Your search keyword '"Regulation"' showing total 246 results

1. IcmF2 of the type VI secretion system 2 plays a role in biofilm formation of Vibrio parahaemolyticus.

Author

Huang, Qinglian, Zhang, Miaomiao, Zhang, Yiquan, Li, Xue, Luo, Xi, Ji, Shenjie, and Lu, Renfei

Abstract

Vibrio parahaemolyticus possesses two distinct type VI secretion systems (T6SS), namely T6SS1 and T6SS2. T6SS1 is predominantly responsible for adhesion to Caco-2 and HeLa cells and for the antibacterial activity of V. parahaemolyticus, while T6SS2 mainly contributes to HeLa cell adhesion. However, it remains unclear whether the T6SS systems have other physiological roles in V. parahaemolyticus. In this study, we demonstrated that the deletion of icmF2, a structural gene of T6SS2, reduced the biofilm formation capacity of V. parahaemolyticus under low salt conditions, which was also influenced by the incubation time. Nonetheless, the deletion of icmF2 did not affect the biofilm formation capacity in marine-like growth conditions, nor did it impact the flagella-driven swimming and swarming motility of V. parahaemolyticus. IcmF2 was found to promote the production of the main components of the biofilm matrix, including extracellular DNA (eDNA) and extracellular proteins, and cyclic di-GMP (c-di-GMP) in V. parahaemolyticus. Additionally, IcmF2 positively influenced the transcription of cpsA, mfpA, and several genes involved in c-di-GMP metabolism, including scrJ, scrL, vopY, tpdA, gefA, and scrG. Conversely, the transcription of scrA was negatively impacted by IcmF2. Therefore, IcmF2-dependent biofilm formation was mediated through its effects on the production of eDNA, extracellular proteins, and c-di-GMP, as well as its impact on the transcription of cpsA, mfpA, and genes associated with c-di-GMP metabolism. This study confirmed new physiological roles for IcmF2 in promoting biofilm formation and c-di-GMP production in V. parahaemolyticus. [ABSTRACT FROM AUTHOR]

Published

2024

2. What determines symbiotic nitrogen fixation efficiency in rhizobium: recent insights into Rhizobium leguminosarum.

Author

Li, Xiaofang and Li, Zhangqun

Subjects

*NITROGEN fixation, *RHIZOBIUM leguminosarum, *HOMEOSTASIS, *RHIZOBIUM, *AMINO acid metabolism, *NITROGEN cycle

Abstract

Symbiotic nitrogen fixation (SNF) by rhizobium, a Gram-negative soil bacterium, is an essential component in the nitrogen cycle and is a sustainable green way to maintain soil fertility without chemical energy consumption. SNF, which results from the processes of nodulation, rhizobial infection, bacteroid differentiation and nitrogen-fixing reaction, requires the expression of various genes from both symbionts with adaptation to the changing environment. To achieve successful nitrogen fixation, rhizobia and their hosts cooperate closely for precise regulation of symbiotic genes, metabolic processes and internal environment homeostasis. Many researches have progressed to reveal the ample information about regulatory aspects of SNF during recent decades, but the major bottlenecks regarding improvement of nitrogen-fixing efficiency has proven to be complex. In this mini-review, we summarize recent advances that have contributed to understanding the rhizobial regulatory aspects that determine SNF efficiency, focusing on the coordinated regulatory mechanism of symbiotic genes, oxygen, carbon metabolism, amino acid metabolism, combined nitrogen, non-coding RNAs and internal environment homeostasis. Unraveling regulatory determinants of SNF in the nitrogen-fixing protagonist rhizobium is expected to promote an improvement of nitrogen-fixing efficiency in crop production. [ABSTRACT FROM AUTHOR]

Published

2023

3. Control of a pyrimidine ribonucleotide salvage pathway in Pseudomonas oleovorans.

Author

Gill, Ramneetpreet and West, Thomas P.

Abstract

The control of a pyrimidine ribonucleotide salvage pathway in the bacterium Pseudomonas oleovorans ATCC 8062 was studied. This bacterium is important for its ability to synthesize polyesters as well as for its increasing clinical significance in humans. The pyrimidine salvage pathway enzymes pyrimidine nucleotide N-ribosidase and cytosine deaminase were investigated in P. oleovorans ATCC 8062 under selected culture conditions. Initially, the effect of carbon source on the two pyrimidine salvage enzymes in ATCC 8062 cells was examined and it was observed that cell growth on the carbon source succinate generally produced higher enzyme activities than did glucose or glycerol as a carbon source when ammonium sulfate served as the nitrogen source. Using succinate as a carbon source, growth on dihydrouracil as nitrogen source caused a 1.9-fold increase in the pyrimidine nucleotide N-ribosidase activity and a 4.8-fold increase in cytosine deaminase activity compared to the ammonium sulfate-grown cells. Growth of ATCC 8062 cells on cytosine or dihydrothymine as a nitrogen source elevated deaminase activity by more than double that observed for ammonium sulfate-grown cells. The findings indicated a relationship between this pyrimidine salvage pathway and the pyrimidine reductive catabolic pathway since growth on dihydrouracil appeared to increase the degradation of the pyrimidine ribonucleotide monophosphates to uracil. The uracil produced could be degraded by the pyrimidine base reductive catabolic pathway to β-alanine as a source of nitrogen. This investigation could prove helpful to future work examining the metabolic relationship between pyrimidine salvage pathways and pyrimidine reductive catabolism in pseudomonads. [ABSTRACT FROM AUTHOR]

Published

2022

4. Control of pyrimidine nucleotide formation in Pseudomonas aurantiaca.

Author

Domakonda, Anvesh and West, Thomas P.

Subjects

*URACIL derivatives, *PSEUDOMONAS, *ANTIFUNGAL agents, *PYROPHOSPHATES, *OROTIC acid, *ANTI-infective agents, *PYRIMIDINES, *DECARBOXYLASES

Abstract

The control of pyrimidine nucleotide formation in the bacterium Pseudomonas aurantiaca ATCC 33663 by pyrimidines was studied. The activities of the pyrimidine biosynthetic pathway enzymes were investigated in P. aurantiaca ATCC 33663 cells and from cells of an auxotroph lacking orotate phosphoribosyltransferase activity under selected culture conditions. All activities of the pyrimidine biosynthetic pathway enzymes in ATCC 33663 cells were depressed by uracil addition to the minimal medium when succinate served as the carbon source. In contrast, all pyrimidine biosynthetic pathway enzyme activities in ATCC 33663 cells were depressed by orotic acid supplementation to the minimal medium when glucose served as the carbon source. The orotidine 5′-monophosphate decarboxylase activity in the phosphoribosyltransferase mutant strain increased by more than sixfold in succinate-grown cells and by more than 16-fold in glucose-grown cells after pyrimidine limitation showing possible repression of the decarboxylase by a pyrimidine-related compound. Inhibition by ATP, GTP, UTP and pyrophosphate of the in vitro activity of aspartate transcarbamoylase in ATCC 33663 was observed. The findings demonstrated control at the level of pyrimidine biosynthetic enzyme synthesis and activity for the P. aurantiaca transcarbamoylase. The control of pyrimidine synthesis in P. aurantiaca seemed to differ from what has been observed previously for the regulation of pyrimidine biosynthesis in related Pseudomonas species. This investigation could prove helpful to future work studying pseudomonad taxonomic analysis as well as to those exploring antifungal and antimicrobial agents produced by P. aurantiaca. [ABSTRACT FROM AUTHOR]

Published

2020

5. Cyclic AMP receptor protein (CRP) regulates the expression of cspA, cspB, cspG and cspI, members of cspA family, in Escherichia coli.

Author

Uppal, Sheetal and Jawali, Narendra

Subjects

*ESCHERICHIA coli, *MEDICAL transcription, *PHYSIOLOGICAL effects of cold temperatures, *GENE expression, *PROTEINS

Abstract

Escherichia coli K-12 contains nine paralogs of CspA, CspA-CspI, collectively known as CspA family of cold-shock proteins (CSPs). In spite of the high degree of similarity among themselves, only five ( cspA, B, E, G and I) are induced during cold-stress. In the present study, we show that cspB, cspG and cspI, the members of cspA family, known to be induced in response to cold shock, are regulated by cyclic AMP receptor protein (CRP) , a global regulator involved in sugar metabolism, during growth at 37 °C as well as at 15 °C, as seen by green fluorescent protein ( gfp) promoter fusions assays. Interestingly, cspA is selectively regulated by CRP during growth at 15 °C but not at 37 °C. The regulation of cspA, cspB, cspG and cspI by CRP was found to be through an indirect mechanism as determined by electrophoretic mobility shift assay (EMSA). These results substantiate our earlier study demonstrating a role for CRP during growth at low temperature. [ABSTRACT FROM AUTHOR]

Published

2015

6. The biosynthesis of the polyether antibiotic nanchangmycin is controlled by two pathway-specific transcriptional activators.

