Annie Trautwetter

Proteomic Alterations Explain Phenotypic Changes in Sinorhizobium meliloti Lacking the RNA Chaperone Hfq

The ubiquitous bacterial RNA-binding protein Hfq is involved in stress resistance and pathogenicity. In Sinorhizobium meliloti, Hfq is essential for the establishment of symbiosis with Medicago sativa and for nitrogen fixation. A proteomic analysis identifies 55 proteins with significantly affected expression in the hfq mutant; most of them are involved in cell metabolism or stress resistance. Important determinants of oxidative stress resistance, such as CysK, Gsh, Bfr, SodC, KatB, KatC, and a putative peroxiredoxine (SMc00072), are downregulated in the hfq mutant. The hfq mutant is affected for H(2)O(2), menadione, and heat stress resistance. Part of these defects could result from the reductions of rpoE1, rpoE2, rpoE3, and rpoE4 expression levels in the hfq mutant. Some proteins required for efficient symbiosis are reduced in the hfq mutant, contributing to the drastic defect in nodulation observed in this mutant.

Interrelations between Glycine Betaine Catabolism and Methionine Biosynthesis in Sinorhizobium meliloti Strain 102F34

Methionine is produced by methylation of homocysteine. Sinorhizobium meliloti 102F34 possesses only one methionine synthase, which catalyzes the transfer of a methyl group from methyl tetrahydrofolate to homocysteine. This vitamin B(12)-dependent enzyme is encoded by the metH gene. Glycine betaine can also serve as an alternative methyl donor for homocysteine. This reaction is catalyzed by betaine-homocysteine methyl transferase (BHMT), an enzyme that has been characterized in humans and rats. An S. meliloti gene whose product is related to the human BHMT enzyme has been identified and named bmt. This enzyme is closely related to mammalian BHMTs but has no homology with previously described bacterial betaine methyl transferases. Glycine betaine inhibits the growth of an S. meliloti bmt mutant in low- and high-osmotic strength media, an effect that correlates with a decrease in the catabolism of glycine betaine. This inhibition was not observed with other betaines, like homobetaine, dimethylsulfoniopropionate, and trigonelline. The addition of methionine to the growth medium allowed a bmt mutant to recover growth despite the presence of glycine betaine. Methionine also stimulated glycine betaine catabolism in a bmt strain, suggesting the existence of another catabolic pathway. Inactivation of metH or bmt did not affect the nodulation efficiency of the mutants in the 102F34 strain background. Nevertheless, a metH strain was severely defective in competing with the wild-type strain in a coinoculation experiment.

The Sinorhizobium meliloti RNA Chaperone Hfq Mediates Symbiosis of S. meliloti and Alfalfa

There exist commonalities between symbiotic Sinorhizobium meliloti and pathogenic Brucella bacteria in terms of extensive gene synteny and the requirements for intracellular survival in their respective hosts. The RNA chaperone Hfq is essential for virulence for several bacterial groups, including Brucella; however, its role in S. meliloti has not been investigated. Our studies of an S. meliloti loss-of-function hfq mutant have revealed that Hfq plays a key role in the establishment of the symbiosis between S. meliloti and its host Medicago sativa. S. meliloti Hfq is involved in controlling the population density under a free-living state and affects the growth parameters and nodulation. An hfq mutant poorly colonizes the infection threads that are necessary for the bacteria to invade the developing nodule. An hfq mutant is severely impaired in its ability to invade plant cells within the nodule, which leads to the formation of small, ineffective nodules unable to fix nitrogen. In culture, the hfq mutant did not accumulate transcripts of nifA, which encodes a key regulator necessary for nitrogen fixation. Hfq may be involved in regulation of several proteins relevant to hfq mutant phenotypes. The crucial role of Hfq in symbiosis suggests that small regulatory RNAs are important for its interactions with its plant host.

Transfer of plasmid DNA to Brevibacterium lactofermentum by electrotransformation

The Escherichia coli-Brevibacterium lactofermentum shuttle vector pBLA was introduced into intact cells of B. lactofermentum by electrotransformation. Several parameters of this procedure such as voltage and cell concentration were analysed. Optimal conditions gave an efficiency of 10(6) transformants per microgram of DNA. Two recalcitrant strains could be electrotransformed when an ampicillin pretreatment step was used. Electrotransformation experiments using DNAase or different structural forms of plasmid DNA showed that the electrotransformation process is quite different from natural transformation involving competence development. Restriction-modification-proficient B. lactofermentum could be efficiently electrotransformed with pBLA DNA isolated from E. coli. This restriction-modification system therefore seems to be overcome by electrotransformation. Thus electrotransformation may efficiently replace the protoplast bacterial transformation method.

