The presence of an NADP-dependent alcohol dehydrogenase activity in Acinetobacter calcoaceticus

Abstract A soluble NADP-dependent alcohol dehydrogenase activity (EC 1.1.1.2) was found in all five strains of Acinetobacter calcoaceticus tested. In A. calcoaceticus NCIB8250, this dehydrogenase was not induced by growth on ethanol, but was present at approximately the same specific activity when this strain was grown on a variety of carbon sources. The specific activity of the NADP-dependent alcohol dehydrogenase is about 10% of the activity of the NAD-dependent alcohol dehydrogenase found in bacteria grown on ethanol. The distinct biochemical properties of the NADP-dependent dehydrogenase showed that this activity was not due to lack of nucleotide specificity of the NAD-dependent dehydrogenase.     

Characterisation of a siderophore from Acinetobacter calcoaceticus

Abstract The Gram-negatice bacterium Acinetobacter calcoaceticus was examined for production of siderophores and iron-repressible outer membrane proteins following growth in iron-restricted media. The iron chelator, 2,3-dihydroxybenzoic acid was identified in the culture supernatant bu ¹H nuclear magnetic resonance (NMR) spectroscopy and mass spectrometry (MS). A group of outer membrane proteins between 80 and 85 kDa were induced under iron restriction.     

Different forms of quinoprotein aldose-(glucose-) dehydrogenase in Acinetobacter calcoaceticus

The ratios of the oxidation rates of aldose sugars, determined in cell-free extracts of Acinetobacter calcoaceticus, vary with the strain and growth conditions used. Three distinct forms of glucose dehydrogenase with different substrate specificities, occurring in variable proportions in these extracts, are responsible for this effect. One form is the already known soluble glucose dehydrogenase, the other two forms are complexes containing enzyme and components of the respiratory chain. The proportions in which the enzyme forms are found in the cell-free extract correlate with the oxidative behaviour of whole cells with respect to aldose sugars. It is concluded, therefore, that the enzyme forms are not an artefact of the isolation procedure but that they exist as such in vivo. Since the two complexes can be converted into the soluble enzyme form, aldose dehydrogenase can, probably, be integrated in three different ways into the respiratory chain.The presence of glucose during growth does not stimulate aldose dehydrogenase production. This is not surprising since the enzyme has no function in carbon metabolism, except perhaps in strains growing on pentoses at high pH. Therefore, the physiological role of quinoprotein aldose dehydrogenase in this organism may be primarily in energy generation.Non-standard abbreviations quinoproteins enzymes containing 2,7,9-tricarboxy-1 H-pyrrolo [2,3f] quinoline-4,5-dione (pyrrolo-quinoline quinone) as the coenzyme     

Cyclic AMP stimulates the protein tyrosine kinase activity of Acinetobacter calcoaceticus

The protein tyrosine kinase activity of Acinetobacter calcoaceticus was analyzed in vitro through the specific phosphorylation of an endogenous protein which is modified exclusively at tyrosine residues. A strong stimulation of this activity by cyclic AMP was observed. This finding represents the first example of a protein tyrosine kinase, in prokaryotes as well as in eukaryotes, whose functioning is cyclic nucleotide-dependent.     

山梨糖脱氢酶在乙酸钙不动杆菌中的表达

目的:在乙酸钙不动杆菌Y2004中表达山梨糖脱氢酶。方法:将酮古龙酸菌山梨糖脱氢酶基因sdh以及从pWH1266质粒上扩增的复制原点ori先后酶切连接到pBBR1MCS2质粒上,构建pBBR1MCS2-ori-sdh穿梭质粒;再以pBBR1MCS2-ori-sdh/DH5α为供体菌、乙酸钙不动杆菌Y2004为受体菌、pRK2013/HB101为辅助菌进行三亲本接合转移;从氨苄青霉素和卡那霉素双抗平板上挑取转化子进行培养,通过菌落PCR和提取质粒复转筛选阳性克隆,再通过活性电泳和体外糖酸转化实验检测阳性克隆的山梨糖脱氢酶活性。结果:构建了pBBRMCS2-ori-sdh质粒并转入乙酸钙不动杆菌Y2004中,活性电泳和体外实验证实阳性克隆具有山梨糖脱氢酶活性。结论:实现了山梨糖脱氢酶在乙酸钙不动杆菌Y2004中的表达,为单菌糖酸转化的进一步研究奠定了基础。     

