Buchartikel

1) Dierkes PW, Neumann S, Müller A, Günzel D, Schlue WR (2002)
Multi-barrelled ion-selective microelectrodes: Measurements of cell volume, membrane potential and intracellular ion concentrations in invertebrate nerve cells.
In: Electrochemical Microsystem Technologies (Eds. Schultze JW, Datta M, Osaka T) Taylor & Francis Group, 2002, Kap. 21, S. 526-540

Originalarbeiten

19) Kolbaev SN, Sharopov S, Dierkes PW, Luhmann HJ, Kilb W (2012)
Phasic GABAA-receptor activation is required to suppress epileptiform activity in the CA3 region of the immature rat hippocampus. Epilepsia 53: 888-896

18) Gerard E, Hochstrate P, Dierkes PW, Coulon P (2012)
Functional properties and cell type specific distribution of Ih channels in leech neurons. Journal of Experimental Biology 215: 227-238

17) Coulon P, Wüsten HJ, Hochstrate P, Dierkes PW (2008)
Swelling-activated chloride channels in leech Retzius neurons. Journal of Experimental Biology211: 630-641

16) Etienne M, Dierkes PW, Erichsen T, Schuhmann W, Fritsch I (2007)
Constant-distance mode scanning potentiometry. High resolution pH measurements in three-dimensions. Electroanalysis19: 318-323

15) Dierkes PW, Wüsten HJ, Klees G, Müller A, Hochstrate P (2006)
Ionic mechanism of ouabain-induced cell swelling of leech Retzius neurons. Pflügers Archiv452: 25-35

14) Kilb W, Dierkes PW, Sykova E, Vargová L, Luhmann HJ (2006)
Hypoosmolar conditions reduce extra­cellular volume fraction and enhance epileptiform activity in the CA3 region of the immature rat hippocampus. Journal of Neuroscience Research84: 119-129

13) Dierkes PW, Schlue WR (2005) Ca 2+ influx into identified leech neurons induced by 5-hydroxy­tryptamine. Journal of Neurobiology62: 106-120

12) Klees G, Hochstrate P, Dierkes PW (2005)
Sodium-dependent potassium channels in leech P neurons. Journal of Membrane Biology 208: 27-38

11) Dierkes PW, Wende V, Hochstrate P, Schlue WR ( (2004)
L-type Ca 2+ channel antagonists block voltage-dependent Ca 2+ channels in identified leech neurons. Brain Research1013: 159-167

10) Schoppe J, Dierkes PW, Hochstrate P, Schlue WR (2003)
NTP, the photoproduct of nifedipine, activates caffeine-sensitive ion channels in leech neurones. Cell Calcium 33: 207-221

9) Dierkes PW, Neumann S, Klees G, Schlue WR (2003)
Multi-barrelled ion-selective microelectrodes as tools for the investigation of volume regulation mechanisms in invertebrate nerve cells under hyperosmotic conditions. Electrochimica Acta48: 3373-3380

8) Dierkes PW, Coulon P, Neumann S, Schlue WR (2002)
Potentiometric measurement of cell volume changes and intracellular ion concentrations under voltage-clamp conditions in invertebrate nerve cells. Analytical and Bioanalytical Chemistry 373: 762-766

7) Hochstrate P, Dierkes PW, Kilb W, Schlue WR (2001)
Modulation of Ca 2+ influx in leech Retzius neurons II. Effect of extracellular Ca 2+ . Journal of Membrane Biology184: 27-33

6) Hochstrate P, Dierkes PW, Kilb W, Schlue WR (2001)
Modulation of Ca 2+ influx in leech Retzius neurons I. Effect of extracellular pH. Journal of Membrane Biology184: 13-25

5) Neumann S, Dierkes PW, Schlue WR (2001)
Potentiometric measurement of cell volume changes and intracellular ion concentrations in leech Retzius neurones. Electrochimica Acta47: 309-317

4) Müller M, Henrich A, Klockenhoff J, Dierkes PW, Schlue WR (2000)
Effects of ATP and derivatives on neuropile glial cells of the leech central nervous system. Glia29: 191-201

3) Müller M, Dierkes PW, Schlue WR (1999)
Ionic mechanism of 4-aminopyridine action on leech neuropile glial cells. Brain Research826: 63-73

2) Dierkes PW, Hochstrate P, Schlue WR (1997)
Voltage-dependent Ca 2+ influx into identified leech neurones. Brain Research 746: 285-293

1) Dierkes PW, Hochstrate P, Schlue WR (1996)
Distribution and functional properties of glutamate recep­tors in the leech central nervous system. Journal of Neurophysiology 75: 2312-2321

 

 

geändert am 09. Mai 2012  E-Mail: Webmasterklees@bio.uni-frankfurt.de

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