Type 1 fimbriation is negatively regulated by cyclic AMP and its receptor proteinvia conjugative plasmid F inEscherichia coli K-12

Expression of fimbriation was studied inEscherichia coli K-12 CA8000 HfrH, and itscya, crp and MS2 resistant mutants. The cells of cya⁺ crp⁺ parent strain were observed to be flagellated bacilli, lacking fimbriae, unable to agglutinate erythrocytes and deficient in ability to produce surface pellicle during growth in stationary culture. The cells ofcya andcrp mutants were observed to be cocci or coccobacilli devoid of flagella, having haemagglutinating activity, fimbriated and capable of producing surface pellicle in stationary cultures. The fimbriation and haemagglutinating activities were lower incya mutants grown with cAMP supplementation. Thecya andcrp mutants produced relatively small, smooth and compact colonies consisting mostly of fimbriated cells, like those of earlier described Fimσ mutants. Thecya ⁺ crp⁺ MS2 resistant mutant produced large sized colonies like those of parent but was deficient in conjugal donor ability. It resembledcya andcrp mutants in haemagglutinating and fimbriation properties. Thecya andcrp mutants have been earlier shown to be deficient in several Tra functions including conjugal donor ability. It is concluded thatEscherichia coli K-12 cells express fimbriation when Tra functions of F-plasmid carried in them are not expressed either due to deficiency of active cAMP-receptor protein complex or mutation in F-plasmid or when F-plasmid is absent.     

Involvement of cyclic AMP and its receptor protein in the sensitivity of Escherichia coli K 12 toward serine: excretion of 2-ketobutyrate, a precursor of isoleucine.

Summary A relationship between serine-induced growth sensitivity and the cAMP-CAP complex is established. Mutants of Escherichia coli K 12 deficient either in the cya or crp gene function exhibit a resistant phenotype on serine media although they harbor a relA allele normally leading to sensitivity toward serine. The presence of a crp ^* allele in a cya rela background restores the sensitivity phenotype, while the analysis of serine resistant mutants selected from a crp ^* cya relA strains shows that the mutation leading to resistance is located at, or very near, the crp gene, giving a more or less Crp^- phenotype. In addition crp ^* cya relA strains excrete large quantities of 2-ketobutyrate when grown on glucose M63 medium. This excretion is unambiguously linked to the presence of the crp ^* allele and is correlated with an enhanced threonine deaminase activity. Besides, the complex regulation exerted on the acetolactate synthase activities is discussed.     

Multiple regulation of nucleoside catabolizing enzymes in Escherichia coli: effects of 3:5'' cyclic AMP and CRP protein.

Summary The regulation of the synthesis of nucleoside metabolizing enzymes has been studied in cya and crp mutant strains of Escherichia coli.The synthesis of the cyt-enzymes, cytidine deaminase and uridine phosphorylase regulated by the cytR gene product, is activated by the cAMP-CRP complex. On the other hand the synthesis of the deoenzymes: deoxyriboaldolase, thymidine phosphorylase, phosphodeoxyribomutase and purine nucleoside phosphorylase, appears to be increased if an active cAMP-CRP complex cannot be formed.It also seems that nucleosides serve as poor carbon sources for cya and crp mutants; this could not solely be explained by low levels of nucleoside metabolizing enzymes nor by a deficiency in nucleoside uptake. Addition of casamino acids stimulated the growth of cya and crp mutants, with nucleosides as carbon sources. When grown on glucose and casamino acids growth could be stimulated by adenine and hypoxanthine nucleosides; these results suggest an impaired nitrogen metabolism in cya and crp mutants.Abbreviations and Symbols cAMP cyclic adenosine 3:5-monophosphate - CRP cAMP receptor protein. Genes coding for: adenyl cyclase - cya cAMP receptor protein - crp cytidine deaminase - cdd uridine phosphorylase - udp thymidine phosphorylase - tpp purine nucleoside phosphorylase - pup; cytR regulatory gene for cdd, udp, dra, tpp, drm, and pup - deoR regulatory gene for dra, tpp, drm, and pup     

A new class of promoter mutations in the lactose operon of Escherichia coli

The isolation and genetic characterization of a number of mutations that are located in the promoter region of the lac2 operon are described. These mutations have reduced levels of lac operon expression in a wild, type (crp⁺cya⁺) genetic background. Three of the mutations also have lower levels of lac operon expression than lacP⁺ in a crp^?cya^? genetic background, that is in the absence of the catabolite activator protein and 3′,5′-adenosine cyclic monophosphate. These three mutations are located nearest to the lac operator. They define a second essential site in the promoter region.     