Author

Yu, Qing, Du, Aiqin, Liu, Tiangang, Deng, Zixin, and He, Xinyi

Subjects

*POLYETHERS, *ANTIBIOTIC synthesis, *BIOSYNTHESIS, *STREPTOMYCES, *GENETIC transcription in bacteria, *GENE expression in bacteria

Abstract

The nanchangmycin (NAN) produced by Streptomyces nanchangensis NS3226 is a polyether antibiotic resembling monensin in their gene clusters and the chemical structures. They can inhibit gram-positive bacteria and be a growth promoter for ruminants. Within the nanchangmycin gene cluster ( nan), we identified that two SARP-family regulatory genes, nanR1 and nanR2, were both required to activate the transcription of all nan polyketide genes. Overexpression of NanR1 and NanR2 in wild-type increase NAN yields by at least three folds. Bioinformatic analysis of the immediate upstream DNA sequence of each nan gene and quantitative real-time RT-PCR analysis of the nan operons identified five putative SARP binding sites. Moreover, deletion of an AraC-family repressor gene nanR4 increased expression of NanR1 and R2 and led to a threefold increase in NAN production. [ABSTRACT FROM AUTHOR]

Published

2012

7. Genetic analysis of MA4079, an aldehyde dehydrogenase homolog, in Methanosarcina acetivorans.

Author

Kliefoth, Michael, Langer, Julian, Matschiavelli, Nicole, Oelgeschläger, Ellen, and Rother, Michael

Subjects

*ALDEHYDE dehydrogenase, *CARBON monoxide, *ACCLIMATIZATION, *BIODEGRADATION, *ENERGY conservation, *METHANE, *COENZYME A

Abstract

When Methanosarcina acetivorans grows on carbon monoxide (CO), it synthesizes high levels of a protein, MA4079, homologous to aldehyde dehydrogenases. To investigate the role of MA4079 in M. acetivorans, mutants lacking the encoding gene were generated and phenotypically analyzed. Loss of MA4079 had no effect on methylotrophic growth but led to complete abrogation of methylotrophic growth in the presence of even small amounts of CO, which indicated the mutant's inability to acclimate to the presence of this toxic gas. Prolonged incubation with CO allowed the isolation of a strain in which the effect of MA4079 deletion is suppressed. The strain, designated Mu3, tolerated the presence of high CO partial pressures even better than the wild type. Immunological analysis using antisera against MA4079 suggested that it is not abundant in M. acetivorans. Comparison of proteins differentially abundant in Mu3 and the wild type revealed an elevated level of methyl-coenzyme M reductase and a decreased level of one isoform of carbon monoxide dehydrogenase/acetyl-coenzyme A synthase, which suggests that pleiotropic mutation(s) compensating for the loss of MA4079 affected catabolism. The data presented point toward a role of MA4079 to enable M. acetivorans to properly acclimate to CO. [ABSTRACT FROM AUTHOR]

Published

2012

8. Analysis of expression and regulatory functions of the ribosome-binding protein TypA in Mycobacterium tuberculosis under stress conditions.

Author

Micklinghoff, Julia C., Schmidt, Mascha, Geffers, Robert, Tegge, Werner, and Bange, Franz-Christoph

Subjects

*GUANOSINE triphosphatase, *PEPTIDE antibiotics, *TUBERCULOSIS, *CHROMOSOMES, *GENE expression

Abstract

In many bacterial species, the translational GTPase TypA acts as a global stress- and virulence regulator and also mediates resistance to the antimicrobial peptide BPI. On the chromosome of M. tuberculosis, typA is located next to narGHJI, which plays a role in adaptation of the pathogen to various environmental conditions. Here, we show that Mycobacterium tuberculosis is sensitive to P2, a derivative of BPI. Using a typA mutant of M. tuberculosis, we found this phenotype to be independent of TypA. We further tested typA expression in M. tuberculosis under defined stress conditions, such as oxygen- and nutrient depletion, low pH, heat shock, antibiotic stress and the presence of P2, and found that typA expression remains unaffected by any of these conditions. Analysis of growth and whole-genome expression revealed similar growth kinetics and gene expression profiles of the wild type and the mutant under normal growth conditions as well as under stress conditions. Our results suggest that in contrast to the findings in other bacteria, TypA does not act as a global stress- and virulence regulator in M. tuberculosis. [ABSTRACT FROM AUTHOR]

Published

2010

9. novE and novG act as positive regulators of novobiocin biosynthesis.

Author

Dangel, Volker, Eustáquio, Alessandra, Gust, Bertolt, and Heide, Lutz

Subjects

*ANTIBIOTICS, *GENES, *BIOSYNTHESIS, *BIOCHEMISTRY, *DNA, *ESCHERICHIA coli, *COUMARINS, *MICROBIAL metabolites, *GENE expression

Abstract

The biosynthetic gene cluster of the aminocoumarin antibiotic novobiocin contains two putative regulatory genes, i.e., novE and novG. Functional proof for the role of NovG as a positive regulator of novobiocin biosynthesis had been provided previously, and we now investigated the role of novE. Heterologous expression experiments with the novobiocin biosynthetic gene cluster showed that the entire putative promoter region of novE is required to achieve optimal novobiocin production. Overexpression of novE, using a replicative vector, resulted in an increase of novobiocin formation. In contrast, inactivation of novE by in frame deletion resulted in a strong reduction of novobiocin biosynthesis. Novobiocin production could be restored by an intact copy of novE, but also by the regulatory gene novG. These observations suggest that novE is a positive regulator of novobiocin biosynthesis. NovE was expressed in E. coli and purified. However, in contrast to parallel experiments with NovG, no DNA-binding properties could be shown for NovE. RT-PCR experiments showed that expression of novG was detectable in the absence of NovE, and also that expression of novE occurred in absence of NovG. [ABSTRACT FROM AUTHOR]

Published

2008

10. Addition of exogenous carbon and nitrogen sources to aphid exuviae modulates synthesis of proteases and chitinase by germinating conidia of Beauveria bassiana.

Author

Qazi, Sohail S. and Khachatourians, George G.

Subjects

*SUBTILISINS, *TRYPSIN, *CHITINASE, *PHYSIOLOGICAL control systems, *CARBON, *NITROGEN, *APHIDS, *PROTEOLYTIC enzymes, *CONIDIA

Abstract

Secretion of catabolic extracellular enzymes (ECE) is the hallmark of the infection of insects through the cuticle by entomopathogenic fungi (EPF). In this paper, we show that germinating conidia of Beauveria bassiana (Bb) regulate the synthesis of ECE through a multiple control mode during the initial stages of germination. We tested Bb conidial growth on aphid exuviae with or without supplementation of additional carbon and/or nitrogen (C/N) compounds. To understand the interrelation between conidial germination during growth, the synthesis of ECE activity, free amino nitrogen (FAN), glucose and fungal dry weight biomass were measured. Immediately (0.25 h) upon incubation of conidia, activity of subtilisin-like Pr1 and trypsin-like Pr2 enzymes and chitinase (NAGase) was observed in the culture filtrates. At 0.25 h, addition of exogenous C-source resulted in higher activities of Pr1 and Pr2, respectively. Conversely at 0.25 h, addition of N-sources repressed the synthesis of Pr2, but that of Pr1. C/N repression was observed only for exponentially growing mycelia. NAGase activity remained at basal level and unaffected by added C/N. We conclude that C/N repression occurs only when it is necessary for the Bb infective structures to establish a nutritional relationship with the host structures. [ABSTRACT FROM AUTHOR]

Published

2008

11. Regulation of cuticle-degrading subtilisin proteases from the entomopathogenic fungi, Lecanicillium spp: implications for host specificity.

Author

Bye, Natasha J. and Charnley, A. Keith

Subjects

*PROTEOLYTIC enzymes, *PHYSIOLOGICAL control systems, *ENTOMOPATHOGENIC fungi, *PATHOGENIC microorganisms, *FUNGI, *IMMUNOSPECIFICITY, *VERTICILLIUM, *APHIDS, *INSECT pathogens

Abstract

The ability to produce cuticle-degrading proteases to facilitate host penetration does not distinguish per se entomopathogenic fungi from saprophytes. However, adapted pathogens may produce host-protein specific enzymes in response to cues. This possibility prompted an investigation of the regulation of isoforms of the subtilisin Pr1-like proteases from five aphid-pathogenic isolates of Lecanicillium spp. Significant differences were found in substrate specificity and regulation of Pr1-like proteases between isoforms of the same isolate and between different isolates. For example, the pI 8.6 isoform from KV71 was considerably more active against aphid than locust cuticle and was induced specifically by N-acetylglucosamine (NAG). Isoform pI 9.1 from the same isolate was only produced on insect cuticle while most other isoforms were more prominent on chitin containing substrates but not induced by NAG. The ability to regulate isoforms independently may allow production at critical points in host penetration. Appearance of proteases (not subtilisins) with pI 4.2 and 4.4 only on aphid cuticle was a possible link with host specificity of KV71. The absence of C or N metabolite repression in subtilisins from KV42 is unusual for pathogen proteases and may help to account for differences in virulence strategy between aphid-pathogenic isolates of Lecanicillium longisporum (unpublished data). [ABSTRACT FROM AUTHOR]

Published

2008

12. Regulation of expression of Na+-translocating NADH:quinone oxidoreductase genes in Vibrio harveyi and Klebsiella pneumoniae.

Author

Fadeeva, Maria S., Yakovtseva, Evgenia A., Belevich, Galina A., Bertsova, Yulia V., and Bogachev, Alexander V.

