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Erwan Michard

Professor

Universidad de Talca

Talca, Chile

Líneas de Investigación


Plant Glutamate Receptors, patch-clamp, Physcomitrella

Educación

  •  Plant Biology, UNIVERSITE MONTPELLIER II. Francia, 2002
  •  Biochemistry, Molecular and Cell biology , ECOLE NORMALE SUPERIEURE DE LYON. Francia, 1999

Experiencia Académica

  •   Research assistant Full Time

    UNIVERSITY OF MARYLAND

    College Park, Estados Unidos

    2015 - A la fecha

Experiencia Profesional

  •   Research assistant Full Time

    University of Maryland

    Maryland, Estados Unidos

    2015 - A la fecha

  •   Research Assistant Full Time

    IGC (Gulbenkian Institute, Oeiras, Portugal)

    Oeiras, Portugal

    2013 - 2015

  •   Postdoc Full Time

    IGC (Gulbenkian Institute, Oeiras, Portugal)

    Oeiras, Portugal

    2005 - 2009

  •   Junior Independent researcher Full Time

    Supagro - BPMP - RTRA

    Montpellier, Francia

    2009 - 2012

  •   Postdoc Full Time

    University Potsdam/ Golm (I.Q.N., Potsdam) University Potsdam/ MPIMP, Golm

    Golm, Alemania

    2002 - 2005


 

Article (19)

Ethylene-independent signaling by ACC in ovular pollen tube attraction in Arabidopsis
High- and Low-Affinity Transport in Plants From a Thermodynamic Point of View
Comparing plant and animal glutamate receptors: common traits but different fates?
CORNICHON sorting and regulation of GLR channels underlie pollen tube Ca2+ homeostasis
The Role of Potassium Channels in Arabidopsis thaliana Long Distance Electrical Signalling: AKT2 Modulates Tissue Excitability While GORK Shapes Action Potentials
GLUTAMATE RECEPTOR-LIKE channels are essential for chemotaxis and reproduction in mosses
Signaling with ions: The keystone for apical cell growth and morphogenesis in pollen tubes
The arabidopsis AtPP2CA protein phosphatase inhibits the GORK K+ Efflux channel and exerts a dominant suppressive effect on phosphomimetic-activating mutations
Glutamate Receptor-Like Genes Form Ca2+ Channels in Pollen Tubes and Are Regulated by Pistil D-Serine
Potassium (K plus ) gradients serve as a mobile energy source in plant vascular tissues
The K + battery-regulating Arabidopsis K + channel AKT2 is under the control of multiple post-translational steps
The role of ion fluxes in polarized cell growth and morphogenesis: the pollen tube as an experimental paradigm
Exclusion of a Proton ATPase from the Apical Membrane Is Associated with Cell Polarity and Tip Growth in Nicotiana tabacum Pollen Tubes
Heteromerization of Arabidopsis Kv channel α-subunits
Tobacco pollen tubes as cellular models for ion dynamics: improved spatial and temporal resolution of extracellular flux and free cytosolic concentration of calcium and protons using pHluorin and YC3.1 CaMeleon
A unique voltage sensor sensitizes the potassium channel AKT2 to phosphoregulation
Inward rectification of the AKT2 channel abolished by voltage-dependent phosphorylation
A plant Shaker‐like K+ channel switches between two distinct gating modes resulting in either inward‐rectifying or ‘leak’ current
A Shaker-like K + Channel with Weak Rectification Is Expressed in Both Source and Sink Phloem Tissues of Arabidopsis
19
Erwan Michard

Professor

ICB

Universidad de Talca

Talca, Chile

5
Ingo Dreyer

Professor Titular

Bioinformatica

Universidad de Talca

Talca, Chile

2
Wendy Gonzalez

Director of the Center for Bioinformatics, Simulations and Modeling (CBSM)

Bioinformática

CENTRO DE BIOINFORMÁTICA Y SIMULACIÓN MOLECULAR (CBSM)/ UNIVERSIDAD DE TALCA

Talca, Chile