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Manoel De Arcisio Miranda Filho

Professor
Physiology
Universidade Federal de Sao Paulo
Brazil

Biography

Manoel de Arcisio Miranda Filho has a PhD in Physical Therapy from the University of Grande ABC (2001), a Master's degree (2003) and a PhD (2007) in Sciences (Human Physiology and Biophysics) from the University of São Paulo. He holds a postdoctoral degree from the Department of Physiology of the School of Medicine and Public Health - University of Wisconsin / Madison (2007-2010). He is currently Adjunct Professor at the Biophysics Department of the Federal University of São Paulo. Main areas of activity: 1) electrical activity of neural cells; 2) regulation of intracellular pH of neural cells; 3) ion channels and carriers; 4) new anti-neural cancer biomolecules. Techniques used: 1) Electrophysiology: flat lipid bilayers and patch-clamp; 2) Fluorescence: epifluorescence, confocal and anisotropy; 3) Molecular Biology

Research Interest

Main areas of activity: 1) electrical activity of neural cells; 2) regulation of intracellular pH of neural cells; 3) ion channels and carriers; 4) new anti-neural cancer biomolecules. Techniques used: 1) Electrophysiology: flat lipid bilayers and patch-clamp; 2) Fluorescence: epifluorescence, confocal and anisotropy; 3) Molecular Biology

Publications

  • RIBEIRO-SILVA, LUISA; Acknowledgments DA SILVA, ANNIELLE MENDES BRITO; HIRATA, APPEARED EMIKO; ARCISIO-MIRANDA, MANOEL . Voltage-Gated Proton Channel in Human Glioblastoma Multiforme Cells. ACS CHEM NEUROSCI , v. 7, p. 864-869, 2016.

  • PANINKA, ROLF MATIAS; CARLOS-LIMA, ESTEVÃO; LINDSEY, SUSAN C.; KUNII, ILDA S.; DIAS-DA-SILVA, MAGNUS R.; ARCISIO-MIRANDA, MANOEL . Down-regulation of Kir2.6 channel by c-termini mutation D252N and its association with the susceptibility to thyrotoxic periodic paralysis. Neuroscience , v. 346, p. 197-202, 2017.

  • MEDEIROS, DJALMA; SILVA-GONÇALVES, LAÍZ DA COSTA; DA SILVA, ANNIELLE MENDES BRITO; DOS SANTOS CABRERA, MARCIA PEREZ; ARCISIO-MIRANDA, MANOEL . Membrane-mediated action of the endocannabinoid anandamide on membrane proteins: implications for understanding the receptor-independent mechanism. Scientific Reports , v. 7, p. 41362, 2017.

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