Subjects

*GENE expression, *CHROMOSOMAL translocation, *GENETIC vectors, *DEHYDROGENASES, *KLEBSIELLA pneumoniae, *VIBRIO, *QUINONE, *OXIDOREDUCTASES, *SODIUM

Abstract

The expression of genes encoding sodium-translocating NADH:quinone oxidoreductase (Na+-NQR) was studied in the marine bacterium Vibrio harveyi and in the enterobacterium Klebsiella pneumoniae. It has been shown that such parameters as NaCl concentration, pH value, and presence of an uncoupler in the growth media do not influence significantly the level of nqr expression. However, nqr expression depends on the growth substrates used by these bacteria. Na+-NQR is highly repressed in V. harveyi during anaerobic growth, and nqr expression is modulated by electron acceptors and values of their redox potentials. The latter effect was shown to be independent of the ArcAB regulatory system. [ABSTRACT FROM AUTHOR]

Published

2007

13. Global gene expression analysis revealed an unsuspected deo operon under the control of molybdate sensor, ModE protein, in Escherichia coli.

Author

Han Tao, Hasona, Adnan, Do, Phi M., Ingram, L.O., and Shanmugam, K.T.

Subjects

*ESCHERICHIA coli, *MOLYBDATES, *GENETIC code, *GENE expression, *BACTERIAL proteins, *MICROBIOLOGY

Abstract

ModE protein, a molybdate sensor/regulator, controls the transcription of genes coding for molybdate uptake ( mod), molybdopterin synthesis ( moa), molybdoenzymes nitrate reductase ( nap) and dimethylsulfoxide reductase ( dms), as well as fermentative dihydrogen production ( fdhF and hyc) and respiratory nitrate reductase ( narXL) in Escherichia coli. The catalytic product of a second protein, MoeA, is also required for molybdate-dependent positive regulation of hyc and nar operons. To explore the potential role of ModE and MoeA in the regulation of other E. coli genes, the global gene expression profile of a wild type and a modE, moeA double mutant grown in glucose-minimal medium under anaerobic conditions were compared. Expression of 67 genes was affected by the modE and moeA mutations (P value <0.01). Of these, 17 differed by at least 2-fold or higher. Fourteen genes were expressed at a higher level in the mutant (2.4- to 23.9-fold) (notably, mod—molybdate transport , deo—nucleoside catabolism and opp—oligopeptide transport operons) and dmsA and yli operon were expressed at a higher level in the wild type parent (2.6- to 5.7-fold). One of the unexpected findings was repression of the deo operon by ModE. This was confirmed by quantitative RT-PCR and by the analysis of a deoC-lacZ fusion. The deo promoter/operator region contains a putative ModE-consensus sequence centered at −35 in which the adenines are replaced by guanines (TGTGT-N7-TGTGT). The ModE protein did bind to the deo upstream DNA and shifted its electrophoretic mobility. Bioinformatics analysis of the E. coli genome for ModE-consensus motif (TATAT-N7-TAYAT) identified 21 additional genes/operons including the moa as potential targets for Mo-control. The physiological role of many of the genes identified solely by bioinformatics (19/21) is unknown. Expression levels of these genes were similar in the parent and the isogenic modE, moeA mutant when cultured anaerobically in glucose-minimal medium. This study identified additional targets, such as deo and opp, for the Mo-dependent control in E. coli. [ABSTRACT FROM AUTHOR]

Published

2005

14. Novel transcriptional regulators of Legionella pneumophila that affect replication in Acanthamoeba castellanii.

Author

Lebeau, Ilya, Lammertyn, Elke, De Buck, Emmy, Maes, Liesbeth, Geukens, Nick, Van Mellaert, Lieve, and Anné, Jozef

Subjects

*GENETIC transcription regulation, *LEGIONELLA pneumophila, *ACANTHAMOEBA castellanii, *PROTEINS, *GENES, *LUNG diseases

Abstract

Legionella pneumophila is commonly found in freshwater environments and is able to invade and replicate within amoebae and ciliated protozoa. Moreover, this bacterium is also able to replicate within human alveolar macrophages causing a severe form of pneumonia, designated Legionnaires’ disease. L. pneumophila pathogenesis is not yet completely understood, but the genes responsible for infection and intracellular replication are becoming known. Nonetheless, knowledge as to how these genes are controlled is still very limited. The partially sequenced genome of L. pneumophila was searched for open reading frames encoding proteins with sequence similarity to members of the LuxR family of transcriptional regulators. These were designated LpnR1, LpnR2, LpnR3, and LpnR4. Although these proteins could not be identified as true LuxR proteins, they do act as regulators, as illustrated in this report. LpnR1 negatively affected rpoS expression, whereas LpnR2 and LpnR3 positively affected flagellin expression. Furthermore, LpnR2 proved to be necessary for efficient invasion of Acanthamoeba castellanii and LpnR3 for intracellular replication in this protozoan host. LpnR4 was recently identified as LetA. [ABSTRACT FROM AUTHOR]

Published

2004

15. An additional regulator, TsaQ, is involved with TsaR in regulation of transport during the degradation of p-toluenesulfonate in Comamonas testosteroni T-2.

Author

Tralau, Tewes, Cook, Alasdair M., and Ruff, Jürgen

Subjects

*PLASMIDS, *GENES, *BACTERIA, *TRANSPOSONS, *MOBILE genetic elements, *CYTOPLASMIC inheritance

Abstract

The degradation of p-toluenesulfonate (TSA) by Comamonas testosteroni T-2 is initiated by a transport system (TsaST) and enzymes (TsaMBCD) encoded on the tsa transposon, Tntsa, on the TSA plasmid (pTSA). Tntsa comprises an insert of 15 kb between two IS1071 elements. The left-hand 6 kb and the right-hand 6 kb are nearly mirror images. The regulator of the tsaMBCD1 genes (right-hand side) is the centrally located LysR-type TsaR, which is encoded upstream of tsaMBCD1 on the reverse strand. The other centrally located genes are tsaS and tsaT, encoded downstream of tsaR and on the same strand as both tsaR and tsaMBCD2. The latter four genes are not expressed. Downstream of tsaD1 (tsaD2) is tsaQ1 (tsaQ2) and another open reading frame of unknown function. The tsaQ genes have identical sequences. Sequence analysis indicated that TsaQ could be an IclR-type regulator, whose expression during degradation of TSA was proven by data from RT-PCR. Both copies of tsaQ could be knocked-out by homologous recombination. Double mutants failed to grow with TSA but grew with p-toluenecarboxylate (TCA), which is also degraded via TsaMBCD. This showed TsaQ to be essential for the degradation of TSA but not TCA. We attributed this to regulation of the transport of TSA, especially to regulation of the expression of tsaT, which was expressed solely during growth with TSA. Seven independently isolated bacteria containing the tsa operon were available. Those six which contained tsaT on Tntsa also contained tsaQ. The promoter region of tsaT was found to be a target of the regulator TsaR. Band-shift data indicate that TsaR is required for the expression of tsaT, which suggests that tsaR and tsaQ1,2, together with tsaMBCD1, belong to a common regulatory unit. [ABSTRACT FROM AUTHOR]

Published

2003

16. Role of GacA, LasI, RhlI, Ppk, PsrA, Vfr and ClpXP in the regulation of the stationary-phase sigma factor rpoS/RpoS in Pseudomonas.

Author

Bertani, Iris, Ševo, Milica, Kojic, Milan, and Venturi, Vittorio

Subjects

*PSEUDOMONAS, *GENETIC regulation, *ESCHERICHIA coli, *GENETICS, *PSEUDOMONADACEAE, *GENETIC transcription, *BIOCHEMISTRY

Abstract

RpoS is the stationary phase sigma factor responsible for increased transcription of a set of genes when bacterial cells enter stationary phase and under stress conditions. In Escherichia coli, RpoS expression is modulated at the level of transcription, translation, and post-translational stability whereas in Pseudomonas, previous studies have implicated four genetic loci (psrA, gacA, lasI and rhlI) involved in rpoS transcription. In this report, the transcription, translation and proteins profiles of rpoS/RpoS were analyzed in response to growth phase of knockout genomic mutants in the P. aeruginosa transcriptional regulatory loci psrA, gacA, vfr, and in the las and rhl quorum-sensing systems. Gene expression and protein profiles were also analyzed in the ppk genomic mutant. This gene is responsible for the biosynthesis of polyphosphate, an alarmone involved in the regulation of RpoS accumulation in E. coli. Finally, the role of the ClpXP protease in RpoS regulation was also studied; in E. coli, this protease has been shown to rapidly degrade RpoS during exponential growth. These studies confirm the significant role of PsrA in rpoS transcription during the late-exponential and stationary growth phases, the probable role of Vfr in transcriptional repression during exponential phase, and the function of the ClpXP protease in RpoS degradation during exponential phase. GacA/GacS, the quorum-sensing systems, and the polyphosphate alarmone molecule were not significant in rpoS/RpoS regulation. These results demonstrate important similarities and differences with the regulation of this sigma factor in E. coli and in Pseudomonas. [ABSTRACT FROM AUTHOR]

Published

2003

17. Utilization of acidic amino acids and their amides by pseudomonads: role of periplasmic glutaminase-asparaginase.

Author

Sonawane, Avinash, Klöppner, Ute, Derst, Christian, and Röhm, Klaus-Heinrich

Subjects

AMINO acids, AMIDES, ORGANIC acids, BIOMOLECULES, BIOCHEMISTRY, BIOLOGY, MICROBIOLOGY

Abstract

The acidic amino acids (Asp, Glu) and their amides (Asn, Gln) support rapid growth of a variety of Pseudomonas strains when provided as the sole source of carbon and nitrogen. All key enzymes of glutamate metabolism were detected in P. fluorescence, with glutaminase and asparaginase showing the highest specific activities. A periplasmic glutaminase/asparaginase activity (PGA) was found in all pseudomonads examined, including a number of root-colonizing biocontrol strains. The enzyme was purified and shown to be identical with the ansB gene product described previously. In addition to PGA, P. fluorescens contains a cytoplasmic asparaginase with marked specificity for Asn. PGA is strongly and specifically induced by its substrates (Asn, Gln) but also by the reaction products (Asp, Glu). In addition, PGA is subject to efficient carbon catabolite repression by glucose and by citrate cycle metabolites. A mutant of P. putida KT2440 with a disrupted ansB gene was unable to utilize Gln, whereas growth of the mutant on other amino acids was normal. [ABSTRACT FROM AUTHOR]

Published

2003

18. mRNA-mediated detection of environmental conditions.

