Cloning, expression, and characterization of recombinant nitric oxide synthase-like protein from Bacillus anthracis

Nitric oxide synthase (NOS) is amongst a family of evolutionarily conserved enzymes, involved in a multi-turnover process that results in NO as a product. The significant role of NO in various pathological and physiological processes has created an interest in this enzyme from several perspectives. This study describes for the first time, cloning and expression of a NOS-like protein, baNOS, from Bacillus anthracis, a pathogenic bacterium responsible for causing anthrax. baNOS was expressed in Escherichia coli as a soluble and catalytically active enzyme. Homology models generated for baNOS indicated that the key structural features that are involved in the substrate and active site interaction have been highly conserved. Further, the behavior of baNOS in terms of heme-substrate interactions and heme-transitions was studied in detail. The optical perturbation spectra of the heme domain demonstrated that the ligands perturb the heme site in a ligand specific manner. baNOS forms a five-coordinate, high-spin complex with l-arginine analogs and a six-coordinate low-spin complex with inhibitor imidazole. Studies indicated that the binding of l-arginine, N(omega)-hydroxy-l-arginine, and imidazole produces various spectroscopic species that closely correspond to the equivalent complexes of mammalian NOS. The values of spectral binding constants further corroborated these results. The overall conservation of the key structural features and the correlation of heme-substrate interactions in baNOS and mammalian NOS, thus, point towards an interesting phenomenon of convergent evolution. Importantly, the NO generated by NOS of mammalian macrophages plays a potent role in antimicrobicidal activity. Because of the existence of high structural and behavioral similarity between mammalian NOS and baNOS, we propose that NO produced by B. anthracis may also have a pivotal pathophysiological role in anthrax infection. Therefore, this first report of characterization of a NOS-like protein from a pathogenic bacterium opens up avenues for further studies in understanding the importance of this protein in pathogenicity.     

Identification of imidazole as l-arginine-competitive inhibitor of porcine brain nitric oxide synthase

Imidazole acts as a heme-site inhibitor of nitric oxide synthase (NOS). We used this compound to investigate whether the substrate l-arginine binds directly to the heme or to a separate domain of brain NOS. Enzyme kinetic experiments showed that imidazole enhanced the apparent K_m for l-arginine without affecting maximal enzyme activity, and binding studies revealed that the inhibitor displaced the radioligand N^G-nitro-l-[³H]arginine in a concentration-dependent fashion. These results demonstrate that imidazole exerts its effects on NOS in an l-arginine-competitive manner and that the substrate site of the enzyme may be identical with the prosthetic heme group.     

Analogies and surprising differences between recombinant nitric oxide synthase-like proteins from Staphylococcus aureus and Bacillus anthracis in their interactions with l-arginine analogs and iron ligands

Genome sequencing has recently shown the presence of genes coding for NO-synthase (NOS)-like proteins in bacteria. The roles of these proteins remain unclear. The interactions of a series of l-arginine (l-arg) analogs and iron ligands with two recombinant NOS-like proteins from Staphylococcus aureus (saNOS) and Bacillus anthracis (baNOS) have been studied by UV-visible spectroscopy. SaNOS and baNOS in their ferric native state, as well as their complexes with l-arg analogs and with various ligands, exhibit spectral characteristics highly similar to the corresponding complexes of heme-thiolate proteins such as cytochromes P450 and NOSs. However, saNOS greatly differs from baNOS at the level of three main properties: (i) native saNOS mainly exists under an hexacoordinated low-spin ferric state whereas native baNOS is mainly high-spin, (ii) the addition of tetrahydrobiopterin (H4B) or H4B analogs leads to an increase of the affinity of l-arg for saNOS but not for baNOS, and (iii) saNOS Fe(II), contrary to baNOS, binds relatively bulky ligands such as nitrosoalkanes and tert-butylisocyanide. Thus, saNOS exhibits properties very similar to those of the oxygenase domain of inducible NOS (iNOS(oxy)) not containing H4B, as expected for a NOSoxy-like protein that does not contain H4B. By contrast, the properties of baNOS which look like those of H4B-containing iNOS(oxy) are unexpected for a NOS-like protein not containing H4B. The origin of these surprising properties of baNOS remains to be determined.     

