Kinetic properties of Serratia marcescens adenosine 5''-diphosphate glucose pyrophosphorylase.

The regulatory properties of partially purified adenosine 5'-diphosphate-(ADP) glucose pyrophosphorylase from two Serratia marcescens strains (ATCC 274 and ATCC 15365) have been studied. Slight or negligible activation by fructose-P2, pyridoxal-phosphate, or reduced nicotinamide adenine dinucleotide phosphate (NADPH) was observed. These compounds were previously shown to be potent activators of the ADPglucose pyrophosphorylases from the enterics, Salmonella typhimurium, Enterobacter aerogenes, Enterobacter cloacae, Citrobacter freundii, Escherichia aurescens, Shigella dysenteriae, and Escherichia coli. Phosphoenolpyruvate stimulated the rate of ADPglucose synthesis catalyzed by Serratia ADPglucose pyrophosphorylase about 1.5- to 2-fold but did not affect the S0.5 values (concentration of substrate required for 50% maximal stimulation) of the substrates, alpha-glucose-1-phosphate, and adenosine 5'-triphosphate. Adenosine 5'-monophosphate (AMP), a potent inhibitor of the enteric ADPglucose pyrophosphorylase, is an effective inhibitor of the S. marcescens enzyme. ADP also inhibits but is not as effective as AMP. Activators of the enteric enzyme counteract the inhibition caused by AMP. This is in contrast to what is observed for the S. marcescens enzyme. Neither phosphoenolpyruvate, fructose-diphosphate, pyridoxal-phosphate, NADPH, 3-phosphoglycerate, fructose-6-phosphate, nor pyruvate effect the inhibition caused by AMP. The properties of the S. marcescens HY strain and Serratia liquefaciens ADPglucose pyrophosphorylase were found to be similar to the above two S. marcescens enzymes with respect to activation and inhibition. These observations provide another example where the properties of an enzyme found in the genus Serratia have been found to be different from the properties of the same enzyme present in the enteric genera Escherichia, Salmonella, Shigella, Citrobacter, and Enterobacter.     

One-step purification of chitinase from Serratia marcescens NK1, a soil isolate

AIMS: A simple single step technique of gel filtration was developed for the purification of chitinase from Serratia marcescens NK1. METHODS AND RESULTS: Chitinase from Ser. marcescens NK1 was purified to homogeneity by gel filtration chromatography with 9.2% recovery. The enzyme had a pH optimum of 6.2 and a temperature optimum of 47 degrees C. It was stable in a wide pH range of 3.0 to 10.0, retaining 60% activity at pH 3.0 and 65% activity at pH 10.5. It retained 70% activity at 28 degrees C after 72 h and nearly 50% activity at 50 degrees C up to 24 h. CONCLUSION: The chitinase from Ser. marcescens NK1 can be efficiently purified in a single step by gel filtration chromatography. The chitinase of Ser. marcescens NK1, a soil isolate, is highly stable and as active as that of other reported isolates of Ser. marcescens. SIGNIFICANCE AND IMPACT OF THE STUDY: This purification scheme is advantageous because of its simplicity and can therefore be applied for the purification of other enzymes. The yield is sufficient for initial characterization studies of the enzyme, and an improved resolution can be obtained if the chromatography is done under fast flow systems.     

ISOLATION AND PROPERTIES OF AN EXOCELLULAR NUCLEASE OF SERRATIA MARCESCENS

Eaves, George N. (Wayne State University College of Medicine, Detroit, Mich.) and Charles D. Jeffries. Isolation and properties of an exocellular nuclease of Serratia marcescens. J. Bacteriol. 85:273-278. 1963.-The exocellular nuclease of Serratia marcescens, isolated by anion-exchange chromatography on diethylaminoethyl-Sephadex, depolymerized deoxyribonucleic acid, ribonucleic acid, and the polynucleotide which is refractory to pancreatic ribonuclease activity. The enzyme was tentatively classified as a nonspecific phosphodiesterase. Magnesium was essential for activity, which was optimal at pH 8.8. The purified enzyme was completely inactivated by heating at 50 C for 15 min.     

Tumor inhibitory and non-tumor inhibitory L-asparaginases from Pseudomonas geniculata.