Resistance to mecillinam produced by the co-operative action of mutations affecting iipopolysaccharide, spoT, and cya or crp genes of Salmonella typhimurium

Lipopolysaccharide (LPS), spoT, and cya or crp mutations individually do not affect the minimum inhibitory concentration of mecillinam on Salmonella typhimurium. However, when mutations of two of these types were combined in the same strain, high-level resistance appeared, and increased even further when all three types of mutations were present. Most mutations affecting LPS (rfa, rfb, rfc) showed this behaviour, although to different degrees. The highest resistance to mecillinam was caused by galE and rfc mutations whereas almost no effect was noticed with rfaB or rfaK mutations. This phenomenon appears to be specific for mecillinam since none of several other antibiotics elicited it. Reduction of guanosine tetraphosphate (ppGpp) levels by introduction of a relA mutation did not significantly affect the MIC of mecillinam on strains carrying different combinations of SpoT, galE, and cya or crp mutations. All the strains produced spherical cells in medium with a low concentration (0.05 μg ml^?1) of the antibiotic. These results suggest that the antibacterial action of mecillinam on S. typhimurium is somehow dependent on the interaction of LPS, cyclic AMP/cyclic AMP receptor protein (cAMP/CRP), and SpoT. The reported resistance to mecillinam of cya and crp mutants of Escherichia coli K-12 is probably due to the natural LPS defectiveness of this strain.     

Cyclic AMP can replace the relA-dependent requirement for derepression of acetohydroxy acid synthase in E. coli K-12.

Derepression of the isoleucine and valine biosynthetic enzymes was strongly impaired in a relA strain of E. coli K-12 grown in an amino acid-glucose medium. The expression of the isoleucine and valine operons during leucine starvation was markedly defective in the relA mutant as compared to an isogenic rel⁺ strain. Downshift to a poor carbon and energy source or the addition of cyclic AMP to the glucose medium allowed normal derepression in the relA mutant of one of the isoleucine and valine enzymes, acetohydroxy acid synthase. The other isoleucine and valine enzymes failed to derepress under these conditions, in contrast to the high enzyme levels in the rel⁺ parent. No increase in acetohydroxy acid synthase was found in relA cya or relA crp strains during glycerol or pyruvate downshift. Cyclic AMP allowed derepression in the relA cya mutant but not in the relA crp strain. These data strongly suggest that the relA requirement for normal expression of acetohydroxy acid synthase can be replaced by cyclic AMP.     

Pleiotropic mutations in appR reduce pH 2.5 acid phosphatase expression and restore succinate utilisation in CRP-deficient strains of Escherichia coli

Summary Several strains of Escherichia coli K12 were compared for activity of the periplasmic pH 2.5 acid phosphatase, an enzyme whose expression is regulated negatively by cyclic AMP. Two distinct enzyme levels differing by about four-fold were observed. This strain-dependent difference does not involve modifications in the structure of the enzyme, but results from a difference in its expression. We show that (1) strains with a high- or a low level of enzyme differ in the gene locus appR located in the 59 min region of the chromosome, a site remote from the structural gene appA; (2) the appR ⁺ versus appR enzyme ratio is 3–4 in wild-type strains, adenylate cyclase-deficient strains (cya) or cyclic AMP receptor protein-deficient strains (crp) grown in rich medium or in glucose minimal medium, but is close to 1 in cya strains in the presence of 0.1 mM cyclic AMP and in wild-type strains grown with succinate as carbon source; (3) in a crp genetic background, appR strains, contrary to appR ⁺ strains, are able to grow on minimal medium with succinate as the sole carbon source. The selection, from an appR ⁺ crp strain, of clones growing on succinateminimal medium. yielded mutations in the same region of the chromosome and showing the same phenotype as naturally-occurring appR strains.All appR strains analysed so far showed other similar deficiencies. The possibility that mutated appR gene products might function as weak substitutes for a functional cAMP-CRP complex is discussed.     

Carbohydrate uptake genes inEscherichia coli are induced by carbon starvation

Escherichia coli produces several membrane-associated and periplasmic proteins in response to deprivation for a carbon source. The carbon starvation response involves a two- to fourfold, cAMP-dependent induction of operons involved in carbohydrate uptake and utilization, including thelac operon. Threecarbon-starvation-inducible (sci) gene fusions to aphoA reporter sequence were characterized. ThephoA-fusions werecya ⁺/crp ⁺-dependent and located in three previously characterized genes involved in high-affinity uptake of alternative carbon sources:mglB, encoding the periplasmic galactose binding protein;rbsB, encoding the periplasmic ribose binding protein; andlamB, encoding the maltodextrin-specific outer membrane porin.     

The role of cAMP in flagellation of Salmonella typhimurium

Summary A mutational alteration either in adenylate cyclase (cya ^-) or in cyclic-35-AMP (cAMP) receptor protein (crp ^-) rendered Salmonella typhimurium incapable of producing flagella. The amount of mRNA specific for flagellin in these mutants was almost negligible when assayed in an in vitro protein synthesizing system. A secondary mutation, cfs, partially suppressing the cya ^- mutation, was identified among the revertants of cya ^-. A mutation in the same cistron as cfs resulted in a non-flagellate phenotype either by itself or in combination with cfs. The cistron, which was given the gene symbol flaT, was located between flaE and flaL. It was suggested that cAMP receptor protein together with cAMP modulates the gene flaT, which in turn acts as a positive effector on the synthesis of active mRNA specific for flagellin.     