Author

Narberhaus, Franz

Subjects

BACTERIA, PHYSIOLOGICAL stress, RNA, MICROBIAL virulence, MESSENGER RNA, PROTEINS, TEMPERATURE

Abstract

Bacteria inhabit an amazing variety of ecological niches and readily adapt to changing environmental conditions. Precise monitoring of external and internal parameters is a prerequisite for the induction of appropriate stress responses. Proteins are often used as sensing devices. However, there is now accumulating evidence that the 5′ end of mRNA can be responsive to environmental stimuli. The folding of certain mRNA species is thermally controlled. RNA-based thermosensors modulate the efficiency of translation by controlling the accessibility of translation initiation signals that are captured in hairpin structures under repressing conditions. Recently, it has been recognized that mRNA can also sense physiological signals other than temperature. The overall structure of several vitamin-regulated leader mRNAs depends on the availability of the respective effector molecule. Binding of the vitamin or its precursor to the transcript impairs ribosome binding. Most likely, detection of environmental conditions by sensory RNAs is an emerging concept that is likely to extend much beyond the presently known examples. [ABSTRACT FROM AUTHOR]

Published

2002

19. Factors influencing methicillin resistance in staphylococci.

Author

Berger-Bächi, Brigitte and Rohrer, Susanne

Subjects

METHICILLIN resistance, STAPHYLOCOCCUS, MICROCOCCACEAE, ANTIBACTERIAL agents, ANTI-infective agents, CARRIER proteins, MICROBIAL genetics, DRUG resistance in microorganisms

Abstract

Methicillin resistance in staphylococci is due to an acquired penicillin-binding protein, PBP2′ (PBP2a). This additional PBP, encoded by mecA, confers an intrinsic resistance to all β-lactams and their derivatives. Resistance levels in methicillin-resistant Staphylococcus aureus (MRSA) depend on efficient PBP2′ production and are modulated by chromosomal factors. Depending on the genetic background of the strain that acquired mecA, resistance levels range from phenotypically susceptible to highly resistant. Characteristic for most MRSA is the heterogeneous expression of resistance, which is due to the segregation of a more highly resistant subpopulation upon challenge with methicillin. Maximal expression of resistance by PBP2′ requires the efficient and correct synthesis of the peptidoglycan precursor. Genes involved in cell-wall precursor formation and turnover, regulation, transport, and signal transduction may determine the level of resistance that is expressed. At this stage, however, there is no information available on the functionality or efficacy of such factors in clinical isolates in relation to methicillin resistance levels. [ABSTRACT FROM AUTHOR]

Published

2002

20. Enzymes of dimethylsulfone metabolism and the phylogenetic characterization of the facultative methylotrophs Arthrobacter sulfonivorans sp. nov., Arthrobacter methylotrophus sp. nov., and Hyphomicrobium sulfonivorans sp. nov.

Author

Borodina, Elena, Kelly, Donovan P., Schumann, Peter, Rainey, Frederick A., Ward-Rainey, Naomi L., and Wood, Ann P.

Subjects

ARTHROBACTER, DIMETHYL sulfone, SULFUR, OXIDATION, ENZYMES, PEPTIDE hormones

Abstract

Novel methylotrophic Arthrobacter and Hyphomicrobium species are described. Constitutive membrane-associated dimethylsulfone- and dimethylsulfoxide-reductases were found in Arthrobacter methylotrophus strain TGA and Hyphomicrobium sulfonivorans strain S1. Enzyme activities increased during growth with dimethylsulfone or dimethylsulfoxide, respectively, and different ratios of activity with different growth substrates indicated that they are separate enzymes. SDS-PAGE showed some membrane-associated polypeptides to be enhanced during growth with dimethylsulfone (54 kDa in H. sulfonivorans, 21–24 kDa, 54 kDa and 80 kDa in A. methylotrophus). Western blotting with anti-dimethylsulfoxide-reductase antibody showed cross-reaction with 54- and 21-kDa polypeptides in A. methylotrophus. All strains contained rhodanese and sulfur oxygenase after growth with dimethylsulfone. Sulfite was oxidized in the Arthrobacter species by APS reductase and sulfite dehydrogenase. H. sulfonivorans oxidized sulfite with APS reductase, which is unusual for an α-proteobacterium. The Arthrobacter species were distinguished from each other and from other Arthrobacter and Micrococcus species by 16S rRNA gene sequence analysis. The menaquinone and fatty acid profiles of the Arthrobacter species were similar. Their peptidoglycan structures were L-Lys–L-Ser–L-Thr–L-Ala for A. sulfonivorans and L-Lys–L-Ala2–4 for A. methylotrophus. H. sulfonivorans exhibited gross morphology typical for Hyphomicrobium, but possessed helically twisted prosthecae. 16S rRNA gene sequence analysis showed it to be distinct from all the other Hyphomicrobium, Filomicrobium and Pedomicrobium species sequenced to date. Formal descriptions of the new species are given. [ABSTRACT FROM AUTHOR]

Published

2002

21. Casitone-mediated expression of the prtP and prtM genes in Lactococcus lactis subsp. lactis BGIS29.

Author

Miladinov, Natasa, Kuipers, Oscar P., and Topisirovic, Ljubisa

Subjects

LACTOCOCCUS lactis, PROTEINASES, PROTEOLYSIS, GENE expression, GENES, NUCLEOTIDE sequence

Abstract

Casitone added to chemically defined medium (CDM) specifically influenced the regulation of the proteinase activity in the natural isolate Lactococcus lactis subsp. lactis BGIS29. Comparative analysis of the influence of casitone present in CDM on the proteolytic activity of strain BGIS29 and of L. lactis subsp. cremoris strains SK11 and Wg2 indicated that the proteolytic activity of strains BGIS29 and SK11 is casitone-dependent, whereas that of strain Wg2 is not. The regulatory region of the prt genes of strain BGIS29 was cloned and sequenced. The nucleotide sequence of the prt regulatory region of strain BGIS29 was distinctly different from that of L. lactis subsp. cremoris strains SK11 and Wg2. Transcriptional gene fusions with the Escherichia coli β-glucuronidase gene (gusA) were used to study medium-dependent expression of two divergent prtP and prtM promoters of strain BGIS29 (designated PprtP and PprtM, respectively). β-Glucuronidase assays and Northern blot analysis showed that the activities of PprtP and PprtM are controlled by casitone at the transcriptional level. [ABSTRACT FROM AUTHOR]

Published

2002

22. ROSE elements occur in disparate rhizobia and are functionally interchangeable between species.

Author

Nocker, Andreas, Krstulovic, Nila-Pia, Perret, Xavier, and Narberhaus, Franz

Subjects

HEAT shock proteins, PROTEINS, RHIZOBIACEAE, GRAM-negative bacteria, NITRIFYING bacteria, AEROBIC bacteria, MICROBIOLOGY, BIOLOGY

Abstract

Expression of at least ten genes in Bradyrhizobium japonicum, seven of which code for small heat shock proteins (sHsps), is under the control of ROSE (repression of heat shock gene expression). This negatively cis-acting DNA element confers temperature control to a σ70-type promoter. Here, we show that ROSE elements are not restricted to B. japonicum but are also present in Bradyrhizobium sp. (Parasponia), Rhizobium sp. strain NGR234 and Mesorhizobium loti. An overall alignment of all ROSE sequences reveals a highly conserved and probably functionally important region towards the 3′-end of the element. Moreover, we provide genetic evidence for the previously proposed presence of multiple sHsps in these organisms. Primer-extension data of five newly identified ROSE-associated operons show that transcription is repressed at low temperatures and induced after a temperature upshift. Translational ROSE-hsp′-′lacZ fusions of Bradyrhizobium sp. (Parasponia) and Rhizobium sp. strain NGR234 integrated into the chromosome of B. japonicum were heat-responsive. The functionality of these heterologous ROSE elements hints at a common regulatory principle conserved in various rhizobia. [ABSTRACT FROM AUTHOR]

Published

2001

23. Transcriptional regulation of the moe (molybdate metabolism) operon of Escherichia coli.

Author

Hasona, Adnan, Self, William T., and Shanmugam, Keelnatham T.