Two enzymes that catalyze the hydrolysis of l-asparagine have been isolated from extracts of Pseudomonas geniculata. After initial salt fractionation, the enzymes were separated by chromatography on diethylaminoethyl-Sephadex and purified to homogeneity by gel filtration, ion-exchange chromatography, and preparative polyacrylamide electrophoresis. The enzymes differ markedly in physicochemical properties. One enzyme, termed asparaginase A, has a molecular weight of approximately 96,000 whereas the other, termed asparaginase AG, has a molecular weight of approximately 135,000. Both enzymes are tetrameric. The asparaginase A shows activity only with l-asparagine as substrate, whereas the asparaginase AG hydrolyzes l-asparagine and l-glutamine at approximately equal rates and it is also active with d-asparagine and d-glutamine as substrates. The asparaginase A was found to be devoid of antitumor activity in mice, whereas the asparaginase AG was effective in increasing the mean survival times of both C3H mice carrying the asparagine-requiring Gardner 6C3HED tumor line and Swiss mice bearing the glutamine-requiring Ehrlich ascites tumor line. These differences in antitumor activity were related to differences in the K(m) values for l-asparagine for the two enzymes. The asparaginase A has a K(m) value of 1 x 10(-3) M for this substrate whereas the corresponding value for the AG enzyme is 1.5 x 10(-5) M. Thus the concentration of asparagine necessary for maximal activity of the asparaginase A is very high compared with that of the normal plasma level of asparagine, which is approximately 50 muM.     

Unique aspects of the regulation of the aspartate transcarbamylase of Serratia marcescens.

Aspartate trancarbamylase (ATC ase; EC 2.1.3.2) from Serratia marcescens HY has been purified 134-fold. Its properties are unique. Unlike the ATCase from Escherichia coli and Salmonella typhimurium, the S. marcescens HY enzyme activity is not feedback inhibited by any purine or pyrimidine nucleotide effectors; instead, the enzyme is activated by both cytidine 5'-triphosphate and adenosine 5'-triphosphate. Like the ATCase from E. coli and S. typhimurium, adenosine 5'-triphosphate alters the [S]0.5 of the enzyme and, in contrast, cytidine 5'-triphosphate does not alter the [S]0.5 but, instead, alters the Vmax. As has been shown for both E. coli and S . typhimurium, effector sensitivity may be selectively dissociated form catalytic activity by treatment with heat, parachloromercuribenzoate, or neohydrin. This dissociated enzyme possesses threefold higher specific activity than the native enzyme. The sedimentation coefficient of the native enzyme is approximately 11.4S, whereas the dissociated enzyme has a value of 6.0S. Whereas it has been possible to reconstitute the E. coli and the S. marcescens ATCase enzymes from their own homologous subunits, it has not been possible to make hybrid enzymes of catalytic and regulatory heterologous subunits from each other. It was not possible to detect repression of ATCase formation after growth of prototrophic strains of S. marcescens HY supplemented with 200 mug of uracil per ml, but eightfold derepression was observed after uracil withdrawal in pyrimidine auxotrophs.     

Regulation of carbamylphosphate synthesis in Serratia marcescens.

Serratia marcescens HY possessed a single carbamylphosphate synthase (CPSase) which was subject to cumulative repression by arginine and a pyrimidine. CPSase did not appear to be a part of a multifunctional enzyme complex as is the case for other enzymes of pyrimidine biosynthesis in this organism. CPSase was purified to homogeneity. The molecular weight of the enzyme was estimated to be 167,000 by sucrose density gradient ultracentrifugation. The double-reciprocal plot for magnesium adenosine triphosphate was linear, yielding a Km value of 2.5 mM. The enzyme utilized either glutamine (Km, 0.1 mM) or NH3 (Km, 10.5 mM) as a nitrogen donor in the reaction. CPSase activity was subject to activation by ornithine and feedback inhibition by uridine monophosphate, as is the case for other enteric bacteria. Carbamate kinase activity, detected in crude extracts of S. marcescens, was shown to be due to a constitutive acetate kinase. The absence of carbamate kinase from S. marcescens HY is consistent with the inability of this organism to utilize arginine as a source of energy under anaerobic conditions.     

