙酰乙酸乙酯、2-溴-苯乙酮、4-溴-苯乙酮等底物。以4-氯-3-羟基丁酸乙酯为底物时活力最高,Km值为186.90 mmol/L,Vmax为89.56 U/mg。氧化4-氯-3-羟基丁酸乙酯时,最适反应温度和pH分别为12 ℃和10.5,倾向于利用NAD+作辅酶;而还原4-氯-乙酰乙酸乙酯时,最适温度和pH为24 ℃和8.8,倾向于利用NADPH作辅酶。重组PFD能耐受50％ (V/V) 的甲醇等有机助溶剂,Ca2+ (1 mmol/L) 和EDTA (5 mmol/L) 对其酶活有一定的促进作用。上述结果表明,重组PFD是一个新型的短链脱氢酶,其代谢角色推测与卤代次级醇的氧化降解有关。     

过氧化氢酶在病原性真菌中的相关研究进展

过氧化氢酶普遍存在于原核和真核生物,具有抗氧化作用。这种作用有其有利的方面,即保护细胞免受氧自由基等氧化物的损害,抑制细胞受氧化因素刺激诱导的凋亡。同样,有其不利的方面,即保护病原微生物(包括真菌)不受宿主氧化系统的破坏。抗氧化作用作为病原性真菌的一种可能致病机制,国外已经有不少相关的报道,但是目前国内对这方面的研究较少,本文就过氧化氢酶在病原性真菌中的相关研究进展做一综述。     

一种优化的测定过氧化氢酶活性的方法

建立了一种优化的化学发光技术测定过氧化氢酶(CAT)活性的方法,并用此法检测40只正常家兔红细胞中过氧化氢酶活性为6.421±1.43K/gHb.采用H\-2O\-2-鲁米诺发光体系,探讨了反应时间、底物浓度、样品浓度、样品保存等因素对测定的影响,得到较好的线性和重复性.     

电离辐射诱导基因的研究进展

电离辐射诱导基因是一类受电离辐射调控表达的基因,其表达随辐射条件和所处生理环境的不同呈现复杂多变的特征。电离辐射诱导基因参与细胞内各种代谢途径,在细胞周期调控、细胞生长调节、细胞凋亡、DNA损伤修复中发挥着重要的作用。介绍了电离辐射诱导基因的种类、功能,及其引起的生物效应的分子机制及应用。     

Purification and characterisation of a novel alkalophilic α-D-mannosidase from Pseudomonas fluorescens

An extracellular alkaline α-D-mannosidase in the cell culture of a marine bacterium Pseudomonas fluorescens JK-02 was purified to homogeneity with a 30.7-fold by ammonium sulphate fractionation, anion-exchange chromatography and gel-filtration chromatography. The molecular weight of the purified enzyme was estimated to be 50.5 kDa based on the sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE). The optimal pH and temperature of the purified enzyme were 8.5 and 30°C. The K_m and V_max values of the purified enzyme towards p-nitrophenyl-α-D-mannopyranoside were determined to be 77 µM and 0.23 µM min^?1mg^?1 of protein, respectively. The α-D-mannosidase showed higher substrate specificity to α-1,3-mannobiose than other isomeric substrates such as α-1,2- and α-1,6-mannobiose. In addition, molecular characterisation of this enzyme reveals that it belongs to a class II α-mannosidase from the glycosyl hydrolase family 38. To the best of our knowledge, this is the first report on the alkalophilic α-1,3 D-mannosidase of Pseudomonas species, which has selective algal-lytic activity against Alexandrium tamarense, Akashiwo sanguine, Gymnodinium catenatum, Gymnodinium mikimotoi and Prorocentrum dentatum.     