Subjects

ESCHERICHIA coli, MOLYBDATES, METABOLISM, ESCHERICHIA, ENTEROBACTERIACEAE, GRAM-negative bacteria

Abstract

Regulation of transcription of the Escherichia coli moe operon, which codes for proteins connecting molybdate metabolism, molybdopterin synthesis, and apomolybdoenzyme synthesis, was investigated. Expression of the moe operon was independent of genes coding for molybdate transport and Mo-cofactor biosynthesis. Expression of moeA-lacZ increased during anaerobic growth (2.5-fold over the aerobic value) and in the presence of nitrate and trimethylamine N-oxide (3.5- and 1.5-fold, respectively). The nitrate-dependent increase in moe expression required the NarL protein, while the anaerobiosis-dependent increase in moeA-lacZ expression required Arc proteins. ArcA-phosphate and not ArcA bound to the DNA upstream of moe, shifted the electrophoretic mobility of moe promoter DNA, and protected the DNA from DNase I hydrolysis. Nitrate-independent transcription of moeA-lacZ was repressed by the FNR protein, which also protected moe operator DNA from DNase I hydrolysis. These results show that ArcA-phosphate and FNR have opposite effects on the transcriptional regulation of the moe operon, and the combined action of the two redox regulators modulate the level of Mo-cofactor in the cell. Apparently, the control of synthesis of Mo-cofactor and the apomolybdoenzymes nitrate reductase and trimethylamine N-oxide reductase are coupled at the level of the moe operon. [ABSTRACT FROM AUTHOR]

Published

2001

24. Regulative fine-tuning of the two novel DAHP isoenzymes aroFp and aroGp of the filamentous fungus Aspergillus nidulans.

Author

Hartmann, Markus, Heinrich, Gabriele, and Braus, Gerhard H.

Subjects

ENZYME induction, GENETIC regulation, ISOENZYMES, ASPERGILLUS nidulans, TYROSINE, PHENYLALANINE

Abstract

Two novel genes, aroF and aroG, from the filamentous fungus Aspergillus nidulans were isolated and the regulative fine-tuning between the encoded, differentially regulated 3-deoxy-D-arabino-heptulosonate-7-phosphate (DAHP) synthases was analyzed. A wide range of DAHP synthase isoenzymes of various organisms are known, but only a few have been characterized further. DAHP synthases (EC 4.1.2.15) catalyze the first committed step of the shikimate pathway, which is a putative target for anti-weed drugs. The reaction is the condensation of erythrose-4-phosphate (E4P) and phosphoenolpyruvate (PEP) to yield DAHP. The two purified DAHP synthases showed different affinities for the substrates: 175 µM for PEP and 341 µM for E4P for the aroFp isoenzyme and weaker affinities of 239 µM (PEP) and 475 µM (E4P) for the aroGp isoenzyme. The enzymes are differentially regulated by tyrosine (aroFp) and phenylalanine (aroGp). The calculated kcat values are 7.0 s–1 for the tyrosine-inhibitable (aroFp) and 5.5 s–1 for the phenylalanine inhibitable (aroGp) enzyme. Tyrosine is a competitive inhibitor of the aroFp DAHP synthase in its reaction with PEP. Phenylalanine is a competitive inhibitor of the isoenzyme aroGp in its reaction with E4P. Both enzymes are inhibited by the chelating agent EDTA, which indicates a metal ion as cofactor. [ABSTRACT FROM AUTHOR]

Published

2001

25. Molecular biology and regulation of methane monooxygenase.

Author

Murrell, J. Colin, Gilbert, Bettina, and McDonald, Ian R.

Subjects

METHANE, MONOOXYGENASES, COPPER ions, GLOBAL warming, BIOREMEDIATION, MOLECULAR biology, MICROBIOLOGY, BIOCHEMISTRY

Abstract

Methanotrophs are ubiquitous in the environment and play an important role in mitigating global warming due to methane. They are also potentially interesting for industrial applications such as production of bulk chemicals or bioremediation. The first step in the oxidation of methane is the conversion to methanol by methane monooxygenase, the key enzyme, which exists in two forms: the cytoplasmic, soluble methane monooxygenase (sMMO) and the membrane-bound, particulate methane monooxygenase (pMMO). This paper reviews the biochemistry and molecular biology of both forms of MMO. In the past few years there have been many exciting new findings. sMMO components have been expressed in heterologous and homologous hosts. The pMMO has been purified and biochemically studied in some detail and the genes encoding the pMMO have been sequenced. Copper ions have been shown to play a key role in regulating the expression of both MMO enzyme complexes. We also present a model for copper regulation based on results from Northern analysis, primer-extensions and new sequence data, and raise a number of unanswered questions for future studies. [ABSTRACT FROM AUTHOR]

Published

2000

26. Induction of carbon monoxide dehydrogenase to facilitate redox balancing in a ribulose bisphosphate carboxylase/oxygenase-deficient mutant strain of Rhodospirillum rubrum.

Author

Joshi, Hemalata M. and Tabita, F. Robert

Subjects

RHODOSPIRILLUM rubrum, OXYGENASES, OXIDOREDUCTASES, CARBON monoxide, POISONOUS gases, DEHYDROGENASES, OXIDATION-reduction reaction, RHODOSPIRILLUM

Abstract

A ribulose-1,5-bisphosphate carboxylase/oxygenase-deficient mutant strain (strain I-19) of Rhodospirillum rubrum was capable of growth under photoheterotrophic conditions in the absence of exogenous electron acceptors. These results suggested that alternative means of removing reducing equivalents have been acquired that allow this strain to remove reducing equivalents in the absence of a functional Calvin-Benson-Bassham reductive pentose phosphate pathway. Previously, the proton-reducing activity of the dinitrogenase complex was implicated in helping to maintain redox balance . However, since considerable amounts of CO2 were still fixed in this strain, the complete profile of enzymes involved in alternative CO2 fixation schemes was assessed. A specific and substantial induction of carbon monoxide dehydrogenase (CO dehydrogenase) synthesis was found in the mutant strain; although none of the other CO2 fixation pathways or enzyme activities were altered. These results suggested that CO dehydrogenase contributes to the photoheterotrophic success of strain I-19. Furthermore, the data implicate interacting and complex regulatory processes required to maintain the proper redox balance of this organism and other nonsulfur purple bacteria. [ABSTRACT FROM AUTHOR]

Published

2000

27. Heterologous expression of soluble methane monooxygenase genes in methanotrophs containing only particulate methane monooxygenase.

Author

Lloyd, John S., De Marco, Paolo, Dalton, Howard, and Murrell, J. C.

Abstract

The methanotrophs Methylococcus capsulatus (Bath) and Methylosinus trichosporium OB3b contain particulate methane monooxygenase (pMMO) and soluble methane monooxygenase (sMMO) genes. Other methanotrophs such as Methylomicrobium album BG8 and Methylocystis parvus OBBP contain only pMMO genes. Although molecular genetic techniques are poorly developed in methanotrophs, sMMO genes were expressed in methanotrophs normally containing only pMMO genes. This was achieved by conjugation using broad-host-range plasmids containing the native promoter and sMMO genes from Mc. capsulatus (Bath) and Ms. trichosporium OB3b. sMMO genes derived from Ms. trichosporium OB3b were expressed in an active form in Mcy. parvus OBBP and in Mm. album BG8. Therefore, all of the genes required for active sMMO synthesis were contained on the broad-host-range plasmids and were expressed in the heterologous hosts. Constitutive synthesis of pMMO was observed in Mm. album BG8 when grown at high and low copper-to-biomass ratios, while transcription of the recombinant sMMO genes was only observed under growth conditions of low copper-to-biomass ratios. Therefore, the regulatory protein(s) for sMMO synthesis was also present on the plasmid used, or the heterologous host contained a regulatory system for sMMO. Expression of sMMO genes in methanotrophs containing only pMMO will assist further investigations on the expression and regulation of MMO genes in methanotrophs. [ABSTRACT FROM AUTHOR]

Published

1999

28. Regulation of lysine and dipicolinic acid biosynthesis in Bacillus brevis ATCC 10068: significance of derepression of the enzymes during the change from vegetative growth to sporulation.

Author

Rao, Adavani

Abstract

Lysine biosynthetic pathway enzymes of Bacillus brevis ATCC 1068 were studied as a function of stage of development (growth and sporulation). The synthesis of aspartic-2-eemialdehyde dehydrogenase (ASA-dehydrogenase), dihydrodipicolinate synthase (DHDPA-synthase), DHPA-reductase and diaminopimelate decarboxylase (DAP-decarboxylase) was found not to be co-regulated, since lysine was not a co-repressor for these enzymes. Unlike the aspartokinase isoenzymes, the other enzymes of the lysine pathway were not derepressed in thiosine-resistant, lysine-excreting mutants. Thus, the aspartokinase isoenzymes were the key enzymes during growth and regulation of lysine biosynthesis through restriction of l-ASA synthesis via feedback control by lysine on the aspartokinases was therefore suggested. In contrast to other Bacillus species, the levels of the lysine biosynthetic pathway enzymes of strain ATCC 10068 were not derepressed during the change from vegetative growth to sporulation. Two control mechanisms, enabling the observed preferential channelling of carbon for the synthesis of spore-specific diaminopimelic acid (DAP) and dipicolinic acid (DPA) were a) loss of DAP-decarboxylase, b) inhibition of DHDPA-reductase by DPA. Increase in the level of the DAP pool during sporulation, as a consequence of the loss of DAP-decarboxylase, and its relevance to the non-enzymatic formation of DPA has been discussed. [ABSTRACT FROM AUTHOR]