Purification and Partial Characterization of the B Subunit of Serratia marcescens Tryptophan Synthetase

A trpE mutant of Serratia marcescens (E-7) was isolated, and the multimeric enzyme tryptophan synthetase (EC 4.2.1.20) was purified to homogeneity from derepressed cells. The A and B subunits were resolved, and the B subunit was partially characterized and compared with the Escherichia coli B subunit as part of a comparative evolution study of the trpB cistron of the trp operon in the Enterobacteriaceae. The S. marcescens B subunit is a dimer (beta(2)), and its molecular weight was estimated to be 89,000. The separate subunits (beta monomers) had molecular weights of approximately 43,000. The B subunit required pyridoxal phosphate for catalytic activity and had an apparent K(m) of 9 x 10(-6) M. The N terminus of the B subunit was unavailable for reaction with terminal amine reagents (blocked), whereas carboxypeptidase digestion released a C-terminal isoleucine. Using S. marcescens B antiserum in agar immunodiffusion gave an almost complete reaction of identity between the B subunits of S. marcescens and E. coli. The antiserum was used in microcomplement fixation, allowing for a comparison of the overall antigenic surface structure of the two B subunits. The index of dissimilarity for the heterologous E. coli enzyme compared with the homologous S. marcescens enzyme was 2.4, indicating extensive similarity of the two proteins at their surfaces. Comparative antiserum neutralization of B-subunit enzyme activity showed the E. coli enzyme to cross-react 85% as well as the S. marcescens enzyme. With regard to the biochemical and immunochemical parameters used in this study, the S. marcescens and E. coli B subunits were either identical or very similar. These findings support the idea that the trpB cistron of the trp operon is a relatively conserved gene in the Enterobacteriaceae.     

Survey of modifying enzymes and plasmids in amikacin-resistant Serratia marcescens

Forty amikacin-resistant strains of Serratia marcescens isolated from four different hospitals (A, B, C, and D) were examined for modifying enzymes and plasmids. Twenty-one of the isolates produced acetyltransferase that modified amikacin. Eighteen of the 21 acetyltransferase-bearing isolates were from different inpatients in hospital A and the other three were from hospital C. Amikacin resistance was mediated by conjugative plasmid of 24 megadaltons in 15 of the 18 acetyltransferase-bearing isolates of hospital A and by nonconjugative plasmids, derivatives of the 24-megadalton plasmids, in the remaining three isolates of the same hospital. The 24-megadalton plasmid determined aminoglycoside acetyltransferase (6') IV. This plasmid-borne enzyme conferred amikacin resistance on S. marcescens but not on Escherichia coli K12. The frequency of transfer of the 24-megadalton plasmid from the S. marcescens isolate to E. coli K12 by conjugation was approximately 10(-7) (transconjugants/donors) and was 0.1% of that between E. coli strains. In acetyltransferase-bearing isolates from hospital C, the enzyme was mediated by a nonconjugative plasmid in one case and could not be associated with a plasmid in the remaining two cases. Neither enzymes nor plasmids could be associated with amikacin resistance of the isolates of the other two hospitals.     

In vivo anti-tumor immunity detected by leukocyte adherence inhibition

Summary The immune response of mice to a transplacentally induced alveolar cell tumor was studied with the leukocyte adherence inhibition (LAI) assay. The lung tumor, designated 85, was induced in a C3HfB/HeN (C3Hf) mouse by l-ethyl-l-nitrosourea (ENU). While a dose of 10⁵ cells of this tumor does not grow in syngeneic C3Hf mice, it does grow readily in (A×C3Hf)F₁ hybrid mice. The tumor possesses a tumor associated transplantation antigen (TATA) which cross-reacts with a normal tissue alloantigen in strain A/HeN (A) mice. Normal mice, tumor-immunized C3Hf mice, and tumor-bearing (A×C3Hf)F₁ mice possessed peritoneal cells, the majority of which adhered rapidly to glass and resisted gentle washing. When incubated with an extract of the 85 tumor, peritoneal cells from tumor-immunized mice demonstrated marked inhibition of adherence (62.4%) compared to similarly incubated peritoneal cells of either normal mice (30.3%) or tumor bearing mice (37.1%). Specificity of the reactivity in the LAI assay was demonstrated with a neuroblastoma extract and peritoneal cells from neuroblastoma-immunized C3Hf mice. Peritoneal cells from lung tumor-immunized mice, but not tumor-bearing mice, responded to a lung extract from strain A mice. In contrast to the microcytotoxicity assay, the LAI assay is capable of distinguishing the effective anti-tumor response of tumor-immunized C3Hf mice from the ineffective immune response of tumor-bearing (A×C3Hf)F₁ mice.     

Purification and properties of a thermostable chitinase from Streptomyces thermoviolaceus OPC-520.