Purification and properties of l-lactate dehydrogenase from Acinetobacter calcoaceticus

Abstract Membrane-bound l -lactate dehydrogenase has been purified almost to homogeneity from Acinetobacter calcoaceticus . The enzyme is an oligomeric protein of sub-unit M _r 40 000 containing non-covalently bound FMN as a prosthetic group. Purified l -lactate dehydrogenase has an apparent K _m of 83 μM for l -lactate but has no activity with, and is not inhibited by, d -lactate. The enzyme is strongly inhibited by HgCl₂, but other thiol reagents and metal-chelating compounds have little or no effect upon its activity.     

UDP-N-acetylglucosamine 1-carboxyvinyl-transferase from Acinetobacter calcoaceticus

Abstract We have analyzed the sequence downstream of rpoN from Zcinetobacter calcoaceticus and identified an open reading frame encoding a protein with high similarity to UDP- N -acetylgucosamine 1-carboxyvinyl-transferase (MurZ). Multicopy plasmids encoding this enzyme conferred phosphomycin resistance to A. calcoaceticus . The polar effect of a rpoN mutation on the phosphomycin resistance level suggests that murZ is, in part, cotranscribed with rpoN . These observations confirm that A. calcoaceticus represents the first exceptin from a conserved genetic context of rpoN observed in several other Gram-negative bacteria.     

Verwertung von Trimethylammoniumverbindungen durch Acinetobacter calcoaceticus

Zusammenfassung Die Verwertung von Carnitin und Carnitinderivaten (O-Acylcarnitine, Carnitincarboxyl-derivate) und strukturverwandten Trimethylammoniumverbindungen (Betaine und Stickstoffbasen) durch Acinetobacter calcoaceticus wurde anhand des Wachstums und des quantitativen Nachweises der Metabolite untersucht. Der Stamm wuchs auf l-Carnitin, l-O-Acylcarnitinen und -Butyrobetain als jeweils einziger C-Quelle. Der Verbrauch dieser Verbindungen und das Wachstum korrelierten mit der Spaltung der C-N-Bindung und mit dem gebildeten Trimethylamin. d-Carnitin wurde metabolisiert, wenn als zusätzliche C-Quelle l-Carnitin im Nährmedium vorhanden war, oder wenn die Bakterien mit l-oder dl-Carnitin vorinkubiert worden waren. Mit d-Carnitin als einziger C-Quelle wuchsen die Bakterien jedoch nicht. Die Bakterien oxidierten Cholin zu Glycinbetain in Gegenwart einer zusätzlichen C-Quelle, Glycinbetain selbst wurde nicht assimiliert. In Hinsicht auf den Abbau quaternärer Stickstoffverbindungen besitzt Acinetobacter calcoaceticus im Vergleich zu anderen Carnitin-verwertenden Bakterienarten einen für ihn charakteristischen Stoffwechselweg.

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Utilization of trimethylammonium-compounds by Acinetobacter calcoaceticus

The utilization of carnitine and carnitine derivatives (O-acylcarnitines, carnitine carboxylderivatives) and structure-related trimethylammonium-compounds (betaines and nitrogen-bases) by Acinetobacter calcoaceticus was studied by means of the control of growth and the quantitative detection of metabolites. The strain grew only on l-carnitine, l-O-acylcarnitines, and -butyrobetaine as the sole carbon sources. The utilization of these compounds and the growth correlated with the cleavage of the C-N bond and thereby with the formation of trimethylamine. d-Carnitine was metabolized, if an additional carbon source, like l-carnitine, was present in the incubation mixture, or if the bacteria were preincubated with l-or dl-carnitine, but no growth was observed on d-carnitine as the sole carbon source. The bacteria oxidized choline to glycinebetaine in the presence of additional carbon sources, glycinebetaine itself was not assimilated. With regard to the catabolism of quaternary nitrogen compounds Acinetobacter calcoaceticus shows a different pathway in comparison with other bacterial species metabolizing carnitine.

