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Hippocampal place cells can encode multiple trial-dependent features through rate remapping
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| Veröffentlicht in: | The journal of neuroscience 32(2012), 42, Seite 14752-14766 |
|---|---|
| Personen und Körperschaften: | |
| Titel: | Hippocampal place cells can encode multiple trial-dependent features through rate remapping/ Kevin Allen, J. Nick P. Rawlins, David M. Bannerman, and Jozsef Csicsvari |
| Format: | E-Book-Kapitel |
| Sprache: | Englisch |
| veröffentlicht: |
October 17, 2012
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| Gesamtaufnahme: |
: The journal of neuroscience, 32(2012), 42, Seite 14752-14766
, volume:32 |
| Schlagwörter: | |
| Quelle: | Verbunddaten SWB Lizenzfreie Online-Ressourcen |
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| 520 | |a The activity of hippocampal pyramidal cells reflects both the current position of the animal and information related to its current behavior. Here we investigated whether single hippocampal neurons can encode several independent features defining trials during a memory task. We also tested whether task-related information is represented by partial remapping of the place cell population or, instead, via firing rate modulation of spatially stable place cells. To address these two questions, the activity of hippocampal neurons was recorded in rats performing a conditional discrimination task on a modified T-maze in which the identity of a food reward guided behavior. When the rat was on the central arm of the maze, the firing rate of pyramidal cells changed depending on two independent factors: (1) the identity of the food reward given to the animal and (2) the previous location of the animal on the maze. Importantly, some pyramidal cells encoded information relative to both factors. This trial-type specific and retrospective coding did not interfere with the spatial representation of the maze: hippocampal cells had stable place fields and their theta-phase precession profiles were unaltered during the task, indicating that trial-related information was encoded via rate remapping. During error trials, encoding of both trial-related information and spatial location was impaired. Finally, we found that pyramidal cells also encode trial-related information via rate remapping during the continuous version of the rewarded alternation task without delays. These results suggest that hippocampal neurons can encode several task-related cognitive aspects via rate remapping. | ||
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| contents | The activity of hippocampal pyramidal cells reflects both the current position of the animal and information related to its current behavior. Here we investigated whether single hippocampal neurons can encode several independent features defining trials during a memory task. We also tested whether task-related information is represented by partial remapping of the place cell population or, instead, via firing rate modulation of spatially stable place cells. To address these two questions, the activity of hippocampal neurons was recorded in rats performing a conditional discrimination task on a modified T-maze in which the identity of a food reward guided behavior. When the rat was on the central arm of the maze, the firing rate of pyramidal cells changed depending on two independent factors: (1) the identity of the food reward given to the animal and (2) the previous location of the animal on the maze. Importantly, some pyramidal cells encoded information relative to both factors. This trial-type specific and retrospective coding did not interfere with the spatial representation of the maze: hippocampal cells had stable place fields and their theta-phase precession profiles were unaltered during the task, indicating that trial-related information was encoded via rate remapping. During error trials, encoding of both trial-related information and spatial location was impaired. Finally, we found that pyramidal cells also encode trial-related information via rate remapping during the continuous version of the rewarded alternation task without delays. These results suggest that hippocampal neurons can encode several task-related cognitive aspects via rate remapping. |
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| spelling | Allen, Kevin VerfasserIn (DE-588)1054235074 (DE-627)791239993 (DE-576)410089680 aut, Hippocampal place cells can encode multiple trial-dependent features through rate remapping Kevin Allen, J. Nick P. Rawlins, David M. Bannerman, and Jozsef Csicsvari, October 17, 2012, 15, Text txt rdacontent, Computermedien c rdamedia, Online-Ressource cr rdacarrier, Gesehen am 26.04.2018, The activity of hippocampal pyramidal cells reflects both the current position of the animal and information related to its current behavior. Here we investigated whether single hippocampal neurons can encode several independent features defining trials during a memory task. We also tested whether task-related information is represented by partial remapping of the place cell population or, instead, via firing rate modulation of spatially stable place cells. To address these two questions, the