Cloning of the gene coding for chitobiase ofSerratia marcescens

Summary A λ phage DNA library ofSerratia marcescens was constructed and a clone carrying the gene coding for chitobiase (E.C.3.2.1.29) was isolated and characterized. Deletion analysis limited the cloned region to 4.5 kb that is capable of efficient expression of chitobiase.Escherichia coli cells harboring a plasmid carrying the cloned gene express chitobiase constitutively. The molecular weight of the protein is about 95000 daltons. In exponentially growingE. coli cells the chitobiase enzyme was found to be secreted into the periplasm.     

Study of the Mechanism of Action of p-Chloromercuribenzoate on Endonuclease from the Bacterium Serratia marcescens

The mechanism of action of p-chloromercuribenzoate (PCMB) on Serratia marcescens nuclease was investigated. The analysis showed that PCMB forms complexes with DNA. Binding of C₇H₅O₂Hg⁺ to DNA changes the secondary structure of the DNA. These changes alter the enzymatic activity of S. marcescens nuclease, which was previously found to be sensitive to the secondary structure of the substrates. The nuclease activity was either suppressed or stimulated in the presence of PCMB depending on the C₇H₅O₂Hg⁺ to nucleotide equivalent ratio. Binding of C₇H₅O₂Hg⁺ to DNA did not form an abortive enzyme–substrate complex. Binding of Mg²⁺ to the C₇H₅O₂Hg–DNA complex caused appropriate changes in secondary structure of the substrate. Since Mg²⁺ and C₇H₅O₂Hg⁺, though differing in the type of metal cation, are similar in their mechanisms of influence on enzymatic activity of S. marcescens nuclease, the identity of other metal-containing effectors in their mechanism of action on Serratia marcescens nuclease is assumed.     

A Comparative Structure–Function Analysis and Molecular Mechanism of Action of Endonucleases from Serratia marcescens and Physarum polycephalum

Structural and functional characteristics were compared for wild-type nuclease from Serratia marcescens, which belongs to the family of DNA/RNA nonspecific endonucleases, its mutational forms, and the nuclease I-PpoI from Physarum polycephalum, which is a representative of the Cys-His box-containing subgroup of the superfamily of extremely specific intron-encoded homing DNases. Despite the lack of sequence homology and the overall different topology of the Serratia marcescens and I-PpoI nucleases, their active sites have a remarkable structural similarity. Both of them have a unique magnesium atom in the active site, which is a part of the coordinatively bonded water–magnesium complex involved in their catalytic acts. In the enzyme–substrate complexes, the Mg²⁺ ion is chelated by an Asp residue, coordinates two oxygen atoms of DNA, and stabilizes the transition state of the phosphate anion and 3"-OH group of the leaving nucleotide. A new mechanism of the phosphodiester bond cleavage, which is common for the Serratia marcescens and I-PpoI nucleases and differs from the known functioning mechanism of the restriction and homing endonucleases, was proposed. It presumes a His residue as a general base for the activation of a non-cluster water molecule at the nucleophilic in line displacement of the 3"-leaving group. A strained metalloenzyme–substrate complex is formed during hydrolysis and relaxes to the initial state after the reaction.     

Action of hexaamminecobalt on the activity of Serratia marcescens nuclease

Using CD spectroscopic and kinetic analysis, a refined mechanism of Co(NH₃) ₆ ³⁺ action on activity of Serratia marcescens nuclease was elucidated. The mechanism was identical with previously found mechanisms of Mg²⁺ and C₇H₅O₂Hg⁺. Similarly to Mg²⁺ and C₇H₅O₂Hg⁺, Co(NH₃) ₆ ³⁺ binding to the DNA substrate induced changes in the secondary structure which resulted in changes of the enzymatic activity of the S. marcescens nuclease. Upon binding of 0.03 Co(NH₃) ₆ ³⁺ per DNA phosphate, highly polymerized DNA displayed A-form characteristics. The DNA transition from B-form to A-form intermediate was followed by a decrease of the nuclease activity. The diminishing nuclease activity was consistent with diminishing values of Km and Kcat. Co(NH₃)₆ ³⁺ binding to the highly polymerized DNA caused a 1.7–2.8-fold decrease in Km, and 13.3–19.9 decrease in Vmax compared with Mg-DNA complex. A vast excess of Co(NH₃)₆ ³⁺ did not affect the activity of S. marcescens nuclease if the DNA in the assay mixture remained in its B-form conformation. Preincubation of S. marcescens nuclease with Co(NH₃)₆ ³⁺ did not influence the tertiary structure of the enzyme.     

