New rapid and simple methods for detection of bacteria and determination of their antibiotic susceptibility by using phage mutants.

Three new methods applying a novel approach for rapid and simple detection of specific bacteria, based on plaque formation as the end point of the phage lytic cycle, are described. Different procedures were designed to ensure that the resulting plaques were derived only from infected target bacteria ("infectious centers"). (i) A pair of amber mutants that cannot form plaques at concentrations lower than their reversion rate underwent complementation in the tested bacteria; the number of plaques formed was proportional to the concentration of the bacteria that were coinfected by these phage mutants.

In situ on-line toxicity biomonitoring in water: recent developments.

In situ on-line biomonitoring is an emerging branch of aquatic biomonitoring. On-line biomonitoring systems use behavioral and/or physiological stress responses of caged test organisms exposed in situ either in a bypass system or directly in-stream. Sudden pollution waves are detected by several existing single-species on-line biomonitors, which until now have been placed mostly in streamside laboratories.

Accumulation and remobilization of amino acids during senescence of detached and attached leaves: in planta analysis of tryptophan levels by recombinant luminescent bacteria.

The process of leaf senescence is biochemically characterized by the transition from nutrient assimilation to nutrient remobilization. The nutrient drain by developing vegetative and reproductive structures has been implicated in senescence induction. The steady-state levels of amino acids in senescing leaves are dependent on the rate of their release during protein degradation and on the rate of efflux into growing structures.

A novel and sensitive test for rapid determination of water toxicity.

The performance of a novel, rapid, and sensitive test for detecting chemical toxicants in water is described in this article. The bioassay utilizes a highly sensitive variant of the luminescent bacterium Photobacterium leiognathi that allows the detection in water at levels below milligrams per liter of diverse groups of toxicants, including heavy metals, pesticides, PCBs, polycyclic aromatic hydrocarbons, and fuel traces. For most toxic agents reported in this study, the new assay was markedly more sensitive than the Microtox(trade mark) Vibrio fischeri assay according to the bacterial bioluminescence toxicity data reported in the literature.

Detection of bacteria using foreign DNA: the development of a bacteriophage reagent for Salmonella.

A phage-based reagent was developed for the detection of Salmonella in food samples. The parental phage was Felix 01, which lyses practically all Salmonella. Using data obtained about the molecular biology of the phage, a recombinant phage that carried the bacterial genes specifying luciferase was produced.

A bacteriophage reagent for Salmonella: molecular studies on Felix 01.

Felix 01 (F01) is a bacteriophage originally isolated by Felix and Callow which lyses almost all Salmonella strains and has been widely used as a diagnostic test for this genus. Molecular information about this phage is entirely lacking. In the present study, the DNA of the phage was found to be a double-stranded linear molecule of about 80 kb.

Highly sensitive and rapid detection of antibody catalysis by luminescent bacteria.

A highly sensitive, inexpensive, and facile bioluminescent assay for the detection of catalytic antibodies has been developed. This assay may be used for the early detection of antibody catalysis. The efficiency of this technique was exemplified by the use of the luminescent bacterium VhM42 for monitoring an antibody-catalyzed retroaldol fragmentation reaction with aldolase antibodies 38C2 and 24H6.

In vivo and in vitro function of GroEL mutants with impaired allosteric properties.

Escherichia coli cells that produce only plasmid-encoded wild-type or mutant GroEL were generated by bacteriophage P1 transduction. Effects of mutations that affect the allosteric properties of GroEL were characterized in vivo. Cells containing only GroEL(R197A), which has reduced intra-ring positive cooperativity and inter-ring negative cooperativity in ATP binding, grow poorly upon a temperature shift from 25 to 42 degrees C.

LuxR controls the expression of Vibrio fischeri luxCDABE clone in Escherichia coli in the absence of luxI gene.

We have recently suggested that the expression of V. fischeri right lux operon is initiated from two sites, the first located upstream of the luxI gene, while the second seems to be located upstream of the luxC gene. The transcription from both sites is negatively controlled by H-NS protein.

Identification and quantification of toxic chemicals by use of Escherichia coli carrying lux genes fused to stress promoters.

The luxCDABE bioluminescence genes of the Vibrio fischeri lux system have been used as a reporter system for different stress and regulatory promoters of Escherichia coli. Selected E. coli strains carrying lux genes fused to different promoters were exposed to various toxic chemicals, and the recorded luminescence was used for the characterization of the biologic signature of each compound.

H-NS controls the transcription of three promoters of Vibrio fischeri lux cloned in Escherichia coli.

We have recently proposed that the expression of V. fischeri right lux operon is controlled by two promoters; the first one located upstream of the luxl gene, while the second one seems to be located upstream of the luxC gene. The transcription from both promoters is negatively controlled by H-NS protein.

H-NS protein represses transcription of the lux systems of Vibrio fischeri and other luminous bacteria cloned into Escherichia coli.

