Brunhilde Kottwitz scite author profile

Brunhilde Kottwitz

4Publications

99Citation Statements Received

94Citation Statements Given

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166

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University of Konstanz

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Subplasmalemmal Camstores in Paramecium tetraurelia. Identification and characterisation of a sarco(endo)plasmic reticulum-like Ca2+-ATPase by phosphoenzyme intermediate formation and its inhibition by caffeine

et al. 1998

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Considering increasing interest in calcium stores in protozoa, including parasitic forms, and specifically in subplasmalemmal stores in higher eukaryotes, we have isolated subplasmalemmal calcium stores (alveolar sacs) from the ciliated protozoan, Paramecium tetraurelia. Using antibodies against established sarco(endo)plasmic reticulum Ca(2+)-ATPase (SERCAs) we detected in Western blots of subcellular fractions a band of approximately 106 kDa size selectively in alveolar sacs--but not, for example, in plasma membranes--and concomitant restriction of immunofluorecence labelling to the cell cortex of permeabilised cells. These results are the same as with ABs against a peptide derived from a cloned SERCA-like gene from Paramecium [Hauser K., Pavlovic N., Kissmehl R., Plattner H. Molecular characterization of a sarco(endo)plasmic reticulum Ca(2+)-ATPase gene from Paramecium tetraurelia and localisation of its gene product to subplasmalemmal calcium stores. Biochem J 1998; 334: 31-38]. When such isolated alveolar sacs were now tested for phosphoenzyme intermediate (EP) formation, a phosphoprotein of the same apparent molecular mass (approximately 106 kDa) as in blots could be identified in gel autoradiograms. This EP corresponds to that formed in the reaction cycle of different SERCA-types, with dependency on Ca2+ and Mg2+, sensitivity to La3+ or insensitivity towards calmodulin, calmodulin antagonists and vanadate. However, EP formation in alveolar sacs is not inhibited by established SERCA inhibitors (e.g. thapsigargi[ci]n tested up to 100 microM). Surprisingly, caffeine, which is frequently used to mobilise Ca2+ from intracellular stores, strongly inhibits EP formation. In parallel experiments, we did not find any similar effect with sarcoplasmic reticulum isolated from skeletal muscle. We conclude that the approximately 106 kDa protein of alveolar sacs in Paramecium may represent a SERCA-like Ca(2+)-ATPase with some unorthodox features, which might be relevant also for some other protozoan systems. In this case, the established Ca(2+)-mobilizing effect of caffeine may be amplified by inhibiting store refilling.

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Occurrence of apara-Nitrophenyl Phosphate-Phosphatase with Calcineurin-like Characteristics inParamecium tetraurelia

Kissmehl

Treptau

Kottwitz

et al. 1997

Archives of Biochemistry and Biophysics

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Identification of a segment of the Escherichia coli Tsx protein that functions as a bacteriophage receptor area

et al. 1993

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The Escherichia coli outer membrane protein Tsx functions as a nucleoside-specific channel and serves as the receptor for colicin K and a number of T-even-type bacteriophages, including phage T6. To identify those segments of the Tsx protein that are important for its phage receptor function, we devised a selection and screening procedure which allowed us to isolate phage-resistant strains synthesizing normal amounts of Tsx.Three different Tsx-specific phages (T6, Oxi, and H3) were employed for the selection of phage-resistant derivatives of a strain expressing a tsx+-lacZ' operon fusion, and 28 tsx mutants with impaired phage receptor function were characterized. Regardless of the Tsx-specific phage used for the initial mutant selection, cross-resistance against a set of six different Tsx phages invariably occurred. With one exception, these mutant Tsx proteins could still serve as a colicin K receptor. DNA sequence analysis of 10 mutant tsx genes revealed the presence of four distinct tsx alleles: two point mutations, an 18-bp deletion, and a 27-bp tandem duplication. In three isolates, Asn-249 was replaced by a Lys residue (tsr-504), and in four others, residue Asn-254 was replaced by

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Single amino acid substitutions affecting the substrate specificity of the Escherichia coli K-12 nucleoside-specific Tsx channel

Fsihi

Kottwitz²,

Bremer³

1993

Journal of Biological Chemistry

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