Identification of a heat-labile cellular nuclease in Staphylococcus aureus with properties similar to the extracellular nuclease (EC 3.1.4.7)

Besides the well-known heat-stable extracellular staphylococcal nuclease (EC 3.1.4.7) and cell surface bound nuclease, one more nuclease, which is heat-labile, has been identified and purified on phosphorylated cellulose column and characterized. Analyses by Sephadex G-75 gel chromatography indicates that the heat-labile cellular nuclease has molecular weight of about 16,000 similar to those of extracellular and cell-surface bound nucleases. Like the heat-stable nucleases, the heat-labile enzyme acts on both DNA and RNA, is more active on heat-denatured DNA, requires Ca²⁺ ions for activity and maximum catalytic activity is observed at pH 9.8–10 and at 45°C. The results suggest that the three enzymes have properties strikingly similar to one another and therefore may be related structurally.     

Molecular characterization of polyphosphate kinase (ppk) gene from Serratia marcescens

To understand the mechanism of phosphate accumulation, a gene encoding polyphosphate kinase (PPK) was cloned from the genomic library of Serratia marcescens by Southern hybridization. From the nucleotide sequence of a 4 kb DNA fragment, an open reading frame of 2063 nucleotides was identified encoding a protein of 686 amino acids with molecular mass of 70 kDa. The potential CRP binding site and pho box sequence were found upstream of the putative promoter in the regulatory region. The expression of PPK resulted in the formation of inclusion bodies and the product was active at low temperature. The E. coli strain harboring plasmid pSPK5 with ppk gene increased enzyme activity of polyphosphate kinase, resulting in increased accumulation of polyphosphate in E. coli.     

Bacterial 2,3-butanediol dehydrogenases

Enterobacter aerogenes, Aeromonas hydrophila, Serratia marcescens and Staphylococcus aureus possessing L(+)-butanediol dehydrogenase produced mainly meso-butanediol and small amounts of optically active butanediol; Acetobacter suboxydans, Bacillus polymyxa and Erwinia carotovora containing D(-)-butanediol dehydrogenase produced more optically active butanediol than meso-butanediol. Resting and growing cells of these organisms oxidized only one enantiomer of racemic butanediol. The D(-)-butanediol dehydrogenase from Bacillus polymyxa was partially purified (30-fold) with a specific activity of 24.5. Except NAD and NADH no other cofactors were required. Optimum pH-values for oxidation and reduction were pH 9 and pH 7, respectively. The optimum temperature was about 60°C. The molecular weight was 100000 to 107000. The K _m-values were 3.3 mM for D(-)-butanediol, 6.25 mM for meso-butanediol, 0.53 mM for acetoin, 0.2 mM for NAD, 0.1 mM for NADH, 87 mM for diacetyl, 38 mM for 1,2-propanediol; 2,3-pentanedion was not a substrate for this enzyme. The L(+)-butanediol dehydrogenase from Serratia marcescens was purified 57-fold (specific activity 22.3). Besides NAD or NADH no cofactors were required. The optimum value for oxidation was about pH 9 and for reduction pH 4.5. The optimum temperature was 32–36°C. The molecular weight was 100000 to 107000. The K _m-values were 5 mM for meso-butanediol, 10 mM for racemic butanediol, 6.45 for acetoin, 1 mM for NAD, 0.25 mM for NADH, 2.08 mM for diacetyl, 16.7 mM for 2,3-pentanedion and 11.8 mM for 1,2-propanediol.Abbreviations Bud 2,3-butanediol - DH dehydrogenase     

Optimal conditions for chitinase production by<Emphasis Type="Italic">Serratia marcescens</Emphasis>

