F. Pietruschka scite author profile

The giant molecule titin (also called connectin) provides an elastic connection in the I-band between the Z-disk and A-band of striated muscle. This region is assembled in a tissue-specific way by extensive differential splicing events. We have raised monoclonal antibodies against the two N2-line isoforms of titin and demonstrate that both forms of cardiac I-band titin are constitutively co-expressed in atrial and ventricular muscle. In developing mouse embryos, the expression of the cardiac N2-B isoform remains strictly cardiac-specific and is linked to the expression of the ubiquitous N2-A isoform. The mechanical function of the cardiac N2-line region was investigated ultrastructurally. Immunoelectron microscopy reveals that the N2-B region separates two mechanically distinct sections of titin with a hyperextensible segment spanning the distance to the Z-disk. The formation of a plateau in the extension of cardiac titin rules out that Ig-domains can be unfolded as a mechanism of elasticity.

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The element distribution in ultrathin cryosections of cultivated fibroblast cells

Zierold

Schäfer

Pietruschka

1984

Histochemistry

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A preparation method for measurements of the intracellular distribution of elements in tissue culture cells is described which is based on cryofixation, cryoultramicrotomy, cryotransfer and X-ray microanalysis in a scanning transmission electron microscope. Dry weight concentrations of phosphorus, sulfur, chlorine and potassium in the nucleus, the cytoplasm and the mitochondria of L929 fibroblast cells of the mouse are reported. The preparation and quantitation procedures are discussed with respect to present limitations and possible improvements of the method.

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Calcium influx in cultured carotid body cells is stimulated by acetylcholine and hypoxia

Pietruschka

1985

Brain Research

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Comparative measurements of potassium and chloride with ion-sensitive microelectrodes and x-ray microanalysis in cultured skeletal muscle fibers

Acker

Pietruschka

Zierold

1985

In Vitro Cell Dev Biol

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Data of the intracellular electrolyte concentration of potassium and chloride in cultured muscle cells measured by x-ray analysis were compared by using the different activity coefficients with intracellular potassium and chloride activities measured with double-barrelled microelectrodes. By using an activity coefficient of 0.6, 95% of the potassium microelectrode measurements are in accordance with the x-ray analysis values, in spite of a scattering of the values. Membrane potential and intracellular potassium values are linearly related. x-ray analysis and ion-sensitive microelectrodes measured the cytoplasmic chloride in the same range. Taking into account known activity coefficients, an error of 25% must be assumed with the intracellular chloride measurements. However, x-ray analysis and ion-sensitive microelectrode investigations are reliable tools to study intracellular potassium and chloride changes, which play an important role in membrane characteristics.

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F. Pietruschka

Ionic currents on type-I cells of the rabbit carotid body measured by voltage-clamp experiments and the effect of hypoxia

Assembly of the cardiac I-band region of titin/connectin: expression of the cardiac-specific regions and their structural relation to the elastic segments

The element distribution in ultrathin cryosections of cultivated fibroblast cells

Calcium influx in cultured carotid body cells is stimulated by acetylcholine and hypoxia

Comparative measurements of potassium and chloride with ion-sensitive microelectrodes and x-ray microanalysis in cultured skeletal muscle fibers

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