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Results:
1-8
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Results: 8
Authors:
Kulagina, NV
Zigmond, MJ
Michael, AC
Citation: Nv. Kulagina et al., Glutamate regulates the spontaneous and evoked release of dopamine in the rat striatum, NEUROSCIENC, 102(1), 2001, pp. 121-128
Authors:
Cui, J
Kulagina, NV
Michael, AC
Citation: J. Cui et al., Pharmacological evidence for the selectivity of in vivo signals obtained with enzyme-based electrochemical sensors, J NEUROSC M, 104(2), 2001, pp. 183-189
Authors:
Wu, Y
Pearl, SM
Zigmond, MJ
Michael, AC
Citation: Y. Wu et al., Inhibitory glutamatergic regulation of evoked dopamine release in striatum, NEUROSCIENC, 96(1), 2000, pp. 65-72
Authors:
Peters, JL
Michael, AC
Citation: Jl. Peters et Ac. Michael, Changes in the kinetics of dopamine release and uptake have differential effects on the spatial distribution of extracellular dopamine concentration in rat striatum, J NEUROCHEM, 74(4), 2000, pp. 1563-1573
Authors:
Yang, H
Peters, JL
Allen, C
Chern, SS
Coalson, RD
Michael, AC
Citation: H. Yang et al., A theoretical description of microdialysis with mass transport coupled to chemical events, ANALYT CHEM, 72(9), 2000, pp. 2042-2049
Authors:
Peters, JL
Yang, H
Michael, AC
Citation: Jl. Peters et al., Quantitative aspects of brain microdialysis, ANALYT CHIM, 412(1-2), 2000, pp. 1-12
Authors:
Kulagina, NV
Shankar, L
Michael, AC
Citation: Nv. Kulagina et al., Monitoring glutamate and ascorbate in the extracellular space of grain tissue with electrochemical microsensors, ANALYT CHEM, 71(22), 1999, pp. 5093-5100
Authors:
Qian, JH
Wu, YQ
Yang, H
Michael, AC
Citation: Jh. Qian et al., An integrated decoupler for capillary electrophoresis with electrochemicaldetection: Application to analysis of brain microdialysate, ANALYT CHEM, 71(20), 1999, pp. 4486-4492
Risultati:
1-8
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