Cadmium-regulated gene fusions in Pseudomonas fluorescens

To study the mechanisms soil bacteria use to cope with elevated concentrations of heavy metals in the environment, a mutagenesis with the lacZ-based reporter gene transposon Tn5B20 was performed. Random gene fusions in the genome of the common soil bacterium Pseudomonas fluorescens strain ATCC 13525 were used to create a bank of 5,000 P. fluorescens mutants. This mutant bank was screened for differential gene expression in the presence of the toxic metal cadmium. Fourteen mutants were identified that responded with increased or reduced gene expression to the presence of cadmium. The mutants were characterized with respect to their metal-dependent gene expression and their metal tolerance. Half the identified mutants reacted with differential gene expression specifically to the metal cadmium, whereas some of the other mutants also responded to elevated concentrations of copper and zinc ions. One of the mutants, strain C8, also showed increased gene expression in the presence of the solvent ethanol, but otherwise no overlap between cadmium-induced gene expression and general stress response was detected. Molecular analysis of the corresponding genetic loci was performed using arbitrary polymerase chain reaction (PCR), DNA sequencing and comparison of the deduced protein products with sequences deposited in genetic databases. Some of the genetic loci targeted by the transposon did not show any similarities to any known genes; thus, they may represent 'novel' loci. The hypothesis that genes that are differentially expressed in the presence of heavy metals play a role in metal tolerance was verified for one of the mutants. This mutant, strain C11, was hypersensitive to cadmium and zinc ions. In mutant C11, the transposon had inserted into a genetic region displaying similarity to genes encoding the sensor/regulator protein pairs of two-component systems that regulate gene expression in metal-resistant bacteria, including czcRS of Ralstonia eutropha, czrRS of Pseudomonas aeruginosa and copRS of Pseudomonas syringae. Although the P. fluorescens strain used in this study had not been isolated from a metal-rich environment, it nevertheless contained at least one genetic region enabling it to cope with elevated concentrations of heavy metals.     

Inducible uptake and metabolism of glucose by the phosphorylative pathway in Pseudomonas putida CSV86

Pseudomonas putida CSV86 utilizes glucose, naphthalene, methylnaphthalene, benzyl alcohol and benzoate as the sole source of carbon and energy. Compared with glucose, cells grew faster on aromatic compounds as well as on organic acids. The organism failed to grow on gluconate, 2-ketogluconate, fructose and mannitol. Whole-cell oxygen uptake, enzyme activity and metabolic studies suggest that in strain CSV86 glucose utilization is exclusively by the intracellular phosphorylative pathway, while in Stenotrophomonas maltophilia CSV89 and P. putida KT2442 glucose is metabolized by both direct oxidative and indirect phosphorylative pathways. Cells grown on glucose showed five- to sixfold higher activity of glucose-6-phosphate dehydrogenase compared with cells grown on aromatic compounds or organic acids as the carbon source. Study of [14C]glucose uptake by whole cells indicates that the glucose is taken up by active transport. Metabolic and transport studies clearly demonstrate that glucose metabolism is suppressed when strain CSV86 is grown on aromatic compounds or organic acids.     

小鼠组织中过氧化氢酶的活性与年龄的关系

为观察小鼠组织中过氧化氢酶的活性与年龄的关系,采用高锰酸钾滴定法测定不同年龄(1、4、18月龄)小鼠肝、肾、肺、心、脾、胃、脑组织中过氧化氢酶的活性。结果显示:小鼠过氧化氢酶在不同组织中活性不同,活性高低顺序基本表现为:肝>肾>肺>心、脾、胃>脑;小鼠肺、心、脾、胃、脑各组织中过氧化氢酶的活性在1～4月龄间随年龄增加而增加,在4～18月龄间随年龄增加而降低;小鼠肝、肾组织中过氧化氢酶的活性在1～4月龄间与年龄相关性不显著,在4～18月龄间随年龄增加而降低。结果表明,小鼠肝、肾、肺、心、脾、胃、脑等组织中过氧化氢酶的活性随年龄变化而变化,机体过氧化氢酶活性的降低与机体衰老密切相关。