功能作图(functional mapping)分析大肠杆菌和金黄色葡萄球菌之间的竞争互作

【背景】功能作图(functionalmapping)模型是基于统计方法的分析生物体动态复杂性状发育的全基因组作图方法,旨在定位性状发育过程中的数量性状位点(quantitative trait loci, QTL),将功能作图应用于微生物研究有助于解析复杂的互作过程。【目的】利用功能作图定位两种微生物在动态生长发育过程中发挥显著作用的QTL,通过基因功能注释找到影响微生物表型生长的基因。【方法】将大肠杆菌和金黄色葡萄球菌各100个菌株单独培养和一一配对共同培养,将取得的各菌株生长丰度表型数据和单核苷酸多态性(singlenucleotidepolymorphism,SNP)数据进行关联分析,找到同一物种在不同培养条件下对生长起作用的显著QTL。【结果】通过功能作图分析,在大肠杆菌中定位到217个QTL,金黄色葡萄球菌中定位到152个QTL;通过功能聚类和基因注释分析发现,QTL所在候选基因中金黄色葡萄球菌scdA、sdrC、sdrD、ftsA和大肠杆菌phr、nagC、eptA、ppsA、priA、flim基因对微生物的生长发挥了较大作用。【结论】本文借助功能作图定位了大肠杆菌和金黄...     

万古霉素敏感性下降金黄色葡萄球菌(VISA/hVISA)的研究进展

万古霉素敏感性下降的金黄色葡萄球菌(VISA/hV ISA)日益增多,已经成为公共健康的重要威胁。来自临床或实验室的VISA/hV ISA菌株表现出一些共同特征,如细胞壁增厚,自溶活性降低,毒力减弱,醋酸盐代谢异常。金葡菌从VSSA到VISA/hV ISA的转化是一个逐步演变的过程,VISA中一些调控基因的变异,特别是如wal KR、graRS、vra SR、rpo B、rpo C、rpo D、agr、msrR、fdh2、sle1等基因连续的变异与金葡菌对万古霉素的耐药性相关。VISA/hV ISA中相应基因的变异也是VISA/hV ISA对宿主毒力减弱,持续定殖及对宿主适应性改变的遗传基础。为了预防和控制VISA/hI VSA感染,应全面了解其生物学特性,开发简便有效的检验方法,探索制定灵活的治疗策略,达到有效防治的目的。     

金黄色葡萄球菌病防治研究进展

金黄色葡萄球菌(Staphylococcus aureus, SA)被认为是最常见的食源性致病菌之一,引起人畜的感染性疾病,导致皮肤、软组织和血液感染,引发脓毒症和中毒性休克综合征。随着抗生素的滥用,金黄色葡萄球菌的耐药性逐渐增强,导致耐甲氧西林金黄色葡萄球菌(methicillin resistant Staphylococcus aureus, MRSA)的出现,并且在全球范围内散播,严重危害公共卫生安全。目前亟需有效控制SA感染的新疗法,因此本文对金黄色葡萄球菌防治技术的研究进展进行综述,并对其防治前景进行了分析,以期对金黄色葡萄球菌尤其是MRSA的控制提供理论指导。     

牛源金黄色葡萄球菌FnBPA-A分子不同遗传多态性重组质粒的免疫生物学特性的比较

【目的】为了解Fn BPA-A分子遗传多态性对新疆部分地区牛源金黄色葡萄球菌免疫生物学特性的影响。【方法】对采自新疆不同地区的牛源金黄色葡萄球菌Fn BPA-A氨基酸序列进行分析,构建了Fn BPA-A 8个不同遗传多态性的真核重组质粒,分别免疫C57BL/6小鼠,收集免疫后的抗血清。对不同重组质粒免疫小鼠后免疫保护力进行比较分析。【结果】进化树显示GS801、GS819、GS856属于同一分支,GW10-1、GW20-2、GY288、GY309为同一分支,GY278为一分支。免疫小鼠并进行攻击保护检测,GW20-2、GS801、GS819、GS856与GY288免疫组对小鼠的免疫保护率较高,GY278免疫组免疫保护率最低。【结论】Fn BPA-A分子的遗传多态性可以影响免疫小鼠的免疫水平和攻毒保护力。     

Oral supplementation with a combination of l-citrulline and l-arginine rapidly increases plasma l-arginine concentration and enhances NO bioavailability

Background

Chronic supplementation with l-citrulline plus l-arginine has been shown to exhibit anti-atherosclerotic effects. However, the short-term action of this combination on the nitric oxide (NO)–cGMP pathway remains to be elucidated. The objective of the present study was to investigate the acute effects of a combination of oral l-citrulline and l-arginine on plasma l-arginine and NO levels, as well as on blood circulation.

