# TUN-N: Modulator **MTP-MTD Behavior**: Il TUN-N assieme a BEH-N sono entrambi attivi durante Day. TUN sente la stasi di BEH-N, quando e’ lontano da uno spiketrain, e contestualizza i comportamenti di TUN. Il TUN contiene quei behavior di modulazione che non cambiano la somma (fullness + active). La modulazione TUN sposta da fullness a active e viceversa. Ovvero non c’e’ creazione di nuove “forma” di possibilita’. Nel caso di SYN, lo spostamento e’ da possible a “a disposizione” di SYN. ```Gen modulator: TUN-N contained_by: N tub_local: - SpikeTrainTraces (fullness: 50x, active: 0x, emptiness: 0x) # intricated with BEH-SOMA ``` ## IntegrateTunPossibility: Context Qui controlliamo di essere lontani da uno spike train. Siamo in Day con BEH. ```Gen context: IntegrateTunPossibility contained_by: TUN-N in_context: Fixed rf: 60x condition: ( SpikeTrainTraces Empty ) # Day out_context: TunPossible ``` ## TUN-CHAN: Modulator Qui si modulano i canali ionici, sia quelli voltage (PRE/POST/SO/altro?) che quelli Neuro (POST/SO(inibitori)). Non si creano o si distruggono (lo si fa in Developing), ma si rendono attivi disattivi quelli presenti. > Minutes/hours Time Scale ```Gen modulator: TUN-CHAN contained_by: TUN-N ``` ### TUN-PRE-VGCC: Modulator ```Gen modulator: TUN-PRE-VGCC contained_by: TUN-CHAN modulates: BEH-PRE/expansion/BEH-PRE-VCGG tub_modulation: # in TUN agiamo su POS/ACT - posMod ( fullness: None, active: BEH-PRE-VCGG/fullness, empty: 0x) # riferimento a possible di BEH-PRE-VCGG - actMod ( fullness: None, active: BEH-PRE-VCGG/active, empty: BEH-PRE-VCGG/emptiness) # riferimento a active di BEH-PRE-VCGG # qui stiamo modulando possible e actual di BEH-PRE-VCGG associandoli # a posMod e actMod. Non serve associare una fullness perche' # la modulazione e' una pompa fra posMod e actMod e controlliamo # solo empty context_intricated: - TunPossible ( contained_by: TUN-N ) tub_local: tub_intricated: ``` #### Context ```Gen context: Check contained_by: TUN-PRE-VGCC in_context: TunPossible rf: ( active: 60x ) condition: out_context: TunPreVcgg ``` #### Episode ```Gen episode: Tun contained_by: TUN-PRE-VGCC in_context: TunPreVcgg rf: ( active: x ) hypothesis: action: trace: ``` ### TUN-POST-AMPA: Modulator ```Gen modulator: TUN-POST-AMPA contained_by: TUN-CHAN modulates: BEH-POST/expansion/BEH-POST-IC tub_modulation: # in TUN agiamo su POS/ACT - posMod ( fullness: None, active: BEH-POST-IC/fullness, empty: 0x) # riferimento a possible di BEH-PRE - actMod ( fullness: None, active: BEH-POST-IC/active, empty: BEH-POST-IC/emptiness) # riferimento a active di BEH-PRE context_intricated: - TunPossible ( contained_by: TUN-N ) tub_local: tub_intricated: ``` #### Context ```Gen context: Check contained_by: TUN-POST-IC in_context: TunPossible rf: ( active: 60x ) condition: out_context: TunPostIc ``` #### Episode ```Gen episode: ? contained_by: TUN-POST-IC in_context: TunPostIc rf: ( active: x ) hypothesis: action: trace: ``` ### TUN-SOMA-VCGG: Modulator ```Gen modulator: TUN-SOMA-VCGG contained_by: TUN-CHAN modulates: BEH-SOMA/expansion/BEH-SOMA-VCGG expansion: BEH-SOMA-VCGG tub_modulation: # in TUN agiamo su POS/ACT - posMod ( fullness: None, active: BEH-SOMA-VCGG/fullness, empty: 0x) # riferimento a possible di BEH-PRE - actMod ( fullness: None, active: BEH-SOMA-VCGG/active, empty: BEH-SOMA-VCGG/emptiness) # riferimento a active di BEH-PRE context_intricated: - TunPossible ( contained_by: TUN-N ) tub_local: tub_intricated: ``` #### Context ```Gen context: Check contained_by: TUN-SOMA-VCGG in_context: TunPossible rf: ( active: 60x ) condition: out_context: TunSomaVcgg ``` #### Episode ```Gen episode: ? contained_by: TUN-PRE-VGCC in_context: TunSomaVcgg rf: ( active: x ) hypothesis: action: trace: ```