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    <meta:notes>Excitatory mitral to PG synpase adapted from bursty PG sEPSPs in average over papers of McQuiston and Katz, Murphy etal, Hayar et al 2004b, and average of bursty ET->PG and direct ON EPSPs</meta:notes>
     
    <synapse_type name="mitral_PG">
               
        <status value="in_progress">
            <meta:contributor>
                <meta:name>Aditya Gilra</meta:name>
            </meta:contributor>
        </status>
    
        <meta:notes> Dual exponential excitatory mitral to PG synapse analogous to ORN->PG synapse </meta:notes>
        
        <meta:authorList>
            <meta:modelAuthor>
                <meta:name>Aditya Gilra</meta:name>
            </meta:modelAuthor>
            <meta:modelTranslator>
                <meta:name>Aditya Gilra</meta:name>
                <meta:institution>NCBS, India</meta:institution>    
                <meta:email>adityag@ncbs.res.in</meta:email>
            </meta:modelTranslator>
        </meta:authorList>
        
        
        <meta:notes> time constants from Hayar et al, gmax is guess-averaged from all three. </meta:notes>
        <meta:publication>
           <meta:fullTitle>Abdallah Hayar et al., “External Tufted Cells: A Major Excitatory Element That Coordinates Glomerular Activity,” J. Neurosci. 24, no. 30 (July 28, 2004): 6676-6685.</meta:fullTitle>
        </meta:publication>
        <meta:publication>
           <meta:fullTitle>A R McQuiston and L C Katz, “Electrophysiology of interneurons in the glomerular layer of the rat olfactory bulb,” Journal of Neurophysiology 86, no. 4 (October 2001): 1899-1907.</meta:fullTitle>
        </meta:publication>
        <meta:publication>
           <meta:fullTitle>Gabe J Murphy, Daniel P Darcy, and Jeffry S Isaacson, “Intraglomerular inhibition: signaling mechanisms of an olfactory microcircuit,” Nat Neurosci 8, no. 3 (March 2005): 354-364.</meta:fullTitle>
        </meta:publication>
        
        <meta:neuronDBref>
            <meta:modelName></meta:modelName>
            <meta:uri></meta:uri>
        </meta:neuronDBref>
       
       <!-- if changing max_conductance value below, remember to change value in OBNetwork.py also -->
       <doub_exp_syn max_conductance="1.25e-9" rise_time="1.0e-3" decay_time="1.0e-3" reversal_potential="0.0"/> <!-- with PG 2013 cell, gives ~6 mV EPSP -->
       
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