Startseite UR

Bibliographie der Universität Regensburg

Exportieren als
[feed] Atom [feed] RSS 1.0 [feed] RSS 2.0
Gruppieren nach: Datum | Autoren | Dokumentenart | Keine Gruppierung
Anzahl der Einträge in dieser Kategorie: 16.

Artikel

Aghvami, S. Sara, Kubota, Yoshiyuki und Egger, Veronica (2022) Anatomical and Functional Connectivity at the Dendrodendritic Reciprocal Mitral Cell–Granule Cell Synapse: Impact on Recurrent and Lateral Inhibition. Frontiers in Neural Circuits 16, S. 933201.

Suyama, Hajime , Egger, Veronica und Lukas, Michael (2021) Top-down acetylcholine signaling via olfactory bulb vasopressin cells contributes to social discrimination in rats. Communications Biology 4 (1), S. 603.

Egger, Veronica und Kuner, Thomas (2021) Olfactory bulb granule cells: specialized to link coactive glomerular columns for percept generation and discrimination of odors. Cell and Tissue Research 383, S. 495-506.

Lage-Rupprecht, Vanessa, Zhou, Li, Bianchini, Gaia, Aghvami, S. Sara, Mueller, Max, Rózsa, Balázs, Sassoè-Pognetto, Marco und Egger, Veronica (2020) Presynaptic NMDARs cooperate with local spikes toward GABA release from the reciprocal olfactory bulb granule cell spine. eLife 9 (e63737), S. 1-27.

Ona Jodar, Tiffany, Lage-Rupprecht, Vanessa, Abraham, Nixon M., Rose, Christine R. und Egger, Veronica (2020) Local Postsynaptic Signaling on Slow Time Scales in Reciprocal Olfactory Bulb Granule Cell Spines Matches Asynchronous Release. Frontiers in Synaptic Neuroscience 12 (551691), S. 1-11.

Müller, Max und Egger, Veronica (2020) Dendritic integration in olfactory bulb granule cells upon simultaneous multispine activation: Low thresholds for nonlocal spiking activity. PLOS Biology 18 (9), e3000873.

Egger, Veronica und Diamond, Jeffrey S. (2020) A17 Amacrine Cells and Olfactory Granule Cells: Parallel Processors of Early Sensory Information. Frontiers in Cellular Neuroscience 14 (600537), S. 1-7.

Lukas, Michael , Suyama, Hajime und Egger, Veronica (2019) Vasopressin cells in the rodent olfactory bulb resemble non-bursting superficial tufted cells and are primarily inhibited upon olfactory nerve stimulation. eneuro 2019 (18), S. 1-50.

Go, Mary Ann, Mueller, Max, Castañares, Michael Lawrence, Egger, Veronica und Daria, Vincent R. (2019) A compact holographic projector module for high-resolution 3D multi-site two-photon photostimulation. PLOS ONE 14 (1), e0210564. Zugang zum Volltext eingeschränkt.

Aghvami, S. Sara, Müller, Max, Araabi, Babak N. und Egger, Veronica (2019) Coincidence Detection within the Excitable Rat Olfactory Bulb Granule Cell Spines. The Journal of Neuroscience 39 (4), S. 584-595. Volltext nicht vorhanden.

Egger, Veronica, Ona-Jodar, Tiffany, Aghvami, S. Sara, Rose, Christine R. und Gerkau, Niklas J. (2017) Two-Photon Na+ Imaging Reports Somatically Evoked Action Potentials in Rat Olfactory Bulb Mitral and Granule Cell Neurites. Frontiers in Cellular Neuroscience 11 (50), S. 1-12.

Egger, Veronica, Bywalez, Wolfgang G., One-Jodar, Tiffany, Lukas, Michael und Ninkovic, Jovica (2017) Dendritic arborization patterns of small juxtaglomerular cell subtypes within the rodent olfactory bulb. Frontiers Neuroanatomy 10 (127), S. 1-18.

Egger, Veronica, Chatterjee, Mahua, Perez de los Cobos Pallares, Fernando, Loebel, Alex und Lukas, Michael (2016) Sniff-like patterned input results in long-term plasticity at the rat olfactory bulb mitral and tufted cell to granule cell synapse. Neural Plasticity 2016, S. 1-17.

Perez de los Cobos Pallares, Fernando, Bautista, Tara G., Stanić, Davor , Egger, Veronica und Dutschmann, Mathias (2016) Brainstem-mediated sniffing and respiratory modulation during odor stimulation. Respiratory Physiology & Neurobiology 233, S. 17-24. Volltext nicht vorhanden.

Hochschulschrift der Universität Regensburg

Suyama, Hajime (2021) Vasopressinergic action in the olfactory bulb: Substrates and impact on social odor processing. Dissertation, Universität Regensburg.

Müller, Max (2020) Dendritic integration in olfactory bulb granule cells:
Thresholds for lateral inhibition and role of active conductances upon 3D multi-site photostimulation of spines using a holographic projector module.
Dissertation, Universität Regensburg.

Diese Liste wurde erzeugt am Thu Mar 28 14:26:11 2024 CET.
  1. Universität

Universitätsbibliothek

Publikationsserver

Kontakt:

Publizieren: oa@ur.de
0941 943 -4239 oder -69394

Dissertationen: dissertationen@ur.de
0941 943 -3904

Forschungsdaten: datahub@ur.de
0941 943 -5707

Ansprechpartner