High expression in Escherichia coli of the lux system cistron of a luminous bacteria under its own control has been accomplished only for the Vibrio fischeri lux system at high cell density. Mutation of the hns gene in E. coli has resulted in strong expression of the V.

Bacterial toxicity of cyclodextrins: luminuous Escherichia coli as a model.

The effect of various concentrations of natural and chemically modified cyclodextrins on the luminescence of an Escherichia coli suspension was investigated. All cyclodextrins were found to reduce, albeit to a varying degree, the luminescence level of the bacterial cells, thus suggesting a direct interaction between the cyclodextrins and cells. The inhibitory concentrations IC20 and IC50 of the various cyclodextrins were determined and taken to represent their toxicity effects upon the bacterial cells.

GroESL proteins facilitate binding of externally added inducer by LuxR protein-containing E. coli cells.

htpR- (rpoH, sigma 32 minus) strain of E. coli harbouring the whole lux system of Vibrio fischeri is very dim. We have recently shown that GroESL proteins fully recover the expression of the lux system in this strain.

Formation of the LuxR protein in the Vibrio fischeri lux system is controlled by HtpR through the GroESL proteins.

The transcription of the luminescence (lux) system of Vibrio fischeri is regulated by the LuxR protein and an autoinducer. We previously showed that apart from these regulatory elements, the transcription of the lux system is negatively controlled by the LexA protein and positively controlled by the HtpR protein (sigma 32). This study was conducted in order to elucidate the mode of action of the HtpR protein.

A stable Escherichia coli-Mycobacterium smegmatis plasmid shuttle vector containing the mycobacteriophage D29 origin.

A plasmid shuttle vector for Escherichia coli and mycobacteria was constructed from an E. coli plasmid containing the ColE1 origin, a 2.6-kb PstI fragment from bacteriophage D29 that grows in numerous mycobacterial species, and the kanamycin resistance gene either of Tn903 or of Tn5.

Citrate synthase from Mycobacterium smegmatis. Cloning, sequence determination and expression in Escherichia coli.

A Mycobacterium smegmatis PstI library was constructed by cloning these fragments downstream from the lac promoter of the expression vector pHG171. Three identically sized clones were isolated by complementation of an Escherichia coli strain (chi 2338) deficient in citrate synthase. One insert (pBL265) was used in hybridization experiments with DNA from E.

Mass transfer studies using cloned-luminous strain of Xanthomonas campestris.

Measurements of mass transfer in a highly viscous pseudoplastic broth, which is typical to Xanthomonas campestris fermentations, are difficult to obtain by conventional methods and little data is available. A novel research method that uses bioluminescence for mass transfer studies has been developed. A plasmid carrying the luminescence operon of marine luminous bacteria is introduced into an industrial bacteria, X.

Determination of oil oxidation by an aldehyde-requiring mutant of luminous bacteria.

A simple, rapid bioluminescence test (BT) for the determination of lipid oxidation is described. The test utilizes an aldehyde-requiring dark mutant of Vibrio harveyi (M42) that emits light in the presence of long chain (C8-C16) aliphatic aldehydes. The procedure consists of treating the oil or fat with CO2+ ion in ethanolic medium at alkaline pH.

The regulatory control of the bacterial luminescence system--a new view.

We have recently shown that the transcription of the PR lux operon for Vibrio fischeri luminescence is positively controlled by the htpR (sigma 32) protein. It was suggested that the LexA protein might negatively control the lux genes. This paper extends these findings.

Detection of genotoxicity of metallic compounds by the bacterial bioluminescence test.

Twenty metallic compounds were assayed for their genotoxic mutagenic activity by the bioluminescence test restoration of the luminescence of dark mutant of the luminous bacterium Photobacterium fischeri). The activity of the metals was tested in a liquid medium as well as on a solid medium. K2Cr2O7, MnCl2, BeCl2, KH2AsO4, ZnCl2 and Na2WO4 showed strong activity in liquid medium while AgNO3, Cd(OOCCH3)2, CoCl2, CuCl2, HgCl2, Na2SeO3 and Pb(NO3)2 were more active in the solid medium test.

The transcription of bacterial luminescence is regulated by sigma 32.

Luminescence in the marine bacterium, Vibrio fischeri, is regulated by a small molecule, the autoinducer. The transcription of the V. fischeri lux genes also requires a regulatory protein, (luxR), cAMP and CRP.

Use of bacterial luciferase to establish a promoter probe vehicle capable of nondestructive real-time analysis of gene expression in Bacillus spp.

We report the construction and use of a new promoter probe vehicle capable of allowing extremely sensitive measurements of transcriptional activity promoted from random, chromosomal DNA fragment inserts. Coupled with the advantage of sensitivity, the detection system is noninvasive, nondestructive, and provides real-time reportage of expression potential. These latter aspects make it an especially valuable system for a continuing analysis of the complex transcriptional regulation patterns now recognized as a dominant control feature during the differentiation and morphogenesis characteristic of the sporulation cycle in Bacillus species.