H; J. Apell: Structure -Function Relationship in P-Type ATPases - A Biophysical Approach; H. Koepsell, B. Schmitt, and V. Goboulev: Organic Cation Transporters; W.G. Wier and K.G. Morgan: Alpha 1- Adrenergic Signaling Mechanisms in Mammalian Resistance Arteries; G. Ahnert-Hilger, M. Holtje, I. Pahner, S. Winter and I.
H; J. Apell: Structure -Function Relationship in P-Type ATPases - A Biophysical Approach; H. Koepsell, B. Schmitt, and V. Goboulev: Organic Cation Transporters; W.G. Wier and K.G. Morgan: Alpha 1- Adrenergic Signaling Mechanisms in Mammalian Resistance Arteries; G. Ahnert-Hilger, M. Holtje, I. Pahner, S. Winter and I.
Contents H,-J. Apell: Structure -Function Relationship in P-Tyype ATPases - A Biophysical Approach H. Koepsell, B. Schmitt, and V. Goboulev: Organic Cation Transporters W.G. Wier and K.G. Morgan:Alpha1-Adrenergic Signaling Mechanisms in Mammalian Resistance Arteries G. Ahnert-Hilger, M. H
Structure-function relationship in P-type ATPases—a biophysical approach.- Organic cation transporters.- ?1-Adrenergic signaling mechanisms in contraction of resistance arteries.- Regulation of vesicular neurotreansmitter transporters.