activity of hippocampal neurons was recorded in rats performing a conditional discrimination task on a modified T-maze in which the identity of a food reward guided behavior. When the rat was on the central arm of the maze, the firing rate of pyramidal cells changed depending on two independent factors: (1) the identity of the food reward given to the animal and (2) the previous location of the animal on the maze. Importantly, some pyramidal cells encoded information relative to both factors. This trial-type specific and retrospective coding did not interfere with the spatial representation of the maze: hippocampal cells had stable place fields and their theta-phase precession profiles were unaltered during the task, indicating that trial-related information was encoded via rate remapping. During error trials, encoding of both trial-related information and spatial location was impaired. Finally, we found that pyramidal cells also encode trial-related information via rate remapping during the continuous version of the rewarded alternation task without delays. These results suggest that hippocampal neurons can encode several task-related cognitive aspects via rate remapping., Action Potentials, Animals, Cues, Discrimination Learning, Hippocampus, Male, Maze Learning, Neuronal Plasticity, Rats, Rats, Long-Evans, Enthalten in The journal of neuroscience Washington, DC : Soc., 1981 32(2012), 42, Seite 14752-14766 Online-Ressource (DE-627)269536906 (DE-600)1475274-8 (DE-576)078590124 1529-2401 nnns, volume:32 year:2012 number:42 pages:14752-14766 extent:15, http://dx.doi.org/10.1523/JNEUROSCI.6175-11.2012 Verlag Resolving-System kostenfrei Volltext, http://dx.doi.org/10.1523/JNEUROSCI.6175-11.2012 LFER, LFER 2018-05-17T00:00:00Z |
| spellingShingle | Allen, Kevin, Hippocampal place cells can encode multiple trial-dependent features through rate remapping, The activity of hippocampal pyramidal cells reflects both the current position of the animal and information related to its current behavior. Here we investigated whether single hippocampal neurons can encode several independent features defining trials during a memory task. We also tested whether task-related information is represented by partial remapping of the place cell population or, instead, via firing rate modulation of spatially stable place cells. To address these two questions, the activity of hippocampal neurons was recorded in rats performing a conditional discrimination task on a modified T-maze in which the identity of a food reward guided behavior. When the rat was on the central arm of the maze, the firing rate of pyramidal cells changed depending on two independent factors: (1) the identity of the food reward given to the animal and (2) the previous location of the animal on the maze. Importantly, some pyramidal cells encoded information relative to both factors. This trial-type specific and retrospective coding did not interfere with the spatial representation of the maze: hippocampal cells had stable place fields and their theta-phase precession profiles were unaltered during the task, indicating that trial-related information was encoded via rate remapping. During error trials, encoding of both trial-related information and spatial location was impaired. Finally, we found that pyramidal cells also encode trial-related information via rate remapping during the continuous version of the rewarded alternation task without delays. These results suggest that hippocampal neurons can encode several task-related cognitive aspects via rate remapping., Action Potentials, Animals, Cues, Discrimination Learning, Hippocampus, Male, Maze Learning, Neuronal Plasticity, Rats, Rats, Long-Evans |
| swb_id_str | 502420944 |
| title | Hippocampal place cells can encode multiple trial-dependent features through rate remapping |
| title_auth | Hippocampal place cells can encode multiple trial-dependent features through rate remapping |
| title_full | Hippocampal place cells can encode multiple trial-dependent features through rate remapping Kevin Allen, J. Nick P. Rawlins, David M. Bannerman, and Jozsef Csicsvari |
| title_fullStr | Hippocampal place cells can encode multiple trial-dependent features through rate remapping Kevin Allen, J. Nick P. Rawlins, David M. Bannerman, and Jozsef Csicsvari |
| title_full_unstemmed | Hippocampal place cells can encode multiple trial-dependent features through rate remapping Kevin Allen, J. Nick P. Rawlins, David M. Bannerman, and Jozsef Csicsvari |
| title_in_hierarchy | Hippocampal place cells can encode multiple trial-dependent features through rate remapping / Kevin Allen, J. Nick P. Rawlins, David M. Bannerman, and Jozsef Csicsvari, |
| title_short | Hippocampal place cells can encode multiple trial-dependent features through rate remapping |
| title_sort | hippocampal place cells can encode multiple trial dependent features through rate remapping |
| topic | Action Potentials, Animals, Cues, Discrimination Learning, Hippocampus, Male, Maze Learning, Neuronal Plasticity, Rats, Rats, Long-Evans |
| topic_facet | Action Potentials, Animals, Cues, Discrimination Learning, Hippocampus, Male, Maze Learning, Neuronal Plasticity, Rats, Rats, Long-Evans |
| url | http://dx.doi.org/10.1523/JNEUROSCI.6175-11.2012 |