Günter Förstner scite author profile

Günter Förstner

4Publications

56Citation Statements Received

128Citation Statements Given

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121

Affiliations

Johannes Kepler University of Linz

Publications

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A sequence in the carboxy‐terminus of the α_1C subunit important for targeting, conductance and open probability of L‐type Ca²⁺ channels

et al. 2000

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The role of the 80-amino acid motif 1572^1651 in the C-terminal tail of K K 1C Ca 2+ channel subunits was studied by comparing properties of the conventional K K 1CY77 channel expressed in HEK-tsA201 cells to three isoforms carrying alterations in this motif. Replacement of amino acids 15721 651 in K K 1CY77 with 81 non-identical residues leading to K K 1CY86 impaired membrane targeting and cluster formation of the channel. Similar to K K 1CY86 , substitution of its 1572^1598 (K K 1CY77L ) or 1595^1652 (K K 1CY77K ) segments into the K K 1CY77 channel yielded single-channel Ba 2+ currents with increased inactivation, reduced open probability and unitary conductance, when compared to the K K 1CY77 channel. Thus, the C-terminal sequence 1572^1651 of the K K 1C subunit is important for membrane targeting, permeation and open probability of L-type Ca 2+ channels. ß

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Molecular determinant for run‐down of L‐type Ca²⁺ channels localized in the carboxyl terminus of the α_1C subunit

Kepplinger¹,

Förstner²,

Kahr³

et al. 2000

The Journal of Physiology

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The role of the sequence 1572‐1651 in the C‐terminal tail of the α1C subunit in run‐down of Ca2+ channels was studied by comparing functional properties of the conventional α1C,77 channel with those of three isoforms carrying alterations in this motif. The pore‐forming α1C subunits were co‐expressed with α2δ and β2a subunits in HEK‐tsA201 cells, a subclone of the human embryonic kidney cell line, and studied by whole‐cell and single‐channel patch‐clamp techniques. Replacement of amino acids 1572‐1651 in α1C,77 with 81 different amino acids leading to α1C,86 significantly altered run‐down behaviour. Run‐down of Ba2+ currents was rapid with α1C,77 channels, but was slow with α1C,86. Transfer of the α1C,86 segments L (amino acids 1572‐1598) or K (amino acids 1595‐1652) into the α1C,77 channel yielded α1C,77L and α1C,77K channels, respectively, the run‐down of which resembled more that of α1C,77. These results demonstrate that a large stretch of sequence between residues 1572 and 1652 of α1C,86 renders Ca2+ channels markedly resistant to run‐down. The protease inhibitor calpastatin added together with ATP was able to reverse the run‐down of α1C,77 channels. Calpastatin expression was demonstrated in the HEK‐tsA cells by Western blot analysis. These results indicate a significant role of the C‐terminal sequence 1572‐1651 of the α1C subunit in run‐down of L‐type Ca2+ channels and suggest this sequence as a target site for a modulatory effect by endogenous calpastatin.

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Measurement and Evaluation of Diffusion-Induced Impurity Gradients in Silicon

Förstner¹

1970

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Biological Properties of the Mammalian Surface Membrane

Gordo¹,

Förstner²

1970

The American Journal of the Medical Sciences

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