Methods

Rats or New Zealand white rabbits were treated orally with l-citrulline, or l-arginine, or a combination of each at half dosage. Following supplementation, plasma levels of l-arginine, NO_x, cGMP and changes in blood circulation were determined sequentially.

Results

l-Citrulline plus l-arginine supplementation caused a more rapid increase in plasma l-arginine levels and marked enhancement of NO bioavailability, including plasma cGMP concentrations, than with dosage with the single amino acids. Blood flow in the central ear artery in rabbits was also significantly increased by l-citrulline plus l-arginine administration as compared with the control.

Conclusion

Our data show for the first time that a combination of oral l-citrulline and l-arginine effectively and rapidly augments NO-dependent responses at the acute stage. This approach may have clinical utility for the regulation of cardiovascular function in humans.     

紫草素与依布硒啉对金黄色葡萄球菌的协同作用

[目的]探讨紫草素(shikonin,SKN)协同依布硒啉(ebselen,EbSe)抗金黄色葡萄球菌(Staphylococcus aureus,S.aureus)的作用及机制.[方法]分光光度法测定紫草素-依布硒啉抗金黄色葡萄球菌活性;碘化丙啶(propidium iodide,PI)染色检测紫草素-依布硒啉杀菌效...     

Nucleotide sequence of the recF gene cluster from Staphylococcus aureus and complementation analysis in Bacillus subtilis recF mutants

We have determined the nucleotide sequence of a 3.5 kb segment in the recF region of the Staphylococcus aureus chromosome. The gene order at this locus, dnaA-dnaN-recF-gyrB is similar to that found in the replication origin region of many other bacteria. S. aureus RecF protein (predicted molecular mass 42.3 kDa), has 57% amino acid sequence identity with the Bacillus subtilis RecF protein (42.2 kDa), but only 26% with the Escherichia coli RecF protein (40.5 kDa). We have shown that the S. aureus recF gene partially complements the defect of a B. subtilis recF mutant, but does not complement an E. coli recF strain. The amino acid sequence alignment of seven available RecF proteins (five of them from bacteria of gram-negative origin) allowed us to identify eight highly conserved regions ( to ) and to predict five new conserved regions within the gram-positive group (a to f). We suggest that the basic mechanism of homologous recombination is conserved among free-living bacteria.     

Hydroxylation of l-proline to cis-3-hydroxy-l-proline by recombinant Escherichia coli expressing a synthetic l-proline-3-hydroxylase gene

A synthetic gene encoding a Streptomyces l-proline-3-hydroxylase was constructed and used to produce the hydroxylase protein in recombinant Escherichia coli. A fermentation process for growth of this recombinant E. coli for enzyme production was scaled-up to 250 L. A biotransformation process was developed using cell suspensions of the recombinant E. coli and subsequently scaled-up to 10 L for conversion of l-proline to cis-3-hydroxy-l-proline. A reaction yield of 85 M% and d.e. of 99.9% was obtained for cis-3-hydroxy-l-proline.     

Comparison of wild type neuronal nitric oxide synthase and its Tyr588Phe mutant towards various l-arginine analogues

Crystal structures of nitric oxide synthases (NOS) isoforms have shown the presence of a strongly conserved heme active-site residue, Tyr588 (numbering for rat neuronal NOS, nNOS). Preliminary biochemical studies have highlighted its importance in the binding and oxidation to NO of natural substrates L-Arg and N^ω-hydroxy-l-arginine (NOHA) and suggested its involvement in mechanism. We have used UV-visible and EPR spectroscopy to investigate the effects of the Tyr588 to Phe mutation on the heme-distal environment, on the binding of a large series of guanidines and N-hydroxyguanidines that differ from L-Arg and NOHA by the nature of their alkyl- or aryl-side chain, and on the abilities of wild type (WT) and mutant to oxidize these analogues with formation of NO. Our EPR experiments show that the heme environment of the Tyr588Phe mutant differs from that of WT nNOS. However, the addition of L-Arg to this mutant results in EPR spectra similar to that of WT nNOS. Tyr588Phe mutant binds L-Arg and NOHA with much weaker affinities than WT nNOS but both proteins bind non α-amino acid guanidines and N-hydroxyguanidines with close affinities. WT nNOS and mutant do not form NO from the tested guanidines but oxidize several N-hydroxyguanidines with formation of NO in almost identical rates. Our results show that the Tyr588Phe mutation induces structural modifications of the H-bonds network in the heme-distal site that alter the reactivity of the heme. They support recent spectroscopic and mechanistic studies that involve two distinct heme-based active species in the two steps of NOS mechanism.     

