Ricardo C. Araneda

Portrait of Ricardo C. Araneda

Ricardo C. Araneda

Biology Professor
raraneda@umd.edu 1114 Bioscience Research Bldg.
301 405 5540

Teaching

  • BIOL 708, NACS 728J, BSCI 339D: Neurobiology of Chemosensory Systems
  • BSCI 446: Neural Systems
  • BSCI 279: Seminar in Physiology

Graduate Program Affiliations


Research Interests

Our long-term research goal is to understand how neuromodulatory transmitters regulate the function of brain circuits and influence sensory processing. Specifically, we use olfaction as a model system to learn how neuromodulators such as acetylcholine and noradrenaline, and basal forebrain GABAergic neurons influence sensory processing.  To interrogate the role of neuromodulation in olfactory circuits we use a multidisciplinary approach that includes, electrophysiology, imaging, and the targeted expression of optogenetic and chemogenetics probes.  One of our goals is to examine how these neuromodulatory systems influence odor-guided behaviors in freely-behaving animals.  In humans, olfactory dysfunction is a characteristic early symptom in aging and several neurodegenerative disorders, therefore, our studies aim to understand pathological changes in olfactory circuits that occur in aging and neurodegeneration. In addition, our research interest expand to other areas, through collaborative work we are working on the development of novel technologies to study neuronal function and cell-based sensors, and to understand of mechanisms underlying the hypothalamic control of food consumption.


Education

  • Ph.D., Albert Einstein College of Medicine, 1997
  • Postdoctoral Fellow, Columbia University, 1997-2001
  • Associate Research Scientist, Columbia University, 2001-2006

All Publications

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BISI Concentration Areas

BEES

PSYS


Latest Papers

Proteome-Driven Phenotyping of Identified Single Neurons in Intact Brain Tissue by Aspiration Patch Proteomics


Author(s): Nicolas C. Johnson, Sam B. Choi, Juan Zegers-Delgado, et. al
UMD Author(s): Ricardo C. Araneda


A fast and simple algorithm for accurate spike detection in HD-MEA recordings


Author(s): Juan Zegers-Delgado, Nathaniel Renegar, Kasun Pathirage, et. al
UMD Author(s): Ricardo C. Araneda


Cholinergic modulation of distinct inhibitory domains in granule cells of the olfactory bulb


Author(s): Pablo S. Villar, Ruilong Hu, Batya Teitz, et. al
UMD Author(s): Ricardo C. Araneda


Long-Range GABAergic Inhibition Modulates Spatiotemporal Dynamics of the Output Neurons in the Olfactory Bulb

| The Journal of Neuroscience
Author(s): Pablo S. Villar, Ruilong Hu, Ricardo C. Araneda
UMD Author(s): Ricardo C. Araneda


Activation of Microwave Signals in Nanoscale Magnetic Tunnel Junctions by Neuronal Action Potentials

| IEEE Magnetics Letters
Author(s): Jose Miguel Algarin, Jens Herberholz, Ricardo C. Araneda, et. al
UMD Author(s): Ricardo C. Araneda


Glial hypothalamic inhibition of GLUT2 expression alters satiety, impacting eating behavior

| GLIA
Author(s): Barahona, M.J., Llanos, P., Recabal, A., et. al
UMD Author(s): Ricardo C. Araneda


Pontryagin Term and Magnetic Mass in 4D AdS Gravity

| Journal of Physics: Conference Series
Author(s): Araneda, R., Aros, R., Miskovic, O., et. al
UMD Author(s): Ricardo C. Araneda


Mice lacking M1 and M3 muscarinic acetylcholine receptors have impaired odor discrimination and learning

| Frontiers in synaptic neuroscience
Author(s): Chan, W., Singh, S., Keshav, T., et. al
UMD Author(s): Ricardo C. Araneda


Modulation and detection of single neuron activity using spin transfer nano-oscillators

| Proceedings of SPIE - The International Society for Optical Engineering
Author(s): Algarin, J.M., Ramaswamy, B., Venuti, L., et. al
UMD Author(s): Ricardo C. Araneda


Hyperpolarization-Activated Currents and Subthreshold Resonance in Granule Cells of the Olfactory Bulb

| eNeuro
Author(s): Ruilong Hu, Katie A. Ferguson, Christina B. Whiteus, et. al
UMD Author(s): Ricardo C. Araneda