A chitinase-producing bacterium was isolated from seashore mud around Beobseongpo in Chunmam province through the use of a selective enrichment culture. The best chitinase producing strain was isolated and identified asSerratia marcescens KY from its characteristics. For effective production of chitinase, optimum pH, temperature, and agitation speed were investigated in flask cultures. The optimum pH usingSerratia marcescens KY was between pH 6 and 7 and the chitinase produced was 37.9 unit/mL. On the other hand, the optimal pH of theSerratia marcescens ATCC 27117 was 7.5, and the produced amount of chitinase was 35.2 unit/mL. The optimal temperature for chitinase production forSerratia marcescens KY andSerratia marcescens ATCC 27117 was 30°C. The cell growth pattern at different temperature was almost identical to the chitinase production. To investigate the optimal shaking speed under optimal culture, speeds were varied in the range of 0≈300 rpm. The maximum production of chitinase was carried at 200 rpm although the cell growth was the highest at 150 rpm. It indicates that oxygen adjustment is required for the maximum chitinase production. Using optimal conditions, batch cultures for comparingSerratia marcescens KY andSerratia marcescens ATCC 27117 were carried out in a 5 L fermentor. The oxygen consumption was increased with the increase of culture. Especially, at 120 h of cultureSerratia marcescens KY andSerratia marcescens ATCC 27117 produced 38.3 unit/mL, and 33.5 unit/mL, respectively.     

Nuclease Biosynthesis and Growth of <Emphasis Type="Italic">Serratia marcescens</Emphasis> in the Presence of 2-(<Emphasis Type="Italic">p</Emphasis>-Aminobenzenesulfonamide)-thiazole

The biosynthesis of nuclease in Serratia marcescens has been studied under the conditions of purine synthesis inhibition with 2-(p-aminobenzenesulfonamide)-thiazole. The addition of this sulfonamide to S. marcescens at different growth stages is found to inhibit both culture growth and nuclease synthesis.__________Translated from Mikrobiologiya, Vol. 74, No. 3, 2005, pp. 365–369.Original Russian Text Copyright © 2005 by Starshinova, Filimonova.     

Isolation of <Emphasis Type="BoldItalic">Serratia marcescens</Emphasis> as a chondroitinase-producing bacterium and purification of a novel chondroitinase AC

A strain of Serratia marcescens that produced chondroitinase was isolated from soil. It produced a novel chondroitinase AC, which was purified to homogeneity. The enzyme was composed of two identical subunits of 35 kDa as revealed by SDS-PAGE and gel filtration. The isoelectric point for the chondroitinase AC was 7.19. Its optimal activity was at pH 7.5 and 40 °C. The purified enzyme was active on chondroitin sulfates A and C and hyaluronic acid, but was not with chondroitin sulfate B (dermatan sulfate), heparin or heparan sulfate. The apparent K_m and V_max of the chondroitinase AC for chondroitin sulfate A were 0.4 mg ml^–1 and 85 mmol min^–1 mg^–1, respectively, and for chondroitin sulfate C, 0.5 mg ml^–1 and 103 mmol min^–1 mg^–1, respectively.     

A Quantitative Microtiter Plate Nuclease Assay Based on Ethidium/DNA Fluorescence

A microtiter plate assay was developed to quantitate the nuclease activity of the extracellularSerratia marcescensendonuclease under different buffer conditions. Substrate cleavage was followed as decrease in ethidium/DNA fluorescence using a uv-transilluminator and a video documentation system. Time courses of DNA cleavage were recorded and cleavage rates determined very precisely within a factor of 1.2. The assay has a linear dynamic range covering three orders of magnitude of nuclease activity and can be carried out very quickly within a few minutes. It can also be used with RNA as substrate. With appropriate modifications it should be possible to adapt this assay for other enzymatic reactions which are accompanied by changes in absorbance or fluorescence.     