Regulation of lysine decarboxylase activity in Escherichia coli K-12

The biodegradative lysine decarboxylase of E. coli has been reported to attain a higher specific activity when grown to saturation in the presence of excess lysine under conditions of low pH and absence of aeration. In order to examine possible sources of the pH and anaerobic regulation, a series of isogenic strains of E. coli K-12 were constructed. The effects of cadR^-, fnr ^-, cya ^-, crp ^-and pgl ^-mutations on lysine decarboxylase expression were examined. Cultures were grown in a lysine supplemented rich medium at pH 5.5, pH 6.8, and pH 8.0 with and without aeration and the enzyme was assayed from log phase cultures. The results suggested that the pH and air responses were independent and that these known regulatory processes are not responsible for this regulation of the biodegradative lysine decarboxylase.     

Outer membrane proteins of Escherichia coli K-12: Isolation of a common receptor protein for bacteriophage T6 and colicin K

Summary tsx mutants, resistant to T6-like bacteriophages and colicin K, of Escherichia coli K-12 lack an outer membrane protein of 26,000 molecular weight. This protein is shown to have receptor activity for both bacteriophage T6 and colicin K. The protein has been purified and its amino acid composition determined. Some tsx mutants appear to have an altered receptor protein, as indicated by their ability to plate extended host-range mutants of bacteriophage T6. These mutants are also cotransducible with proC and can be arranged in an order of increasing resistance to the host range phages, which appear to have differing degrees of ability to propagate on the tsx mutants.The tsx protein was shown to be catabolite repressible both by use of varying growth conditions and cya and crp mutants.     

Interaction of the CRP-cAMP complex with the cea regulatory region

Summary Analysis of the induction of expression of cea-lacZ fusions in cya and crp mutants showed that catabolite repression affects the kinetics of induction and the rate of induced synthesis. In a cya mutant, addition of cAMP reduced the induction lag and increased the amount of -galactosidase produced. The CRP-cAMP complex was found to bind to two sites 5 to the cea promoter, but deletion analysis showed that only one of these was involved in the control of cea. Deletion of this site resulted in a loss of the stimulatory effects of cAMP in a cya mutant.     

Isolation and characterization of cAMP suppressor mutants of Escherichia coli K12

Summary We have isolated spontaneous and chemically induced revertants of cya mutant strains of Escherichia coli. Three different classes of revertants were obtained. One class consisted of primary site revertants; a second class was pseudorevertants that had phenotypically reverted to wild type but retaining the original cya mutation and the third class of revertants, designated csm, were pseudorevertants hypersensitive to exogenous cAMP. Transductional analysis of the csm mutation indicated the mechanism of suppression in these strains was intergenic. The csm mutation and hypersensitivity to cAMP map in or near the crp gene. Growth of the csm strains of PTS (phosphoenolpyruvate phosphotransferase system) and non-PTS substrates was inhibited by 5 mM cAMP. The csm strains were found to accumulate toxic levels of methylglyocal when grown on non-PTS substrates in the presence of exogenous cAMP. All csm strains were sensitive to catabolite repression mediated by -methylglucoside. Revertants selected as resistant to cAMP fell into four major classes that could be distinguished by their fermentation patterns in the presence and absence of cAMP as well as by their growth response to streptomycin in the presence of cAMP.Paper No. 6623 of the Journal Series of the North Carolina Agricultural Research Service, Raleigh, North Carolina 27650, USA     

Cyclic AMP-receptor protein activates aerobactin receptor IutA expression in <Emphasis Type="Italic">Vibrio vulnificus</Emphasis>

The ferrophilic bacterium Vibrio vulnificus can utilize the siderophore aerobactin of Escherichia coli for iron acquisition via its specific receptor IutA. This siderophore piracy by V. vulnificus may contribute to its survival and proliferation, especially in mixed bacterial environments. In this study, we examined the effects of glucose, cyclic AMP (cAMP), and cAMP-receptor protein (Crp) on iutA expression in V. vulnificus. Glucose dose-dependently repressed iutA expression. A mutation in cya encoding adenylate cyclase required for cAMP synthesis severely repressed iutA expression, and this change was recovered by in trans complementing cya or the addition of exogenous cAMP. Furthermore, a mutation in crp encoding Crp severely repressed iutA expression, and this change was recovered by complementing crp. Accordingly, glucose deprivation under iron-limited conditions is an environmental signal for iutA expression, and Crp functions as an activator that regulates iutA expression in response to glucose availability.     

Carbon-starvation induction of the ugp operon, encoding the binding protein-dependent sn-glycerol-3-phosphate transport system in Escherichia coli.

Summary The gene products of the ugp operon of Escherichia coli are responsible for the uptake of sn-glycerol-3-phosphate and certain glycerophosphodiesters. The regulation of ugp is mainly phoBR-dependent. Significant expression, however, can be observed even in the presence of high concentrations of phosphate, a condition which normally completely represses pho expression. Pho-independent ugp expression was found to be derepressed during the late logarithmic growth phase due to carbon starvation. Among different carbon sources tested, glucose caused the most complete repression. Addition of cAMP prevented glucose repression, indicating that a cAMP-CRP control mechanism may be directly or indirectly involved in the carbon-starvation response. This conclusion is supported by the fact that pho-independent ugp expression correlated with the presence of the cya and crp gene products.