| P50 | author | Nixon M Abraham | Q59688832 |
| | Samuel Lagier | Q80055134 |
| | Alan Carleton | Q42784522 |
| | Roberto Vincis | Q59509501 |
| | Ivan Rodriguez | Q59509505 |
| P2093 | author name string | Samuel Lagier | |
| P2860 | cites work | Coding in the mammalian gustatory system | Q29305110 |
| | Combinatorial receptor codes for odors | Q29616773 |
| | Visualizing an olfactory sensory map | Q29616849 |
| | Olfactory bulb recovery after early sensory deprivation | Q30471003 |
| | Associative learning changes the organization of functional excitatory circuits targeting the supragranular layers of mouse barrel cortex | Q30477443 |
| | Why sniff fast? The relationship between sniff frequency, odor discrimination, and receptor neuron activation in the rat. | Q30483660 |
| | Encoding odorant identity by spiking packets of rate-invariant neurons in awake mice | Q34137506 |
| | Precise olfactory responses tile the sniff cycle | Q34201249 |
| | Plasticity in the frequency representation of primary auditory cortex following discrimination training in adult owl monkeys | Q34359571 |
| | Odor representations in the olfactory bulb evolve after the first breath and persist as an odor afterimage | Q34362056 |
| | Cortical plasticity: from synapses to maps | Q34462829 |
| | Similar odor discrimination behavior in head-restrained and freely moving mice | Q34525677 |
| | Information coding in the olfactory system: evidence for a stereotyped and highly organized epitope map in the olfactory bulb | Q34719615 |
| | Precision and diversity in an odor map on the olfactory bulb | Q34924340 |
| | Map plasticity in somatosensory cortex | Q36307093 |
| | Induction of olfactory receptor sensitivity in mice | Q70715823 |
| | Experience-dependent plasticity of mature adult-born neurons | Q82492642 |
| | Internal body state influences topographical plasticity of sensory representations in the rat gustatory cortex | Q36499229 |
| | Dense representation of natural odorants in the mouse olfactory bulb | Q36603408 |
| | Learning-dependent structural plasticity in the adult olfactory pathway | Q37037307 |
| | Temporal structure of receptor neuron input to the olfactory bulb imaged in behaving rats | Q37131808 |
| | Neural Map Formation in the Mouse Olfactory System | Q37783400 |
| | Odor maps in the mammalian olfactory bulb: domain organization and odorant structural features | Q38307890 |
| | Tonic and synaptically evoked presynaptic inhibition of sensory input to the rat olfactory bulb via GABA(B) heteroreceptors | Q38308510 |
| | Fear learning enhances neural responses to threat-predictive sensory stimuli. | Q39287197 |
| | Long-term plasticity of excitatory inputs to granule cells in the rat olfactory bulb | Q42030434 |
| | Dynamic sensory representations in the olfactory bulb: modulation by wakefulness and experience. | Q42413480 |
| | Synaptic inhibition in the olfactory bulb accelerates odor discrimination in mice. | Q43160446 |
| | Synapse-specific downregulation of NMDA receptors by early experience: a critical period for plasticity of sensory input to olfactory cortex | Q43562205 |
| | Cortical remodelling induced by activity of ventral tegmental dopamine neurons | Q43673184 |
| | Representation of odorants by receptor neuron input to the mouse olfactory bulb | Q43806415 |
| | Dopamine D2 receptor-mediated presynaptic inhibition of olfactory nerve terminals | Q43814513 |
| | A molecular mechanism for stabilization of learning-induced synaptic modifications | Q44740473 |
| | In vivo imaging of neuronal activity by targeted expression of a genetically encoded probe in the mouse | Q44831759 |
| | Experience leaves a lasting structural trace in cortical circuits. | Q44922803 |
| | Naturalistic experience transforms sensory maps in the adult cortex of caged animals. | Q45963319 |
| | Massive restructuring of neuronal circuits during functional reorganization of adult visual cortex. | Q46402788 |
| | Odorant representations are modulated by intra- but not interglomerular presynaptic inhibition of olfactory sensory neurons | Q46859236 |
| | Differential potentiation of early and late components evoked in olfactory cortex by stimulation of cortical association fibers | Q47272562 |
| | Postnatal refinement of peripheral olfactory projections | Q47391310 |
| | Dopamine depresses synaptic inputs into the olfactory bulb | Q48138131 |
| | Optical imaging of odorant representations in the mammalian olfactory bulb | Q48145921 |
| | Sniffing controls an adaptive filter of sensory input to the olfactory bulb. | Q48193538 |
| | Associative learning modifies neural representations of odors in the insect brain | Q48242544 |
| | Differential spatial representation of taste modalities in the rat gustatory cortex. | Q48279668 |
| | Wavelet-based multi-resolution statistics for optical imaging signals: Application to automated detection of odour activated glomeruli in the mouse olfactory bulb | Q48329894 |
| | Correspondence between odorant-evoked patterns of receptor neuron input and intrinsic optical signals in the mouse olfactory bulb | Q48376856 |
| | Activity-dependent plasticity in the olfactory intrabulbar map. | Q48380954 |
| | Sensory-evoked intrinsic optical signals in the olfactory bulb are coupled to glutamate release and uptake | Q48394908 |
| | Olfactory sensory neurons are trophically dependent on the olfactory bulb for their prolonged survival | Q48425940 |
| | Olfactory experience accelerates glomerular refinement in the mammalian olfactory bulb | Q48612439 |
| | Spatio-temporal dynamics of odor representations in the mammalian olfactory bulb. | Q48624037 |
| | Opposite effects of fear conditioning and extinction on dendritic spine remodelling | Q48654851 |
| | Activity-dependent adjustments of the inhibitory network in the olfactory bulb following early postnatal deprivation | Q48934198 |
| | Maintaining accuracy at the expense of speed: stimulus similarity defines odor discrimination time in mice. | Q52085315 |
| | Dynamic ensemble odor coding in the mammalian olfactory bulb: sensory information at different timescales. | Q52688991 |
| | Smell training increases cognitive smell skills of wine tasters compared to the general healthy population. The WINECAT Study | Q59350645 |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | e02109 | |
| P577 | publication date | 2014-03-18 | |
| P1433 | published in | eLife | Q2000008 |
| P1476 | title | Long term functional plasticity of sensory inputs mediated by olfactory learning | |
| P478 | volume | 3 | |