Published

1985

29. Regulation of nitrogenase activity by covalent modification in Chromatium vinosum.

Author

Gotto, John and Yoch, Duane

Abstract

Nitrogenase in Chromatium vinosum was rapidly, but reversibly inhibited by NH. Activity of the Fe protin component of nitrogenase required both Mn and activating enzyme. Activating enzyme from Rhodospirillum rubrum could replace Chromatium chromatophores in activating the Chromatium Fe protein, and conversely, a protein fraction prepared from Chromatium chromatophores was effective in activating R. rubrum Fe protein. Inactive Chromatium Fe protein contained a peptide covalently modified by a phosphate-containing molecule, which migrated the same in SDS-polyacrylamide gels as the modified subunit of R. rubrum Fe protein. In sum, these observations suggest that Chromatium nitrogenase activity is regulated by a covalent modification of the Fe protein in a manner similar to that of R. rubrum. [ABSTRACT FROM AUTHOR]

Published

1985

30. Characterization of citrate lyase from Clostridium sporosphaeroides.

Author

Quentmeier, Armin and Antranikian, Garabed

Abstract

Cells of Clostridium sporosphaeroides which were grown on citrate contained citrate lyase and citrate lyase acetylating enzyme, but no detectable citrate synthase and citrate lyase deacetylase activities. Citrate lyase from C. sporosphaeroides was purified to homogeneity as judged by polyacrylamide gel electrophoresis and high performance liquid chromatography. In contrast to the enzyme from Clostridium sphenoides, the addition of l-glutamate was not necessary for activity and stabilization of the enzyme. The purified enzyme had a specific activity of 34 U/mg protein and was comparable to other citrate lyases with respect to its molecular weight and subunit composition. Electron microscopic investigations showed that similar to the lyase from C. sphenoides and in contrast to all other citrate lyases examined so far, the majority of the enzyme molecules was present in 'star' form. [ABSTRACT FROM AUTHOR]

Published

1985

31. Ammonia and light effect on nitrogenase activity in nitrogen-limited continuous cultures of Rhodopseudomonas capsulata. Role of glutamine synthetase.

Author

Jouanneau, Yves, Lebecque, Stephan, and Vignais, Paulette

Abstract

Nitrogen-limited continuous cultures of Rhodopseudomonas capsulata were used to investigate some aspects of the regulation of nitrogenase activity. The role of glutamine synthetase (GS) in this regulation was examined by measuring changes of its adenylylation state when the light intensity and the nitrogen source were varied. Maximal nitrogenase activity was observed at a dilution rate corresponding to about one third of the maximum specific growth rate (μ), both in ammonia- and in glutamate-limited cultures. At higher dilution rates, both GS and nitrogenase were inactivated by ammonia. Determination of the kinetics of inhibition of both enzymes indicated that the degree of inactivation of nitrogenase and the adenylylation state of GS were not closely related. Increase of light intensity stimulated nitrogenase activity dramatically. Conversely, a shift-down in light intensity to a limiting value resulted in a decrease of nitrogenase activity suggesting that synthesis was inhibited. On the other hand, the adenylylation state of glutamine synthetase appeared to be unaffected by changes in light intensity, indicating that GS is probably not involved in the regulation of nitrogenase expression by light. [ABSTRACT FROM AUTHOR]

Published

1984

32. Contrasting modes of photosynthetic enzyme regulation in oxygenic and anoxygenic prokaryotes.

Author

Crawford, N., Sutton, C., Yee, B., Johnson, T., Carlson, D., and Buchanan, B.

Abstract

Enzymes that are regulated by the ferredoxin/thioredoxin system in chloroplasts - fructose-1,6-bisphosphatase (FBPase), sedoheptulose-1,7-bisphosphatase purified from two different types of photosynthetic prokaryotes (cyanobacteria, purple sulfur bacteria) and tested for a response to thioredoxins. Each of the enzymes from the cyanobacterium Nostoc muscorum, an oxygenic organism known to contain the ferredoxin/thioredoxin system, was activated by thioredoxins that had been reduced either chemically by dithiothreitol or photochemically by reduced ferredoxin and ferredoxin-thioredoxin reductase. Like their chloroplast counterparts, N. muscorum FBPase and SBPase were activated preferentially by reduced thioredoxin f. SBPase was also partially activated by thioredoxin m. PRK, which was present in two regulatory forms in N. muscorum, was activated similarly by thioredoxins f and m. Despite sharing the capacity for regulation by thioredoxins, the cyanobacterial FBPase and SBPase target enzymes differed antigenically from their chloroplast counterparts. The corresponding enzymes from Chromatium vinosum, an anoxygenic photosynthetic purple bacterium found recently to contain the NADP/thioredoxin sytem, differed from both those of cyanobacteria and chloroplasts in showing no response to reduced thioredoxin. Instead, C. vinosum FBPase, SBPase, and PRK activities were regulated by a metabolite effector, 5′-AMP. The evidence is in accord with the conclusion that thioredoxins function in regulating the reductive pentose phosphate cycle in oxygenic prokaryotes (cyanobacteria) that contain the ferredoxin/thioredoxin system, but not in anoxygenic prokaryotes (photosynthetic purple bacteria) that contain the NADP/thioredoxin system. In organisms of the latter type, enzyme effectors seem to play a dominant role in regulating photosynthetic carbon dioxide assimilation. [ABSTRACT FROM AUTHOR]

Published

1984

33. Regulation of phosphate uptake kinetics in Oscillatoria agardhii.

Author

Riegman, Roel and Mur, Luuc

Abstract

In order to study phosphate uptake kinetics the cyanobacterium Oscillatoria agardhii was grown in continuous culture under a phosphorus limitation. The affinity of the uptake system reflected in the initial slope of the uptake rate versus external substrate concentration curve ( dV/ds) was found to be unaffected by the growth wate. The maximum phosphate uptake rate ( V) decreased as the growth rate was increased. Attempts were made to relate the decrease of V to the increase in phosphorus content of the cells that occurred a higher growth rates. Accumulation of phosphate during pulse experiments indeed resulted in a decrease of V. However feedback regulation of V by accumulated phosphorus was found to occur only to a small extent in steady state growing cells. The main part of the regulation of the activity of the phosphate uptake system seemingly is determined by a long term process that is, at least longer than 2 h. The presence of short term feedback inhibition by accumulated phosphorus on the activity of the uptake system provides an explanation of the phenomenon that Oscillatoria agardhii is not able to grow at near μ growth rates under a phosphorus limitation. [ABSTRACT FROM AUTHOR]

Published

1984

34. Participation of vacuoles in regulation of levels of K, Mg and orthophosphate ions in cytoplasm of the yeast Saccharomyces carlsbergensis.

Author

Lichko, Lidia, Okorokov, Lev, and Kulaev, Igor

Abstract

Intracellular distributions of K, Mg and orthophosphate under various conditions of cultivation or incubation of the yeast Saccharomyces carlsbergensis were studied by differential extraction of ion pools. The decisive role of vacuolar compartmentation of ions in regulation of K, Mg and orthophosphate levels in the yeast cytoplasm was shown. The content of intracellular K and Mg in yeast increased or decreased primarily depending on the increase or decrease in the vacuolar ion pool. The levels of K and Mg in the cytoplasm were practically unchanged. Vacuoles were involved in regulation of Mn concentration in the cytoplasm of the yeast S. carlsbergensis accumulating this ion in the presence of glucose. Alongside the vacuolar compartmentation, the chemical compartmentation, i. e. formation of bound Mg, Mn and K was, evidently, also involved in the control of ion levels in the cytoplasm. The orthophosphate level in the yeast cytoplasm was regulated by its accumulation in vacuoles and biosynthesis of inorganic polyphosphates in these organelles. The biosynthesis of low-molecular weight polyphosphates occurred parallel to the accumulation of Mg or Mn in vacuoles, thus confirming the availability of the other mechanism for the transport of these ions through the tonoplast differing from the transport mechanism through the plasmalemma. [ABSTRACT FROM AUTHOR]

Published

1982

35. Induction and regulation of ribulose bisphosphate carboxylase activity in Rhizobium japonicum during formate-dependent growth.

Author

Manian, Sundaram and O'Gara, Fergal

Abstract

Rhizobium japonicum CJ1 was capable of growing using formate as the sole source of carbon and energy. During aerobic growth on formate a cytoplasmic NAD-dependent formate dehydrogenase and ribulose bisphosphate carboxylase activity was demonstrated in cell-free extracts, but hydrogenase enzyme activity could not be detected. Under microaerobic growth conditions either formate or hydrogen metabolism could separately or together support ribulose bisphosphate carboxylase-dependent CO fixation. A number of R. japonicum strains defective in hydrogen uptake activity were shown to metabolise formate and induce ribulose bisphosphate carboxylase activity. The induction and regulation of ribulose bisphosphate carboxylase is discussed. [ABSTRACT FROM AUTHOR]

Published

1982

36. Regulation of exoprotease production by temperature and oxygen in Vibrio alginolyticus.

Author

Hare, Patricia, Long, Susan, Robb, Frank., and Woods, David

Abstract

The production of an extracellular collagenase and an alkaline protease by Vibrio alginolyticus during stationary phase was inhibited by a temperature shift from 30 to 37°C and by a lack of oxygen. The stability of the exoproteases was unaffected by incubation at 37°C and aeration. The optimum growth temperature for the V. alginolyticus strain was 33.5°C Aeration enhanced the rate of growth of exponential phase cells. Temperature and oxygen did not affect the growth of stationary phase cells when the exoproteases were being produced. Macromolecular synthesis in stationary phase cells was not affected by temperature. There was no rapid release of the exoproteases after temperature shift down and chloramphenicol inhibited the production of the enzymes when added at time of temperature shift down from 37 to 30°C. The regulation of exoprotease production by temperature and oxygen was specific and has implications regarding the ecology of V. alginolyticus. Cerulenin, quinacrine and O-phenanthroline inhibited the production of the exoproteases. [ABSTRACT FROM AUTHOR]

