Claudia Espinoza Martinez
Jonas Group
5 Publications
2021 | Journal Article | IST-REx-ID: 10816 | 
Guzmán J, Schlögl A, Espinoza Martinez C, Zhang X, Suter B, Jonas PM. How connectivity rules and synaptic properties shape the efficacy of pattern separation in the entorhinal cortex–dentate gyrus–CA3 network. Nature Computational Science. 2021;1(12):830-842. doi:10.1038/s43588-021-00157-1
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2021 | Scientific Software | IST-REx-ID: 10110 |
Guzmán J, Schlögl A, Espinoza Martinez C, Zhang X, Suter B, Jonas PM. How connectivity rules and synaptic properties shape the efficacy of pattern separation in the entorhinal cortex–dentate gyrus–CA3 network. 2021. doi:10.15479/AT:ISTA:10110
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2019 | Thesis | IST-REx-ID: 6363 |
Espinoza Martinez C. Parvalbumin+ interneurons enable efficient pattern separation in hippocampal microcircuits. 2019. doi:10.15479/AT:ISTA:6363
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2018 | Journal Article | IST-REx-ID: 21 |
Espinoza Martinez C, Guzmán J, Zhang X, Jonas PM. Parvalbumin+ interneurons obey unique connectivity rules and establish a powerful lateral-inhibition microcircuit in dentate gyrus. Nature Communications. 2018;9(1). doi:10.1038/s41467-018-06899-3
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| WoS
2015 | Journal Article | IST-REx-ID: 1845 |
Vandael DH, Espinoza Martinez C, Jonas PM. Excitement about inhibitory presynaptic terminals. Neuron. 2015;85(6):1149-1151. doi:10.1016/j.neuron.2015.03.006
[Published Version]
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5 Publications
2021 | Journal Article | IST-REx-ID: 10816 |
Guzmán J, Schlögl A, Espinoza Martinez C, Zhang X, Suter B, Jonas PM. How connectivity rules and synaptic properties shape the efficacy of pattern separation in the entorhinal cortex–dentate gyrus–CA3 network. Nature Computational Science. 2021;1(12):830-842. doi:10.1038/s43588-021-00157-1
[Submitted Version]
View
| Files available
| DOI
| Download Submitted Version (ext.)
2021 | Scientific Software | IST-REx-ID: 10110 |
Guzmán J, Schlögl A, Espinoza Martinez C, Zhang X, Suter B, Jonas PM. How connectivity rules and synaptic properties shape the efficacy of pattern separation in the entorhinal cortex–dentate gyrus–CA3 network. 2021. doi:10.15479/AT:ISTA:10110
View
| Files available
| DOI
2019 | Thesis | IST-REx-ID: 6363 |
Espinoza Martinez C. Parvalbumin+ interneurons enable efficient pattern separation in hippocampal microcircuits. 2019. doi:10.15479/AT:ISTA:6363
[Published Version]
View
| Files available
| DOI
2018 | Journal Article | IST-REx-ID: 21 |
Espinoza Martinez C, Guzmán J, Zhang X, Jonas PM. Parvalbumin+ interneurons obey unique connectivity rules and establish a powerful lateral-inhibition microcircuit in dentate gyrus. Nature Communications. 2018;9(1). doi:10.1038/s41467-018-06899-3
[Published Version]
View
| Files available
| DOI
| WoS
2015 | Journal Article | IST-REx-ID: 1845 |
Vandael DH, Espinoza Martinez C, Jonas PM. Excitement about inhibitory presynaptic terminals. Neuron. 2015;85(6):1149-1151. doi:10.1016/j.neuron.2015.03.006
[Published Version]
View
| Files available
| DOI