一株金黄色葡萄球菌噬菌体的裂解谱特异性和分子分类研究

[目的]从医院污水中分离金黄色葡萄球菌噬菌体,观察其形态,确证裂解谱特征并研究生物学和基因学特性,为噬菌体的临床应用奠定实验基础.[方法]将金黄色葡萄球菌ATCC25923作为宿主菌,采用双层琼脂平板法从医院污水中分离纯化噬菌体,电镜下观察形态并测定其最佳感染复数、一步生长曲线及裂解谱;全基因组测序并进行基因结构分析和...     

Modification of optimal pH in l-arabinose isomerase from Geobacillus stearothermophilus for d-galactose isomerization

l-Arabinose isomerase from Geobacillus stearothermophilus (GSAI; EC 5.3.1.4) has been genetically evolved to increase the reaction rate toward d-galactose, which is not a natural substrate. To change the optimal pH of GSAI for d-galactose isomerization (pH optimum at 8.5), we investigated the single point mutations influencing the activity based on the sequences of the previously evolved enzymes. Among the seven point mutations found in the evolved enzymes, mutations at Val⁴⁰⁸ and Asn⁴⁷⁵ were determined to be highly influential mutation points for d-galactose isomerization activity. A random mutation was introduced into sites Val⁴⁰⁸ and Asn⁴⁷⁵ (X408V and X475N), and candidates were screened based on non-optimal pH conditions. Among the mutations of X408V and X475N, mutations of Q408V and R408V were selected. The optimal pH of the both mutations Q408V and R408V was shifted to pH 7.5. At the shifted optimal pH, the d-galactose isomerization activities of Q408V and R408V were 60 and 30% higher than that of the wild type at pH 8.5, respectively.     

l-Malic acid formation by immobilized Saccharomyces cerevisiae amplified for fumarase

The yeast Saccharomyces cerevisiae was amplified for the enzyme fumarase by cloning the single nuclear gene downstream of a strong promoter. The overproducing strain converted fumaric acid to l-malic acid at a rate of 65 mM g⁻¹ h⁻¹ in free cell experiments, and approximately 87% of the fumaric acid was converted to l-malic acid within 45 min. Activity was dependent on the addition of surfactant to the medium, and minimal activity was seen with the wild-type yeast strain. The constructed strain was immobilized in agarose beads (2.4 mm mean diameter) and within agarose microspheres (193 and 871 μm mean diameter). The rate of bioconversion increased with decreasing bead diameter, with similar rates observed with the 193-μm diameter microspheres to that achieved with the free cells. The presence of surfactant was essential for initial activity of the immobilized cells; however, high activity was observed in subsequent experiments in the absence of surfactant. Stable activities over a 48-h period were maintained within the large-diameter agarose beads, while decreasing activities were observed within the agarose microspheres.     

Free l-amino acids and d-aspartate content in the nervous system of Cephalopoda. A comparative study

We have determined the content of free l-amino acids and d-aspartate in the nervous tissue of three representative cephalopods: Sepia officinalis, Octopus vulgaris, and Loligo vulgaris, and the optic lobes of adult and embryo Sepia officinalis. Taurine is the most abundant amino acid in the cephalopod nervous tissue. Its content amounts to more than 50% of the total free amino acids. The other most concentrated amino acids are Glu, Ala, Asp, and GABA. High concentrations of d-aspartate were found in the nervous tissue of all cephalopods examined (7–12 μmol/g wet tissue) which represents 50–80% of the total aspartate (d + l), depending on the animal. Among the various regions of the brain of Octopus vulgaris, d-aspartate was found to be evenly distributed in the various regions of the brain. In nerve tissue of Sepia officinalis, there is no significant difference in the pattern of free l-amino acids, in particular of the d-aspartate concentration, between adults and embryos, except for GABA, Gly, His and Thr. This suggests that d-aspartate in nerve tissue of the Cephalopoda is of endogenous origin and not a product of accumulation from exogenous sources. From a comparative study of the content of d-aspartate in the nervous tissue of different animals, we found that protostomia contain a significantly higher amount than deuterostomia. Thus, d-aspartate could be a criterion to distinguish the protostomia phyla from the deuterostomia phyla.     

