U. Herrmann scite author profile

SummaryThe genome of Halobacterium salinarum encodes four proteins of the structural maintenance of chromosomes (SMC) protein superfamily. Two proteins form a novel subfamily and are named 'SMC-like proteins of H. salinarum ' (Sph1 and Sph2). Northern blot analyses revealed that sph1 and hp24 , the adjacent gene, are solely transcribed in exponentially growing, but not in stationary phase, cells. A synchronization procedure was developed, which makes use of the DNA polymerase inhibitor aphidicolin and leads to highly synchronous cultures. It allowed us for the first time to study cell cycle-dependent transcription in an archaeon. The sph1 transcript was found to be highly cell cycle regulated, with its maximal accumulation around the time of septum formation. The Sph1 protein level was also elevated at that time, but a basal protein level was found throughout the cell cycle. The hp24 transcript was sharply upregulated about 1 h before sph1 and had already declined at the time of sph1 induction. These and additional transcript patterns revealed that precisely controlled transcriptional regulation is involved in haloarchaeal cell cycle progression. A DNA staining protocol was developed, which opened the possibility of following the dynamic intracellular localization of haloarchaeal nucleoids using synchronized cultures. After an initial dispersed localization, the nucleoid is condensed at midcell. Subsequently, DNA is rapidly transported to the 1/4 and 3/4 positions. All staining patterns were also observed in untreated exponentially growing cells, excluding synchronization artifacts. The Sph1 concentration is elevated when segregation of the new chromosomes is nearly complete; therefore, it is proposed to play a role in a late step of replication, e.g. DNA repair, similar to eukaryotic Rad18 proteins.

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Biotransformation of glycerol to dihydroxyacetone by recombinant Gluconobacter oxydans DSM 2343

Gätgens

Degner

Bringer-Meyer

et al. 2007

Appl Microbiol Biotechnol

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The genus Gluconobacter is well known for its rapid and incomplete oxidation of a wide range of substrates. Therefore, Gluconobacter oxydans especially is used for several biotechnological applications, e.g., the efficient oxidation of glycerol to dihydroxyacetone (DHA). For this reaction, G. oxydans is equipped with a membrane-bound glycerol dehydrogenase that is also described to oxidize sorbitol, gluconate, and arabitol. Here, we demonstrated the impact of sldAB overexpression on glycerol oxidation: Beside a beneficial effect on the transcript level of the sldB gene, the growth on glycerol as a carbon source was significantly improved in the overexpression strains (OD 2.8 to 2.9) compared to the control strains (OD 2.8 to 2.9). Furthermore, the DHA formation rate, as well as the final DHA concentration, was affected so that up to 350 mM of DHA was accumulated by the overexpression strains when 550 mM glycerol was supplied (control strain: 200 to 280 mM DHA). Finally, we investigated the effect on sldAB overexpression on the G. oxydans transcriptome and identified two genes involved in glycerol metabolism, as well as a regulator of the LysR family.

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An evaluation of laparoscopic adhesiolysis in patients with chronic abdominal pain

et al. 1995

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The purpose of this prospective study was to determine whether laparoscopic adhesiolysis ameliorates chronic abdominal pain in patients with abdominal adhesions. Forty-five patients with chronic abdominal pain lasting for more than 6 months but with no abnormal findings other than adhesions found at laparoscopy underwent laparoscopic adhesiolysis. Thirty-six patients (80%) were available for follow-up after a median time interval of 10 months (range: 6-36 months). Seventeen patients (47.2%) were free from abdominal pain and 13 patients (36.1%) reported significant amelioration of their pain. Six (16.6%) patients had no amelioration. Twenty-nine patients (80.6%) judged the outcome of the operation to be good or beneficial and 35 (97.2%) said that they would undergo the operation a second time if that were necessary. Laparoscopy is an effective tool for the evaluation of patients with chronic abdominal pain, and laparoscopic adhesiolysis cures or ameliorates chronic abdominal pain in more than 80% of patients.

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A Gluconobacter oxydans mutant converting glucose almost quantitatively to 5-keto-d-gluconic acid

Elfari

Bremus

et al. 2004

Appl Microbiol Biotechnol

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Gluconobacter oxydans converts glucose to gluconic acid and subsequently to 2-keto-D-gluconic acid (2-KGA) and 5-keto-D-gluconic acid (5-KGA) by membrane-bound periplasmic pyrroloquinoline quinone-dependent and flavin-dependent dehydrogenases. The product pattern obtained with several strains differed significantly. To increase the production of 5-KGA, which can be converted to industrially important L-(+)-tartaric acid, growth parameters were optimized. Whereas resting cells of G. oxydans ATCC 621H converted about 11% of the available glucose to 2-KGA and 6% to 5-KGA, with growing cells and improved growth under defined conditions (pH 5, 10% pO2, 0.05% pCO2) a conversion yield of about 45% 5-KGA from the available glucose was achieved. As the accumulation of the by-product 2-KGA is highly disadvantageous for an industrial application of G. oxydans, a mutant was generated in which the membrane-bound gluconate-2-dehydrogenase complex was inactivated. This mutant, MF1, grew in a similar way to the wild type, but formation of the undesired 2-KGA was not observed. Under improved growth conditions, mutant MF1 converted the available glucose almost completely (84%) into 5-KGA. Therefore, this newly developed recombinant strain is suitable for the industrial production of 5-KGA.

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U. Herrmann

The use of microorganisms in l-ascorbic acid production

Cell cycle‐dependent expression of an essential SMC‐like protein and dynamic chromosome localization in the archaeon Halobacterium salinarum

Biotransformation of glycerol to dihydroxyacetone by recombinant Gluconobacter oxydans DSM 2343

An evaluation of laparoscopic adhesiolysis in patients with chronic abdominal pain

A Gluconobacter oxydans mutant converting glucose almost quantitatively to 5-keto-d-gluconic acid

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