     

Assimilatory nitrate reductase from Acinetobacter calcoaceticus

A soluble nitrate reductase from the bacterium Acinetobacter calcoaceticus grown on nitrate has been characterized. The reduction of nitrate to nitrite is mediated by an enzyme of 96000 molecular weight that can use as electron donors either viologen dyes chemically reduced with dithionite or enzymatically reduced with NAD(P)H, through specific diaphorases which utilize viologens as electron acceptors. Nitrate reductase activity is molybdenum-dependent as shown by tungstate antagonistic experiments and is sensitive to -SH reagents and metal chelators such as KCN.The enzyme synthesis is repressed by ammonia. Moreover, nitrate reductase activity undergoes a quick inactivation either by dithionite and temperature or by dithionite in the presence of small amounts of nitrate. Cyanate prevents this inactivating process and can restore the activity once the inactivation had occurred, thus suggesting that an interconversion mechanism may participate in the regulation of Acinetobacter nitrate reductase.Abbreviations EDTA ethylenediaminetetraacetate - BV benzyl viologen - MV methyl viologen - MW molecular weight - NEM N-ethylmaleimide - p-HMB p-hydroxymercuribenzoate - DCPIP 2,6-dichlorophenol-indophenol - FMN flavin mononucleotide - FAD flavin adenine dinucleotide - KCNO potassium cyanate     

Azide-resistant mutants in Acinetobacter calcoaceticus A2 are defective in protein secretion

Abstract Azide, an inhibitor of ATPase, and a specific inhibitor of protein export was used in order to select for protein secretion mutants in Acinetobacter calcoaceticus A2. Two such mutants were isolated that were azide-resistant and defective in the general protein transport system. The mutation also conferred additional phenotypic changes, including an inability to grow on minimal media or at 40°C. The existence of protein secretion mutants with a selectable phenotype may be useful for the genetic study of protein export.     

替加环素对多重耐药鲍曼不动杆菌引起重症肺炎患者的临床疗效

目的:探讨替加环素治疗多重耐药鲍曼不动杆菌引起的重症肺炎的临床疗效。方法:回顾性研究我院多重耐药鲍曼不动杆菌引起的重症肺炎60例,随机分为对照组和实验组,每组30例。对照组患者给予头孢哌酮舒巴坦治疗,实验组患者应用替加环素治疗。观察并比较两组患者治疗前后血清降钙素原(PCT)、C反应蛋白(CRP)及白细胞计数(WBC)的变化情况、不良反应情况、细菌清除情况及临床疗效。结果:与治疗前相比,两组患者血清PCT、CRP及WBC水平均降低(P0.05);与对照组相比,实验组患者血清PCT、CRP及WBC水平较低(P0.05);实验组不良反应发生率及再感染率低于对照组(P0.05);实验组细菌清除率及临床总有效率高于对照组(P0.05)。结论:对于由多重耐药鲍曼不动杆菌引起的重症肺炎,替加环素具有很好的临床疗效,值得在临床上推广使用。     

Changes in NADP-isocitrate dehydrogenase isoenzyme levels in Acinetobacter calcoaceticus in response to acetate

Abstract During adaptation of Acinetobacter calcoaceticus to growth on acetate the specific activity of NADP-isocitrate dehydrogenase increased. This response is unique, as in other bacteria grown under the same conditions the activity of the enzyme decreases as a result of covalent phosphorylation. Moreover, A. calcoaceticus is also unusual in containing two distinct isoenzymes of NADP-isocitrate dehydrogenase. It has here been shown that the adaptation of A. calcoaceticus to acetate is accompanied by an increase in the relative proportion of the larger, allosteric, isoenzyme with a concomitant decrease in the level of the smaller, non-allosteric, isoenzyme.     

