Guido C. Faas
Affiliations: | University of California, Los Angeles, Los Angeles, CA |
Area:
calcium binding proteins, calcium kinetics, ion signallingGoogle:
"Guido Faas"Mean distance: 14.47 (cluster 6) | S | N | B | C | P |
Parents
Sign in to add mentor| Wytse J. Wadman | grad student | 1991-1997 | Amsterdam |
| Peter Saggau | post-doc | Baylor College of Medicine | |
| Istvan Mody | research scientist | UCLA |
Collaborators
Sign in to add collaborator| Gal Bitan | collaborator | UCLA | |
| John Lisman | collaborator | UCLA | |
| Sri Raghavachari | collaborator | UCLA | |
| Beat Schwaller | collaborator | UCLA | |
| Julio L. Vergara | collaborator | UCLA |
BETA: Related publications
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Publications
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| Alich TC, Pabst M, Pothmann L, et al. (2021) A dark quencher genetically encodable voltage indicator (dqGEVI) exhibits high fidelity and speed. Proceedings of the National Academy of Sciences of the United States of America. 118 |
| Octeau JC, Faas G, Mody I, et al. (2018) Making, Testing, and Using Potassium Ion Selective Microelectrodes in Tissue Slices of Adult Brain. Journal of Visualized Experiments : Jove |
| Ferando I, Faas GC, Mody I. (2016) Diminished KCC2 confounds synapse specificity of LTP during senescence. Nature Neuroscience |
| Chen L, Faas GC, Ferando I, et al. (2015) Novel insights into the behavioral analysis of mice subjected to the forced-swim test. Translational Psychiatry. 5: e551 |
| Faas GC, Mody I. (2014) Measuring the Ca²⁺-binding kinetics of proteins. Cold Spring Harbor Protocols. 2014: 691-3 |
| Faas GC, Mody I. (2014) Collecting data to determine the Ca²⁺-binding properties of DM-nitrophen and proteins. Cold Spring Harbor Protocols. 2014: 768-73 |
| Faas GC, Mody I. (2014) Measuring the rate constants of Ca²⁺ indicators. Cold Spring Harbor Protocols. 2014: 763-7 |
| Faas GC, Mody I. (2014) Measuring the steady-state properties of Ca²⁺ indicators with a set of calibrated [Ca²⁺] solutions. Cold Spring Harbor Protocols. 2014: 758-62 |
| Tong X, Ao Y, Faas GC, et al. (2014) Astrocyte Kir4.1 ion channel deficits contribute to neuronal dysfunction in Huntington's disease model mice. Nature Neuroscience. 17: 694-703 |
| Jones RT, Faas GC, Mody I. (2014) Intracellular bicarbonate regulates action potential generation via KCNQ channel modulation. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 34: 4409-17 |