Sinorhizobium meliloti rpoE2 is necessary for H2O2 stress resistance during the stationary growth phase

RpoE2 is an extracytoplasmic sigma factor produced by Sinorhizobium meliloti during stationary growth phase. Its inactivation affected the synthesis of the superoxide dismutase, SodC, and catalase, KatC. The absence of SodC within the cell did not result in an increased sensitivity to extracellular superoxides. In contrast, the absence of KatC affected the resistance of S. meliloti to H(2)O(2) during the stationary growth phase. A katC strain behaved as an rpoE2 strain during an H(2)O(2) challenge, suggesting that the H(2)O(2) sensitivity of the rpoE2 strain resulted only from the lack of KatC in this strain.

Structural organization of the Corynebacterium glutamicum plasmid pCG100

pCG100, a 3 kb cryptic plasmid of Corynebacterium glutamicum ATCC 13058, probably identical with pSR1 from C. glutamicum ATCC 19223, was characterized. The minimum region for autonomous replication was shown to be contained on a 1.9 kb BglII-NcoI fragment; a 380 bp HindIII-SphI fragment can replicate in the presence of the parental plasmid, which presumably provides a trans-acting replication factor. Derivatives of pCG100 are able to replicate in several Corynebacterium, Brevibacterium and Arthrobacter strains. pCG100 is compatible with pBL1, a cryptic plasmid of Brevibacterium lactofermentum. Shuttle plasmid vectors, containing the kanamycin-resistance gene from Tn903 or from Streptococcus faecalis as selectable markers and the AmpR, TetR or lacZ alpha genes for insertional inactivation, were constructed using the minimum replication fragment of pCG100.

Characterization of the corynebacteriophage CG33.

Bacteriophage CG33 was isolated from a strain of Corynebacterium glutamicum that had become contaminated during an industrial fermentation. CG33 was assigned to Bradleys group B since it had a polyhedral head 40 nm wide and a short non-contractile and striated tail 78 nm long. Adsorption to its host, C. glutamicum ATCC 13287, was enhanced in the presence of Ca2+. The latent period was 18 min at 34 degrees C; the burst size was 16 p.f.u. ml-1. CG33 also formed plaques on C. lilium ATCC 15990 but at a low frequency. Its genome consisted of a linear double stranded DNA molecule of 13.4 kb with cohesive ends. A restriction map of the genome was obtained by using various endonucleases.

Plasmids with the uidA reporter gene for the detection of promoters and transcription signals.

SummaryWe have constructed promoter-probe plasmids, pNB4 and pNB5, based on the promoterless gene for β-glucuronidase (uidA) of Escherichia coli. Unique restriction sites for EcoRI, SacI, KpnI, SmaI, XmaI, XbaI, SalI, SphI and HindIII in pNB4 and for HindIII, PstI and BglII in pNB5 were included upstream of the uidA structural gene. The usefulness of these plasmids was demonstrated by cloning the promoter-operator region of the E. coli uxaB gene. We observed that expression of the uxaB-uidA operon fusion followed the transcription-regulating properties of the uxaB promoter. Another construct, pNB2, can be used to detect operator and terminator signals. Recipient cells transformed with such recombinant plasmids can be revealed by growth on medium containing a chromogenic β-glucuronidase substrate.

pBLA8, from Brevibacterium linens, belongs to a Gram-positive subfamily of ColE2-related plasmids

A 3.1 kb DNA fragment from pBLA8, a Brevibacterium linens cryptic plasmid, containing all the information required for autonomous replication was cloned and sequenced. Using deletion analysis, the fragment essential and sufficient for autonomous replication was delimited to 1.5 kb. This fragment is characterized by the presence of an ori site located upstream of an operon encoding two proteins, RepA and RepB, both essential for replication. Based on structural similarities and a strong conservation of ori, RepA and RepB, pBLA8 was assigned to a new subfamily of the ColE2 plasmid family. This subfamily is distinguished by the requirement for two Rep proteins and the location of an ori site upstream of the repAB operon. RepA is thought to encode primase activity, whereas RepB could be a DNA-binding protein. An Escherichia coli-B. linens shuttle vector, derived from pBLA8, was constructed. Its host spectrum was extended to Arthrobacter species.

A genetic tool to quantify trans-translation activity in vivo

In bacteria, trans-translation is the main quality control mechanism for rescuing ribosomes arrested during translation. This key process is universally conserved and plays a critical role in the viability and virulence of many pathogens. We developed a reliable in vivo double-fluorescence reporter system for the simultaneous quantification of both trans-translation and the associated proteolysis activities in bacteria. The assay was validated using mutant bacteria lacking tmRNA, SmpB, and the ClpP protease. Both antisense tmRNA-binding RNA and a peptide mimicking the SmpB C-terminal tail proved to be potent inhibitors of trans-translation in vivo. The double-fluorescent reporter was also tested with KKL-35, an oxadiazole derivative that is supposed to be a promising trans-translation inhibitor, and it surprisingly turns out that trans-translation is not the only target of KKL-35 in vivo.