金黄色葡萄球菌壁磷壁酸致病与免疫的分子机制研究进展

金黄色葡萄球菌(Staphylococcus aureus)壁磷壁酸(wall teichoic acids, WTAs)是多元醇经由磷酸二酯键共价连接组成的细胞壁表面阴离子糖类聚合物,参与调节细胞壁的稳态并介导细菌毒力。金黄色葡萄球菌WTAs与宿主细胞表面特定的受体结合,可诱导天然免疫和获得性免疫应答。此外,金黄色葡萄球菌WTAs还参与调控毒力基因的表达,有助于细菌的定殖感染,在基因工程靶标治疗和噬菌体药物治疗方面具有广泛的应用前景。本文对金黄色葡萄球菌WTAs的合成进行了概述,综述了WTAs对宿主免疫应答的调控作用,以及在细菌对宿主侵袭与定殖中的致病机制,并归纳WTAs的耐药分子机制和作为药物治疗靶标的研究现状。这些研究为揭示WTAs的致病与免疫分子机制提供研究思路,为预防和治疗金黄色葡萄球菌的感染提供新的策略。     

Purification and properties of a highly enantioselective l-menthyl acetate hydrolase from Burkholderia cepacia

A highly enantioselective l-menthyl acetate esterase was purified to homogeneity from Burkholderia cepacia ATCC 25416, with a recovery of 4.8% and a fold purification of 22.7. The molecular weight of the esterase was found to be 37 kDa by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The N-terminal amino acid sequence was “MGARTDA”, and there was no homology in contrast to other Burkholderia sp. esterases. This enzyme preferentially hydrolyzed short-chain fatty acid esters of menthol with high stereospecificity and high hydrolytic activity, while long-chain l-menthyl esters were poor substrates. Considered its substrate specificity and N-terminal sequence, this esterase was concluded as a new enzyme belonging to the carboxylesterase group (EC 3.1.1.1) of esterase family. The optimum temperature and pH for enzyme activity using racemic menthyl acetate as substrate were 30 °C and 7.0, respectively. The esterase was more stable in the pH range of 7.0–9.0 and temperature range of 30–40 °C. Hydrolytic activity was enhanced by Ca²⁺, K⁺ and Mg²⁺, but completely inhibited by Hg²⁺, Cu²⁺, ionic detergents and phenylmethylsulfonyl fluoride (PMSF) at 0.01 M concentration.     

Metabolic fluxes and l-lysine synthesis by Corynebacterium glutamicum in relation to cellular total reducing activity

The total reducing activity (TRA) of cells was used to estimate the physiological activity of Corynebacterium glutamicum under conditions of l-lysine synthesis. This was estimated as the rate of reduction of 2,3,5- triphenyltetrazolium chloride by intact cells. TRA of cells was linearly correlated with the intracellular concentrations of RNA and the bacterial growth rate. It was concluded that this activity reflected the rate of energy generation in cells. A decrease in TRA of growing cells was related to an increase in bacterial lysine synthesis activity. Alteration in metabolic pathway functioning and an increase in the intracellular concentrations of lysine precursors favoured an increase in the rate of lysine synthesis by bacterial cells when cellular TRA was decreasing.     

Biofunctionalization of cellulosic fibres with l-cysteine: Assessment of antibacterial properties and mechanism of action against Staphylococcus aureus and Klebsiella pneumoniae

The main purpose of this work is to obtain a cotton-based textile material functionalized with l-cysteine (l-cys) to achieve an antimicrobial effect with potential application in biomedical, geriatric or pediatric textiles. The binding capacity of l-cys to cotton fibres was assessed through different functionalization strategies—surface activation and exhaustion processes. A subsequent analysis of the possible antibacterial action against Staphylococcus aureus and Klebsiella pneumoniae was performed according with the Japanese International standard ( JISL, 2008). To determine the mechanism of action of l-cys on the selected strains, flow cytometry was used.