A chitinase was purified from the culture filtrate of Streptomyces thermoviolaceus OPC-520. The enzyme showed a high optimum temperature (70 to 80 degrees C), a high optimum pH level (8.0 to 10.0), and heat stability. This enzyme showed high sequence homology with chitinases from Serratia marcescens QMB1466 and Bacillus circulans WL-12.     

Insights into the role of the (alpha+beta) insertion in the TIM-barrel catalytic domain, regarding the stability and the enzymatic activity of chitinase A from Serratia marcescens

Chitinase A (ChiA) from Serratia marcescens is a mesophilic enzyme with high catalytic activity and high stability. The crystal structure of ChiA has revealed a TIM-barrel fold of the catalytic domain, an (alpha+beta) insertion between the B7 beta-strand and A7 alpha-helix of the TIM-barrel, an FnIII domain at the N-terminus of the molecule and a hinge region that connects the latter to the catalytic domain. In this study, the role of the (alpha+beta) domain on the stability, catalytic activity and specificity of the enzyme was investigated by deleting this domain and studying the enzymatic and structural properties of the resulting truncated enzyme. The obtained data clearly show that by removing the (alpha+beta) domain, the thermal stability of the enzyme is substantially reduced, with an apparent T(m) of 42.0+/-1.0 degrees C, compared to the apparent T(m) of 58.1+/-1.0 degrees C of ChiA at pH 9.0. The specific activity of ChiADelta(alpha+beta) was substantially decreased, the pH optimum was shifted from 6.5 to 5.0 and the substrate and product specificities were altered.     

The recA-recBCD dependent recombination pathways of Serratia marcescens and Proteus mirabilis in Escherichia coli: functions of hybrid enzymes and hybrid pathways.

The physical maps of cloned recBCD gene regions of Serratia marcescens and Proteus mirabilis were correlated to genes located in this region. The genes thyA, recC, recB, recD and argA were organized as in Escherichia coli. The 3 rec genes code for the 3 different subunits of the RecBCD enzyme and produced enzymes promoting recombination and repair of UV damage in E coli. The recBCD-dependent stimulation of recombination at specific nucleotide sequences called Chi (Chi-activation) was determined in lambda red-gam-crosses. Chi-activation by the different RecBCD enzymes decreased in the order E coli greater than S marcescens greater than P mirabilis. In E coli cloned subunits genes from S marcescens and P mirabilis led to the formation of functional hybrid enzymes consisting of subunits from 2 or even 3 species. The origin of the RecC subunit present in the hybrid enzymes affected the degree of Chi-activation. Further, changes in Chi-activation occurred when the RecD subunit in the enzyme from E coli was replaced by RecD proteins from S marcescens or P mirabilis. This suggested that the RecD subunit determines not only whether or not Chi-activation is possible but also to which extent it occurs. Finally we have reconstituted recombination pathways of S marcescens and P mirabilis by combining the cloned recA and recBCD genes from these species in E coli deleted for recA and recBCD. Both pathways can efficiently promote recombination and repair. Studies are summarized which showed that levels of repair and recombination promoted by the recA-recBCD genes are mostly higher when the recA and recBCD genes came from the same species than from 2 different species (hybrid RecBCD recombination pathway). The data are interpreted to provide evidence that in vivo the RecA protein co-operates with the RecBCD enzyme in recombination and repair of UV damage.     

Rejection of murine ovarian cancer following treatment with regional immunotherapy: correlations with a neutrophil-mediated activation of cytostatic macrophages

Rejection of the murine ovarian teratocarcinoma (MOT) in C3HeB/FeJ mice, following intraperitoneal (ip) treatment with Corynebacterium parvum (C. parvum), is abrogated by injections of silica. We, therefore, investigated whether C. parvum-elicited macrophages affect MOT targets in vitro. Tumor-cytostatic, but not cytolytic, macrophages were detected in normal and tumor-challenged mice treated with C. parvum. The dose responsiveness and kinetics of macrophage activation strongly correlated with tumor rejection. A pyridine extract of C. parvum, possessing greatly diminished tumor rejection properties, was significantly less effective in activating macrophages. Cytostatic macrophage activation and prevention of tumor outgrowth also followed treatment in C3H/HEJ mice, a strain with a known deficiency in cytolytic macrophage function. Peritoneal neutrophils, obtained 6 hr after treatment with C. parvum, were capable of activating cytostatic macrophages when reinjected ip into normal mice. These results indicate a critical role for tumor cytostatic macrophages in this immunotherapy model and suggest their activation is mediated by inflammatory neutrophils.     