Cloning of Acinetobacter calcoaceticus chromosomal region involved in catechin degradation

Acinetobacter calcoaceticus utilizes catechin as sole carbon source. The chromosomal region involved in catechin catabolism was cloned in Escherichia coli DH5alpha from the genomic DNA of A. calcoaceticus. A recombinant E. coli containing 9.2 kb DNA fragment of A. calcoaceticus inserted in pUC19 showed a halo zone around the colony in plate assays, indicating the catechin utilizing ability of the clone. Enzyme assays revealed the expression of the cloned DNA fragment of A. calcoaceticus. High performance thin layer chromatography confirmed protocatechuic acid and phloroglucinol carboxylic acid as cleavage products of catechin in A. calcoaceticus and the catechin degrading ability of the clones. A. calcoaceticus followed the beta-ketoadipate pathway for catechin degradation. The sub-clone (pASCI) of this insert was sequenced and analyzed. The sequence showed three major ORFs but only ORF 2 showed similarities to other aromatic oxygenases and the sequence of ORF 2 was submitted to GenBank (AF369935).     

Glucose stimulates a decrease of the fatty acid saturation degree in Acinetobacter calcoaceticus

The fatty acid composition of Acinetobacter calcoaceticus 69-V was determined under various growth conditions. Saturated, unsaturated, and hydroxy fatty acids with chain lengths of 12–18 carbon atoms predominated in the fatty acid profile. With acetate or propanol as growth substrates, the ratio of saturated to unsaturated fatty acids varied with changes in the temperature. This was the only adaptive mechanism detected that compensated for the physical effects of temperature alterations on the cell membranes. The fatty acid composition of A. calcoaceticus grown at 40 °C had a saturation degree of approximately 50%; after growth at 20 °C it was approximately 35%. In the presence of a carbon and energy source, A. calcoaceticus was able to respond to temperature reductions under oxic conditions regardless of whether fatty acid biosynthesis was inhibited or not. This suggests an aerobic mechanism of fatty acid biosynthesis and the involvement of a fatty acid desaturase system. Addition of the non-growth substrate, glucose, helped the organism to adapt to lower temperature. The molecular mechanism of the aid is not really understood. The oxidation of glucose could provide the desaturase either with electrons directly via a pyrrolo-quinoline-quinone-linked glucose dehydrogenase or with NADH after fatty acid degradation has been initiated by ATP generated by the oxidation of glucose. Received: 19 June 1998 / Accepted: 28 December 1998     

Phenanthrene Emulsification and Biodegradation Using Rhamnolipid Biosurfactants and Acinetobacter calcoaceticus In Vitro

The ability of biosurfactants and Acinetobacter calcoaceticus to enhance the emulsification and biodegradation of phenanthrene was investigated. Phenanthrene is a polycyclic aromatic hydrocarbon that may be derived from various sources, for example incomplete combustion of petroleum fuel, and thus it occurs ubiquitously throughout the environment. In order to assess the efficacy of a biosurfactant microparticle system, emulsification assays and in vitro biodegradation studies were conducted. Emulsification assays were carried out to assess the stability of phenanthrene emulsions. Emulsion stability was determined by the height of the emulsion layer (Emulsification Index) and turbidity. In vitro biodegradation tests were done to estimate phenanthrene degradation from an aqueous system by A. calcoaceticus supplemented with encapsulated (ERhBS) and nonencapsulated biosurfactants (NERhBS). Results show that phenanthrene emulsifications were stabilized after 48 h with NERhBS and remained stable for 72 additional hours. Phenanthrene emulsifications were stabilized with ERhBS after 216 h and remained stable for an additional 96 h. A. calcoaceticus alone and supplemented with rhamnolipid biosurfactant were able to biodegrade 10 to 50 mg L^?1 of phenanthrene within 250 h. When supplemented with NERhBS, A. calcoaceticus degraded phenanthrene significantly faster than when nonsupplemented or supplemented with ERhBS. Addition of exogenous biosurfactants was considered to be a major factor driving the direct correlation between decreasing phenanthrene concentration in the system and increasing bacterial biomass.     

