Kurt C. Marsden, Ph.D.

Affiliations: 
Cell and Developmental Biology University of Pennsylvania School of Medicine, Philadelphia, PA, United States 
Google:
"Kurt Marsden"
Mean distance: 17.88 (cluster 11)
 
SNBCP
Cross-listing: danioTree

BETA: Related publications

Publications

You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect.

Deslauriers JC, Ghotkar RP, Russ LA, et al. (2023) Cyfip2 controls the acoustic startle threshold through FMRP, actin polymerization, and GABA receptor function. Biorxiv : the Preprint Server For Biology
Meserve JH, Nelson JC, Marsden KC, et al. (2021) A forward genetic screen identifies Dolk as a regulator of startle magnitude through the potassium channel subunit Kv1.1. Plos Genetics. 17: e1008943
Bremer J, Marsden KC, Miller A, et al. (2019) The ubiquitin ligase PHR promotes directional regrowth of spinal zebrafish axons. Communications Biology. 2: 195
Jain RA, Wolman MA, Marsden KC, et al. (2018) A Forward Genetic Screen in Zebrafish Identifies the G-Protein-Coupled Receptor CaSR as a Modulator of Sensorimotor Decision Making. Current Biology : Cb
Marsden KC, Jain RA, Wolman MA, et al. (2018) A Cyfip2-Dependent Excitatory Interneuron Pathway Establishes the Innate Startle Threshold. Cell Reports. 23: 878-887
Miller AC, Whitebirch AC, Shah AN, et al. (2017) A genetic basis for molecular asymmetry at vertebrate electrical synapses. Elife. 6
Miller AC, Whitebirch AC, Shah AN, et al. (2017) Author response: A genetic basis for molecular asymmetry at vertebrate electrical synapses Elife
Marsden KC, Granato M. (2015) In Vivo Ca(2+) Imaging Reveals that Decreased Dendritic Excitability Drives Startle Habituation. Cell Reports. 13: 1733-40
Butler MG, Iben JR, Marsden KC, et al. (2015) SNPfisher: tools for probing genetic variation in laboratory-reared zebrafish. Development (Cambridge, England). 142: 1542-52
Wolman MA, Jain RA, Marsden KC, et al. (2015) A genome-wide screen identifies PAPP-AA-mediated IGFR signaling as a novel regulator of habituation learning. Neuron. 85: 1200-11
See more...