Person

Ehrlich, David

Person ID
ZDB-PERS-171103-1
Email
ehrlichde@gmail.com
URL
https://scholar.google.com/citations?user=WEmDSgMAAAAJ&hl=en
Affiliation
Schoppik Lab
Address
550 First Ave. MSB 452 NY NY 10016
Country
United States
Phone
Fax
ORCID ID
Biography and Research Interest
Postdoctoral Fellow at NYU School of Medicine
Research interests: Intracellular physiology, locomotor control, sensorimotor computation, neural circuit formation, synaptic plasticity and development, biomechanics.
Publications
Non-Zebrafish Publications
Ehrlich DE & Josselyn SA (2016) Plasticity-related genes in brain development and amygdala-dependent learning. Genes, Brain and Behavior 15(1):125-43.

Ehrlich DE*, Neigh GN*, Bourke CH, Nemeth CL, Hazra R, Ryan SJ, Roswon S, Jairam N, Sholar CA, Rainnie DG, Stowe ZN & Owens MJ (2015) Prenatal stress, regardless of concurrent escitalopram treatment, alters behavior and amygdala gene expression of adolescent female rats. Neuropharmacology 97: 251-8.

Ehrlich DE & Rainnie DG (2015) Prenatal stress alters the development of socioemotional behavior and amygdala neuron excitability in rats. Neuropsychopharmacology 40(9):2135-45.

Ryan SJ*, Ehrlich DE* & Rainnie DG (2014) Morphology and dendritic maturation of developing principal neurons in the rat basolateral amygdala. Brain Structure and Function 221(2):839-54.

Ehrlich DE, Ryan SJ, Hazra R, Guo JD & Rainnie DG (2013) Postnatal maturation of GABAergic transmission in the rat basolateral amygdala. Journal of Neurophysiology 110(4), 926-41.

Jasnow AM, Ehrlich DE, Choi DC, Dabrowska J, Bowers ME, McCullough KM, Rainnie DG & Ressler KJ (2013) Thy1-expressing neurons in the basolateral amygdala mediate fear inhibition. The Journal of Neuroscience 33(25), 10396-404.

Ehrlich DE*, Ryan SJ* & Rainnie DG (2012) Postnatal development of electrophysiological properties of principal neurons in the rat basolateral amygdala. The Journal of Physiology 590(19), 4819-38.

Ryan SJ*, Ehrlich DE*, Jasnow AM*, Daftary S, Madsen TE & Rainnie DG (2012) Spike-timing precision and neuronal synchrony are enhanced by an interaction between synaptic inhibition and membrane oscillations in the amygdala. PLoS One 7(4), e35320.