The Accumulation of Proteins with Chitinase Activity in the Culture Liquids of the Parent and Mutant Serratia marcescens Strains Grown in the Presence of Mitomycin C

The study of the accumulation pattern of extracellular proteins with chitinase activity in the parent Serratia marcescens strain Bú 211 (ATCC 9986) grown in the presence of mitomycin C and its mutant strain with the constitutive synthesis of chitinases grown in the absence of the inducer showed that chitinase activity appeared in the culture liquids of both strains at the end of the exponential phase (4 h of growth) and reached a maximum in the stationary phase (18–20 h of growth). The analysis of the culture liquids (12 h of growth) by denaturing electrophoresis in PAAG followed by the protein renaturation step revealed the presence of four extracellular proteins with chitinase activity and molecular masses of 21, 38, 52, and 58 kDa.     

Production of a biosurfactant exhibiting excellent emulsification and surface active properties bySerratia marcescens

A biosurfactant exhibiting excellent emulsification activity and surface properties was isolated during growth ofSerratia marcescens on 2% (w/v) sucrose. Reduction in surface tension values and increase in the yield of biosurfactant during the late log phase of growth indicates that the biosurfactant is a secondary microbial metabolite. The biosurfactant formed stable emulsions with a wide variety of hydrocarbons. The isolated surface-active compound has a potential application in enhanced oil recovery and is stable over a wide range of temperatures (10-120‡C) and pH (2-12). This is the first report of effective and stable emulsion formation by a strain ofSerratia marcescens.     

Optimization of <Emphasis Type="Italic">Serratia marcescens</Emphasis> lipase production for enantioselective hydrolysis of 3-phenylglycidic acid ester

Lipase production and cell growth of Serratia marcescens ECU1010 were optimized in shake flasks, with lipase production being enhanced 9.5-fold (4,780 U/l) compared with the initial activity (500 U/l). Optimal carbon and nitrogen sources were Tween-80 and peptone, and the optimal ratio of Tween-80 to peptone was 1:3. The optimized cultivation conditions were 25°C and pH 6.5. Lipase activity, particularly specific activity, could be improved by decreasing the cultivation temperature from 35 to 25°C. Enzyme stability was significantly improved by simple immobilization with synthetic adsorption resin no. 8244. After five reaction cycles, enzyme activity decreased only very slightly, while enantioselectivity of the preparation remained constant, and the ee_s (enantiomeric excess of the remaining substrate) achieved in all cases was higher than 97%. The resin-8244-lipase preparation can be used for efficient enantioselective hydrolysis of trans-3-(4-methoxyphenyl)glycidic acid methyl ester [(±)-MPGM], a key intermediate in the synthesis of Diltiazem.     

Relaxed mutants ofSerratia marcescens SM-6. Biochemical traits and relevance of therel + allele for the formation of exoenzymes

Serratia marcescens SM-6 when starved for a required amino acid stops synthesizing protein and RNA and accumulates two nucleotides which cochromatograph with ppGpp and pppGpp. These features are characteristic of bacterial strains with stringent RNA control (rel ⁺). Two independent mutants were isolated which resemble relaxed (relA) mutants ofEscherichia coli; they continue to synthesize RNA and accumulate neither ppGpp nor pppGpp when deprived of the required amino acid. The extracellular enzyme activities (nuclease, protease, lipase) of the relaxed mutants are about the same as those of the parental stringent strain when studied under standard growth conditions. Exoenzyme-deficient (nuc; prt) and exoenzyme-hyperproducing (nuc ^su) mutants were isolated from both stringent and relaxed strains ofS. marcences SM-6 and no change of the cellular ability to form ppGpp and pppGpp could be observed. From these results it appears that the formation of exoenzymes ofS. marcescens SM-6 is independent of stringent/relaxed RNA control.Abbreviations cpd cyclic nucleotide phosphodiesterase deficient - nuc nuclease deficient - nuc ^su nuclease hyperproducing - prt protease deficient - rel relaxed control - spo ppGpp deficient (spot less) - ppGpp guanosine tetraphosphate - pppGpp guanosine pentaphosphate - TCA trichloroacetic acid - OD optical density - EU enzyme units     

Isolation and sequence analysis of a small cryptic plasmid pRK10 from a corrosion inhibitor degrading strain Serratia marcescens ACE2