Characterization of phosphatidylinositol phospholipase C activity in human melanoma

Phosphoinositide phospholipase C activity was investigated in human melanoma grown as solid tumor xenografts in nude mice. The enzyme was dependent on calcium for activity and was stimulated by the detergent deoxycholate. The pH optimum was 5.5 in the absence of detergent, and in the presence of deoxycholate two pH maxima were present, 5.5 and 7.2. Phospholipase C activity was inhibited by the sulfhydryl reagent dithionitrobenzoate with an IC50 in the micromolar range. Phospholipase C activity was distributed widely in mouse tissues. The enzyme showed a progressive increase in activity from heart, liver, lung, colon, spleen, to brain tissue. Mouse and human melanomas grown as solid tumors had higher phospholipase C activity than mouse brain. The relatively high activity of this enzyme in melanoma may suggest a biological role for phospholipase C in solid tumor growth.     

Molecular cloning, characterization, and genetic mapping of an endogenous murine mammary tumor virus proviral unit I of C3H/He mice.

We have cloned and characterized a novel endogenous murine mammary tumor virus proviral unit of the C3H/He strain of mice. The cloned proviral unit is 16 kilobase pairs (kbp) in size and is composed of a 5.6-kbp 5' EcoRI segment of an endogenous provirus with 10.4-kbp flanking cellular sequences. A comparison of the restriction map of the cloned proviral DNA with that of an endogenous provirus of the GR strain of mice has revealed minor differences in restriction sites on the two proviruses. The restriction enzyme SstI, which does not cleave the 5' EcoRI fragment of GR DNA, cleaves the C3H/He proviral sequences once; MspI has an additional site in the C3H/He proviral sequences. By using a subcloned fragment containing unique cellular sequences as a hybridization probe, we (i) mapped the C3H/He proviral unit to chromosome 14 by using mouse-hamster somatic cell hybrids, and (ii) demonstrated that this proviral unit is also present in the genome of DBA/2 mice. From these results we conclude that the C3H/He strain of mice acquired this proviral unit from DBA stock by genetic transmission. Our data also indicate that the murine mammary tumor virus sequences present in the gag-specific proviral unit of C3H/He mice extend at least 2.45 kbp downstream of the EcoRI site in the genomic DNA. Since the structural organization and chromosomal location of this proviral unit are distinct from those of previously reported proviral units represented by similar-sized (16.7-kbp) EcoRI fragments, we tentatively propose to designate this proviral unit Mtv-7a.     

Cytotoxic Effect of Prodigiosin,Natural Red Pigment,Isolated from Serratia marcescens UFPEDA 398

Prodigiosin is a secondary metabolite, with red pigmentation, produced by Serratia marcescens. Red pigment is a natural alkaloid whose chemical structure has three pyrrole rings. Prodigiosin has been described for several biological activities, including antitumor, inducing apotosis in T and B lymphocytes. This work aimed to evaluate the cytotoxic activity of prodigiosin in NCHI-292, HEp-2, MCF-7 and HL-60 tumor cell lines. The red pigment was isolated from Serratia marcescens UFPEDA 398 biomass whose fractions were previously separated by column chromatography, purified, identified and further characterized by GC–MS and compared with the computerized library of m/z values. The pigment corresponded to prodigiosin with maximum absorption at 534 nm, molecular weight 323 and structural formula C20H25N3O. During the prodigiosin purification process a purple absorbance fraction at 272.65 nm was also observed. Significant cytotoxic effects of prodigiosin were evidenced for NCHI-292, Hep-2, MCF-7 and HL-60 tumor cell lines. The isolated purple fraction had no cytotoxic effect (IC50 11.3 µg/mL) when compared to prodigiosin (IC50 3.4 µg/mL) for the tumor cell lines studied. The MCF-7 strain was slightly more pigment resistant (IC50 5.1 µg/mL). Therefore, further studies will be needed to elucidate the antitumor mechanisms of prodigiosin action against tumor strains from flow cytometry tests. However, although these data are preliminary, it was evidenced that prodigiosin showed cytotoxic activity in tumor cell lines suggesting promising antitumor properties. In this sense, future studies on the cytotoxic and genotoxic effects of prodigiosin produced by S. marcecsens UFPEDA 398 are suggested.     

Characterization of a metalloprotease inhibitor protein (SmaPI) of Serratia marcescens.