Published

1981

37. Murein biosynthesis in ether permeabilized Escherichia coli starting from early peptidoglycan precursors.

Author

Maass, Dieter and Pelzer, Helmut

Abstract

ETB, ether treated bacteria, from E. coli and other Gram-negative strains, contain in a cell-free system all enzymes necessary for murein biosynthesis. Starting with a variety of combinations of peptidoglycan precursors, high yields of sodium dodecylsulfate (SDS, 4%) insoluble murein or murein like material were synthesized. The amount of newly synthesized SDS insoluble material (NSM) was dependent upon the growing phase at which cells had been harvested for preparation of ETB. This data may provide some insight into the regulation of peptidoglycan biosynthesis. Starting from early peptidoglycan precursors, the cell-free synthesis of NSM was inhibited by specific inhibitors of murein synthesis, such as D-cycloserine, D-fluoroalanine, 2-amino-ethylphosphonate, analogues of D-alanyl- D-alanine and β-lactam antibiotics at appropriate concentrations. Some D-alanyl- D-alanine analogues and 4-chlorodiaminopimelic acid were incorporated into NSM in place of their corresponding natural substrates. [ABSTRACT FROM AUTHOR]

Published

1981

38. The ferredoxin/thioredoxin system of enzyme regulation in a cyanobacterium.

Author

Yee, B., Torre, A., Crawford, N., Lara, C., Carlson, D., and Buchanan, B.

Abstract

Cell-free preparations of the cyanobacterium (bluegreen alga) Nostoc muscorum were assayed for thioredoxins and enzymes catalyzing the ferredoxin and NADP-linked reduction of thioredoxin. Nostoc was found to have two different thioredoxins: one of approximate molecular weight 16,000 (designated Nostoc thioredoxin f) that selectively activated chloroplast fructose 1,6-bisphosphatase, and another of approximate molecular weight 9,000 (designated Nostoc thioredoxin m) that selcetively activated chloroplast NADP-malate dehydrogenase. The two thioredoxins could be reduced either chemically with dithiothreitol or photochemically with ferredoxin and ferredoxin-thioredoxin reductase which, like the recently found regulatory iron-sulfur protein ferralterin, was present in Nostoc cells. Nostoc ferredoxin-thioredoxin reductase appeared to be similar to its chloroplast counterpart in enzyme specificity, molecular weight, and spectral properties. The Nostoc and spinach chloroplast ferredoxin-thioredoxin reductases as well as their thioredoxins, ferredoxins, and chlorophyll containing membranes were interchangeable in activating chloroplast fructose 1,6-bisphosphatase and NADP-malate dehydrogenase. There was no evidence for an NADP-linked thioredoxin reductase such as that of E. coli. The results are in accord with the conclusion that the cyanobacteria resemble higher plants in having a functional ferredoxin/thioredoxin system rather than an NADP/thioredoxin system typical of other bacteria. [ABSTRACT FROM AUTHOR]

Published

1981

39. Regulation of nitrogenase messenger RNA synthesis and stability in Klebsiella pneumoniae.

Author

Kaluza, Klaus and Hennecke, Hauke

Abstract

Nitrogenase messenger RNA synthesis in Klebsiella pneumoniae was determined by labelling cells with (H)uracil and isolating total RnA, which was then hybridized to filterbound recombinant plasmid pSA30 DNA carrying the nitrogenase structural genes nifH, D, and K. Derepression of nitrogenase mRNA starts 1.5 h before the onset of nitrogenase activity (as measured by acetylene reduction). Exposure of nif-derepressed cultures to either NH, air, or high temperatures (39° C) results in a rapid decrease of the synthesis rates both of nitrogenase mRNA and nitrogenase polypeptides. Nitrogenase mRNA is remarkably stable. After blocking transcription with rifampicin, hybridizable and actively translatable nitrogenase mRNA survives with an average half-life of 18 min. Half-lives are considerably shorter when rifampicin-inhibited cultures are simultaneously shifted to conditions which are non-permissive for nitrogenase synthesis, pointing to some posttranscriptional influence on nitrogenase mRNA stability. In all experiments performed there was no evidence for uncoupling of nitrogenase mRNA synthesis from nitrogenase mRNA translation, indicating that nitrogenase synthesis is regulated solely by transcriptional control. [ABSTRACT FROM AUTHOR]

Published

1981

40. Regulation of cephalosporin synthesis in Cephalosporium acremonium by phosphate and glucose.

Author

Küenzi, Martin

Abstract

The regulation of cephalosporin synthesis in Cephalosporium acremonium was studied in a simple chemically-defined medium with glucose as the carbon source. Antibiotic synthesis depended on the phosphate content of the medium. At phosphate concentrations above 2.75 mM maximum antibiotic titres were not reached while glucose uptake and growth rates were increased. Phosphate exerted its effect indirectly by regulating the rate of glucose consumption. The negative effect of high phosphate concentrations could be overcome completely by controlling the sugar supply in fed-batch and chemostat experiments. High actual concentrations of phosphate or of glucose alone had no direct negative effect on antibiotic synthesis. [ABSTRACT FROM AUTHOR]

Published

1980

41. Metabolic regulation in Pseudomonas oxalaticus OX1. Diauxic growth on mixtures of oxalate and formate or acetate.

Author

Dijkhuizen, L., Werf, B., and Harder, W.

Abstract

Diauxic growth was observed in batch cultures of Pseudomonas oxalaticus when cells were pregrown on acetate and then transferred to mixtures of acetate and oxalate. In the first phase of growth only acetate was utilized. After the exhaustion of acetate from the medium enzymes involved in the metabolism of oxalate were synthesized during a lag phase of 2 h, followed by a second growth phase on oxalate. When the organism was pregrown on oxalate, oxalate utilization from the mixture with acetate completely ceased after a few hours during which acetate became the preferred substrate. Similar observations were made with formate/oxalate mixtures in which formate was the preferred substrate. Until formate was exhausted, it completely suppressed oxalate metabolism, again resulting in diauxic growth. However, when the organism was pregrown on oxalate and then transferred to mixtures of oxalate and formate, both substrates were utilized simultaneously although the initial rate of oxalate utilization from the mixture was strongly reduced as compared to growth on oxalate alone. Since both preferred substrates cross the cytoplasmic membrane by diffusion, whereas oxalate is accumulated by an inducible, active transport system, the effect of acetate and formate on oxalate transport was studied at different external pH values. At pH 5.5 both substrates completely inhibited oxalate transport. However, at pH 7.5, the pH at which the diauxic growth experiments were performed, formate and acetate did not affect oxalate transport. Growth patterns and enzymes profiles suggest that, at higher pH values, formate and acetate possibly affect oxalate utilization via an effect on the internal pool of oxalyl-CoA, the first product of oxalate metabolism. [ABSTRACT FROM AUTHOR]

Published

1980

42. Chemostat culture of Bacillus caldotenax at 65°C: Activity and regulation of the main metabolic pathways.

Author

Friederich, U., Kuhn, H., Fischer, H., and Fiechter, A.

Abstract

Bacillus caldotenax was cultivated in chemostat experiments at 65°C with a chemically defined minimal medium. Glycolysis, tricarboxylic acid cycle, pentose phosphate pathway and the respiratory chain were active as demonstrated by measuring the corresponding enzymes. No enzyme activity of the Entner-Doudoroff pathway could be detected. The specific activities of the citrate cycle enzymes were up to 10 times higher as compared to the enzymes of glycolysis. At dilution rates between 0.3 and 2.2 h none of the main metabolic pathways was regulated. In contrast the isocitrate lyase was regulated (drop of activity with increasing growth rates). As a result of a batch culture with glucose and acetate as carbon sources a regulation model was proposed: glucose, or a metabolite of glucose, represses the isocitrate lyase; in the absence of glucose acetate acts as an inducer. [ABSTRACT FROM AUTHOR]

Published

1980

43. Regulation of respiration and cytochrome c oxidase activities in Rhodospirillum rubrum and Rhodospirillum tenue During the reversible adaptation from phototrophic to chemotrophic conditions.

Author

Wakim, B., Georg, B., and Oelze, J.

Abstract

In spite of previous reports, the activities of respiratory oxygen uptake by whole cells are higher with chemotrophically than with phototrophically grown cells of Rhodospirillum rubrum and Rhodospirillum tenue. The same applies to NADH dependent respiratory reactions as determined with isolated crede membrane preparations. This is largely, but not only, due to an outstandingly high increase in activity of cytochrome c-oxidase measurable upon adaptation of phototrophically grown cells to chemotrophic conditions. In R. rubrum the dependency of the total respiratory chain on the activities of different sections of this chain becomes confused by the presence of differently composed membranes (i.e. cytoplasmic and intracytoplasmic membranes) which under the experimental conditions become functionally differentiated to different extents. But in R. tenue, which does not produce intracytoplasmic membranes, respiration at low activities parallels clearly cytochrome c oxidase activities while high respiratory activities parallel the activities of NADH dehydrogenase. The data are interpreted to indicate that, in cells of facultative phototrophic bacteria, the formation of the respiratory chain, up to certain stages, depends on the formation of the terminal oxidase. At least in R. tenue this is comparable to the role of bacteriochlorophyll in the formation of the photosynthetic apparatus. [ABSTRACT FROM AUTHOR]

Published

1980

44. Temperature control of nitrogen fixation in Klebsiella pneumoniae.

Author

Hennecke, H. and Shanmugam, K.