Multiple molecular forms of gonadotropin-releasing hormone in teleost fish brain

Gonadotropin-releasing hormone (GnRH) immunoreactive peptides in extracts of hake (Merluccius capensis) and tilapia (Tilapia sparrmanii) brain were investigated by high performance liquid chromatography (HPLC) and radioimmunoassay with region-specific antisera. In hake brain, content and concentration of GnRH was higher in the pituitary gland than in the hypothalamic lobes or extrahypothalamic brain. Hake pituitary gland GnRH was purified by six consecutive HPLC systems. The major GnRH molecular form co-eluted with salmon brain GnRH (Trp7, Leu8-GnRH) in four different HPLC systems which were specifically designed to separate the four natural vertebrate GnRHs (mammalian, salmon, chicken I and II). The immunoreactive peak in the final purification step had a retention time identical to that of Trp7, Leu8-GnRH and an UV absorbance (280 nm) peak appropriate for two tryptophan residues in the peptide, as in Trp7, Leu8-GnRH. Six additional less hydrophobic forms of GnRH were detected. Tilapia brain extract contained two major GnRH molecular forms which had identical retention times to chicken GnRH I (Gln8-GnRH) and Trp7, Leu8-GnRH in an HPLC system which separates the natural vertebrate GnRHs. The immunological properties of these two immunoreactive peaks, determined by relative interaction with four region-specific GnRH antisera raised against vertebrate GnRHs, were identical to those of Gln8-GnRH and Trp7, Leu8-GnRH. Additional GnRH molecular forms were also detected. In summary, these findings indicate that a major GnRH molecule in hake pituitary gland is Trp7, Leu8-GnRH, while tilapia brain contains both Trp7, Leu8-GnRH and Gln8-GnRH. Additional GnRH molecular forms were detected in both species.(ABSTRACT TRUNCATED AT 250 WORDS)     

Purification of a periplasmic insulin-cleaving proteinase from Acinetobacter calcoaceticus

Cells of Acinetobacter calcoaceticus contain a constitutive periplasmic metalloproteinase showing similar properties as the periplasmic metalloproteinase of Escherichia coli. The periplasmic proteinase of A. calcoaceticus was purified, starting from periplasm, by ammonium sulfate precipitation, hydrophobic interaction chromatography and chromatofocusing up to the homogeneity of the enzyme in SDS-electrophoresis with a yield of 6.7% and a purification factor of 417. The enzyme has a molecular mass of 108000 (gel filtration) or 112000 (native electrophoresis), and consists of four identical subunits with a molecular mass of 27 000 (SDS-electrophoresis). The purified enzyme degrades preferentially polypeptides such as glucagon and insulin. Larger proteins are accepted as substrates to a considerably lower extent. All tested synthetic substrates with trypsin, chymotrypsin, elastase and thermolysin specificity were not cleaved. Therefore, the described enzyme was designated “insulin-cleaving proteinase” (ICP).     

Glucose as an energy donor in acetate growing Acinetobacter calcoaceticus

Since glucose can be oxidized but not assimilated by Acinetobacter calcoaceticus 69-V the question arose whether energy generated by glucose oxidation can help incorporate carbon from heterotrophic substrates and, if so, what the efficiency of ATP production is like. For this reason this species was grown in the chemostat on acetate. After having reached steady state conditions an increasing concentration of glucose was added. This led to an increase in the biomass level from about 0.4 g/g for growth on acetate alone to 0.6–0.65 g/g in the presence of glucose, independently of either the growth rate or the steepness of the glucose gradient used. This upper value approximates about the limit of the carbon conversion efficiency calculated for non-glycolytic substrates. Glucose was almost exclusively oxidized to gluconic acid, 2- and 5-ketogluconates, and pentose 5-phosphates were found only in traces. These results demonstrate that glucose functions as an additional energy source in Acinetobacter calcoaceticus 69-V. From the transient behaviour of biomass increase and the mixing proportion at which the maximum growth yield on acetate in the presence of glucose was obtained it followed that two mol of ATP must have been generated per mol of glucose oxidized. This property is discussed in terms of coupling glucose dehydrogenase with the respiratory chain.Abbreviations G _ox glucose oxidized to gluconic acid - G _t amount of glucose necessary for complete substitution of S _d - S _o inlet concentration of the limiting carbon substrate - S _a and S _d assimilated and dissimilated part respectively of the carbon substrate - PQQ pyrrolo-quinoline-quinone - V _ATP ^Ac ATP gain from complete oxidation to CO₂ of acetate (P/O=2) - V _ATP ^Glc ATP gain from oxidation of glucose to gluconic acid