As suggested by Y. Suh and M.J. Benedik (J. Bacteriol. 174: 2361-2366, 1992), Serratia marcescens ATCC 27117 produced very small amounts (0.8 U ml-1) of an inhibitor protein (SmaPI) that shows an inhibitory activity against extracellular 50-kDa metalloprotease (SMP) of S. marcescens and that is localized in the periplasm of cells at the optimal growth temperature of 25 degrees C. A recombinant S. marcescens harboring plasmid pSP2 encoding SMP and SmaPI genes produced 20 U of SmaPI ml-1 that is also localized in the periplasm of cells at 25 degrees C. However, a large amount of SmaPI (86 Uml-1) was extracellularly produced at the supraoptimal growth temperature 37 degrees C from the recombinant S. marcescens (pSP2). We purified SmaPI from the culture supernatant of S. marcescens (pSP2) grown at 37 degrees C, and some biochemical properties were characterized. SmaPI had a pI value of about 10.0 and was a monomeric protein with a molecular mass of 10,000. SmaPI was produced from a precursor SmaPI by cleavage of a signal peptide (26 amino acid residues). The inhibitor was stable in boiling water for up to 30 min. The thermostability of SmaPI can be attributed to its reversible denaturation. SmaPI inhibited SMP by formation of a noncovalent complex with a molar ratio of 1:1 and showed a high protease specificity, which inhibited only SMP among the various proteases we examined.     

Udp-galactose: glycoprotein galactosyltransferase activity in a clonal line of rat brain.

1. UDPgalactose:glycoprotein galactosyltransferase (EC 2.4.1.-) activity was demonstrated in homogenates from whole rat brain, isolated neuromal perikarya, enriched glial cell fractions, and cultured rat glial tumor cells (clone C6). 2. Galactosyltransferase activity was enriched 3-9-fold in neuronal perikarya and 1.4--1.8-fold in the glial cell fraction over the activity in whole brains from 19- and 40-day-old rats. The activity of galactosyltransferase in neuronal perikarya decreased with age. Extensive contamination of the glial cell fraction with membranous fragments appeared to obscure the precise specific activity of this fraction. 3. The specific activity of the enzyme in glial tumor cells was 4--8-fold higher than in brain tissue when the enzyme was assayed under identical conditions using endogenous and different exogenous acceptors. 4. Galactosyltransferase activities from adult brain and glial tumor cells had similar properties. They both required Mn-2 plus and Triton, and exhibited pH optima between 5 and 7. The apparent Km of the enzyme for UDPgalactose was 1.3-10-minus 4 M for brain tissue and 2.2-10-minus 4 M for glial tumor cells. 5. The high galactosyltransferase activity in glial tumor cells and in neuronal perikarya of younger rats is compatible with the possibility of a role of this enzyme in developing brain.     

Crystallization of recombinant chitinase from the cloned chiA gene of Serratia marcescens.

The chiA gene encoding for the chitinase enzyme from Serratia marcescens was efficiently overexpressed under the pL promoter and the enzyme was secreted into the growth medium. The chitinase was purified to homogeneity using affinity chromatography on a Phenyl-Sepharose column and the protein was successfully crystallized. The crystals are presently in the form of small needles in space group C222(1) and have unit cell dimensions a = 204(+/- 0.5) A, b = 134(+/- 0.5) A, c = 60(+/- 0.5) A. The crystals diffract X-rays to about 3 A resolution and are suitable for three-dimensional structural analysis.     

Rapid and quantitative detection of blood Serratia marcescens by a real-time PCR assay: its clinical application and evaluation in a mouse infection model

Large-scale nosocomial outbreaks of Serratia marcescens septicaemia in Japan have had a fatality rate of 20-60% within 48 h. As a countermeasure, a real-time PCR assay was constructed for the rapid diagnosis of S. marcescens septicaemia. This assay indeed detected S. marcescens in clinical blood specimens (at ca. 10(2)CFU ml(-1)), at a frequency of 0.5% in suspected cases of septicaemia. In mice, the assay provided estimates of blood S. marcescens levels at various infectious stages: namely, 10(7) to 10(8)CFU ml(-1) at a fatal stage (resulting in 100% death), 10(4)-10(5)CFU ml(-1) at a moderately fatal stage (resulting in 50% or more death), and <10(3)CFU ml(-1) at a mild stage (resulting in 100% survival), consistent with actual CFU measurements. Blood bacterial levels could be an important clinical marker that reflects the severity of septicaemia. The simultaneous detection of S. marcescens and the carbapenem resistance gene was also demonstrated.