Abstract

At growth temperatures above 37°C, Klebsiella pneumoniae does not grow in a medium containing N or NOas nitrogen sources. However, both the growth in the presence of other nitrogen sources as well as the in vitro nitrogenase activity are not affected at this temperature. The inability to fix N at high temperature is due to the failure of the cells to synthesize nitrogenase and other nitrogen fixation (nif) gene encoded proteins. When cells grown under nitrogen fixing conditions at 30°C were shifted to 39°C, there was a rapid decrease of the rate of de novo biosynthesis of nitrogenase (component 1), nitrogenase reductase (component 2), and the nifJ gene product. There was no degradation of nitrogenase at the elevated temperature since preformed enzyme remained stable over a period of at least 3 h at 39°C. Thus, temperature seems to represent a third control system, besides NHand O, governing the expression of nif genes of K. pneumoniae. [ABSTRACT FROM AUTHOR]

Published

1979

45. Glycogen metabolism in resting and growing cells of Saccharomyces carlsbergensis.

Author

Becker, J., Vohmann, H., and Eilers-König, C.

Abstract

Saccharomyces carlsbergensis cells, growing under carbohydrate or nitrogen limitation, initially deplete their glycogen, which is resynthesized only during the late exponential phase. Cells, harvested in the carly exponential phase, are even unable to synthesize glycogen in glucose-containing phosphate buffer. This is in contrast to cells from the stationary phase which rapidly synthesize glycogen under the same conditions. Lack of O slows down glycogen synthesis. Contrary to cells suspended in complete medium, addition of ammonia alone to nitrogen free-media induced neither breakdown of glycogen, nor complete cessation of glycogen synthesis. Ammonia slowed down glycogen synthesis (both aerobic and anaerobic), only, in cells grown either under carbohydrate or under nitrogen limitation. Glycogen synthesis was observed 1 min after addition of glucose to a starved cell suspension in phosphate buffer. Removal of the sugar from the buffer resulted in an instantanous decrease of the glycogen level in the cells. The results indicate that glycogen-metabolism is regulated by a variety of endogenous and environmental factors. [ABSTRACT FROM AUTHOR]

Published

1979

46. Accumulation of proteinase in the cell wall of Streptococcus cremoris strain AM and regulation of its production.

Author

Exterkate, F.

Abstract

The persistent accumulation of proteinase (P) activity in the cell wall of Streptococcus cremoris strain AM during growth depends on the presence of Ca-ions in the medium. In the absence of calcium initial accumulation of activity in the cell wall is observed, followed by a decrease to a low final level. Under this condition no increase of proteolytic activity is found in the extracellular fluid. A possible function of calcium in the stabilization of the enzyme is discussed. Prolonged accumulation of catalytically active proteinase P in the cell wall occurs in the absence of messenger ribonucleic acid synthesis. This process involves de novo protein synthesis supported by preformed proteinase-specific messenger ribonucleic acid, which is possibly either intrinsically long-lived or is stabilized following its transcription. The level of the extracellular concentration of amino acids and/or peptides regulates the translation of newly synthesized proteinase-specific messenger ribonucleic acid and, possibly, the growth of the organism in milk. [ABSTRACT FROM AUTHOR]

Published

1979

47. Regulation of the utilization of 4-hydroxybenzoate and 4-hydroxycinnamate in batch and continuous cultures of Pseudomonas testosteroni.

Author

Karanth, N. and Reber, H.

Abstract

Pseudomonas testosteroni metabolized 4-hydroxycinnamate by an initial cleavage of the side chain to yield acetate and the aromatic moiety, 4-hydroxybenzaldehyde. The latter was further oxidized via 4-hydroxybenzoate to protocatechuate, which underwent meta cleavage. During growth of the organism on 4-hydroxycinnamate, the $$Q_{O_2 } ^{\max } $$ for acetate showed an undulating pattern, which was attributed to alternating induction and repression of enzymes involved in the oxidation of acetate. Repression was caused either by 4-hydroxybenzoate or by its later metabolites, formate and pyruvate. In batch culture, P. testosteroni oxidized mixtures of 4-hydroxybenzoate and 4-hydroxycinnamate in a diauxic pattern. The capacity to oxidize 4-hydroxycinnamate appeared in the cells before 4-hydroxybenzoate was exhausted, indicating that the enzymes catalysing the conversion of 4-hydroxycinnamate into 4-hydroxybenzoate. were induced despite the presence of 4-hydroxybenzoate. The induction of these early enzymes of 4-hydroxycinnamate catabolism started when the molar concentration ratio of 4-hydroxybenzoate to 4-hydroxycinnamate fell below a value of 0.3. In continuous culture of P. testosteroni on a mixture of 4-hydroxybenzoate and 4-hydroxycinnamate, both substrates were almost completely utilized up to a dilution rate of about 0.5/h. At higher dilution rates, 4-hydroxycinnamate was decreasingly utilized so that eventually at a dilution rate of 0.74/h, its effluent concentration equalled its influent concentration. At D, a utilization ratio of 1.23 in favour of 4-hydroxybenzoate was found to become established in the culture. The $$Q_{O_2 } ^{\max } $$ of the cells for acetate was maximal at a dilution rate of 0.38/h and decreased before 4-hydroxycinnamate utilization was at its peak at 0.59/h. This suggested that it was mainly the aromatic moiety of 4-hydroxycinnamate which was metabolized at high dilution rates. The failure to utilize acetate at high dilution rates was apparently due to the repression of its catabolic enzymes by later metabolites of 4-hydroxybenzoate and to the relatively low concentration of acetate in the fermenter. This low concentration, due to the continuous washout of acetate, prevented it from relieving the repression. [ABSTRACT FROM AUTHOR]

Published

1979

48. Regulation of isocitrate lyase in a mutant of Rhodopseudomonas capsulata adapted to growth on acetate.

Author

Nielsen, Allen, Rampsch, Brian, and Sojka, Gary

Abstract

Studies on acetate utilization by Rhodopseudomonas capsulata strain St. Louis indicated that the wild type grew poorly on acetate and made little if any of the glyoxylate cycle enzyme isocitrate lyase. A spontaneous mutant, Ac-l, capable of vigorous and immediate growth on acetate and exhibiting high levels of isocitrate lyase activity, was isolated in the course of those studies. Isocitrate lyase was not formed when the mutant was grown on malate. Addition of malate to cultures of Ac-l growing on acetate resulted in loss of the enzyme by dilution through growth. Starvation of acetate-grown Ac-l for acetate resulted in a rapid and complete loss of isocitrate lyase activity which was shown to be energy dependent. Readdition of acetate to a starved culture previously grown on acetate resulted in a rapid recovery of enzyme activity. The recovery required energy and was sensitive to chloramphenicol inhibition at any time during the recovery phase. [ABSTRACT FROM AUTHOR]

Published

1979

49. Regulation of proteolytic enzymes in axenically grown myxamoebae of Physarum polycephalum.

Author

Haars, Annegret, McCullough, Clare, Hüttermann, Aloys, and Dee, Jennifer

Abstract

The cultivation of Physarum polycephalum amoebae in two media with different protein contents revealed a regulation of aminopeptidases and proteases depending on the albumin content of the medium: in growing amoebae and plasmodia the aminopeptidases have similar isoenzyme patterns and relative activities against nitroanilides. One alanine and four leucine aminopeptidase isoenzymes were found within the slightly acid pH range. During growth amoebae secrete-different from plasmodia-leucine aminopeptidase into the medium with low protein content. In an albumin-rich medium additional alanine aminopeptidase activity was found. Out of nine plasmodial proteases four were found in amoebae too. Only one band (pI 3.6) was present in the protein-poor medium. No protease activity could be detected in the proteinrich medium. [ABSTRACT FROM AUTHOR]

Published

1978

50. Mutants of Alcaligenes eutrophus defective in autotrophic metabolism.

Author

Schink, Bernhard and Schlegel, Hans

Abstract

Forty-four mutants of Alcaligenes eutrophus H 16 were isolated which grew poorly or not at all under autotrophic conditions. Four types were characterized with respect to their defects and their physiological properties. One mutant lacked both enzymes specific for autotrophic CO fixation, another one lacked both hydrogenases, and two mutants lacked either the membrane-bound or the soluble hydrogenase. Comparing the results of studies on these mutant types, the following conclusions were drawn: the lack of each hydrogenase enzyme could be partially compensated by the other one; the lack of membrane-bound hydrogenase did not affect autotrophic growth, whereas the lack of the soluble hydrogenase resulted in a decreased autotrophic growth rate. When pyruvate as well as hydrogen were supplied to the wild-type, the cell yield was higher than in the presence of pyruvate alone. Mutant experiments under these conditions indicated that either of both hydrogenases was able to add to the energy supply of the cell. Only the soluble hydrogenase was involved in the control of the rate of hydrogen oxidation by carbon dioxide; the mutant lacking this enzyme did not respond to the presence or absence of CO. The suppression of growth on fructose by hydrogen could be mediated by either of both hydrogenases alone. [ABSTRACT FROM AUTHOR]

Published

1978