The nucleotide sequence of a smallest cryptic plasmid pRK10 of Serratia marcescens ACE2 was determined. When compared to the all other plasmids reported so far from S. marcescens in sizes of over 70 kb, pRK10 is only 4241 bp long with 53% G + C content and has five coding sequences representing a coding percentage of 65.41. This small plasmid consists of one Tdh gene, four mobilization genes, mobCABD, and an origin of replication homologous to those of ColE1-type plasmids. Analysis of the five open reading frames identified on the plasmid suggests the presence of genes involved in replication and mobilization containing sequences homologous to the bom region and mobCABD genes of ColE1 and Tdh from Acinetobacter baumannii str. AYE. Results also indicate that pRK10 does not encode any gene for antibiotic/heavy metal resistance. Copy number and incompatibility of the plasmid with plasmids of ColE1 origin of replication was determined and it is quite stable in its natural host as well as in Escherichia coli DH5α. This relatively small plasmid will be useful for construction of shuttle vectors to facilitate the genetic analysis.     

Chitinases from <Emphasis Type="BoldItalic">Serratia marcescens</Emphasis> Nima

Chitinolytic activity of Serratia marcescens Nima (130 U ml⁻¹) was up to 43 times higher than those produced by other S. marcescens strains. This strain synthesized an endochitinase (Chi-60), an exochitinase (Chi-50) and a novel N-acetylglucosaminidase. This latter showed two putative isoforms (Chi-180.5 and Chi-180.8) with isoelectric points of 5 and 8.1, respectively.     

Enzymatic properties of lipase and characteristics production byLactobacillus delbrueckii subsp.bulgaricus

Some properties of an extracellular lipase produced byLactobacillus delbrueckii subsp.bulgaricus were studied. Maximum enzyme activity was found against olive and butter oil as enzyme substrates. Addition of 9% acacia gum, 0.1% Na-deoxycholate and 0.01 M CaCl₂ to the enzyme reaction mixture increased-lipase activity from 5.3 to 14.5 (FFA/mg protein/minute) at pH 6.0 and at 40° C. Maximum lipase production was reached in the presence of glucose as a sole source of carbon, wheat bran as nitrogen source, olive oil as a sole lipid source and butyric acid as fatty acid supporting the growth medium. An initial pH value of the culture medium of 6.0 and a temperature of 35° C gave the highest lipolytic activity.     

Decolourization of synthetic dyes by a newly isolated strain of Serratia marcescens

A novel dye-decolourizing strain of the bacterium Serratia marcescens efficiently decolourized two chemically different dyes Ranocid Fast Blue (RFB) and Procion Brilliant Blue-H-GR (PBB-HGR) belonging respectively to the azo and anthraquinone groups. Extracellular laccase and manganese peroxidase (MnP) activity were detected during dye decolourization. The involvement of MnP activity was found in the decolourization of both dyes. More than 90% decolourization of PBB-HGR and RFB was obtained on days 8 and 5, respectively at 26 °C under static conditions at pH 7.0. MnP activity was increased by the addition of Mn²⁺ · At 50 M Mn²⁺, high MnP (55.3 U/ml) but low laccase activity (8.3 U/ml) was observed. Influence of oxalic acid on MnP activity was also observed.     

Molecular cloning and characterization of the gene encoding a fibrinolytic enzyme from <Emphasis Type="Italic">Bacillus subtilis</Emphasis> Strain A1

A fibrinolytic metalloprotease gene from Bacillus subtilis has been cloned in Escheridria coliXL1-Blue and the bacterial expressed enzyme was purified. The nucleotide sequence of the cloned fibrinolytic enzyme gene revealed a single open reading frame of 1023 bp coding for 341 amino acids (M _r 37708.21 Da). N-terminal amino acid sequencing of the fibrinolytic enzyme excreted from E. coli host cells revealed that the mature fibrinolytic enzyme consists of 288 amino acids (M _r 31391.1 Da). The deduced amino acid sequence showed significant homology with Erwina carotovora neutral metalloprotease and Serratia marcescens minor metalloprotease by 65 and 58% amino acid sequence identity, respectively. The protein showed significant alignments with the conserved domain of catalytic activity and the -helix domain in Bacillus anthracisthermolysis metalloprotease. The biochemical properties of the purified enzyme suggested that the enzyme is a fibrinolytic metalloprotease, which has optimal activity at pH 7.0 and 50 °C.