D
Donald L. Price
Researcher at Johns Hopkins University
Publications - 471
Citations - 93184
Donald L. Price is an academic researcher from Johns Hopkins University. The author has contributed to research in topics: Cholinergic neuron & Senile plaques. The author has an hindex of 128, co-authored 471 publications receiving 90448 citations. Previous affiliations of Donald L. Price include Johns Hopkins University School of Medicine & Dartmouth–Hitchcock Medical Center.
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The neural basis of memory decline in aged monkeys.
Lary C. Walker,Cheryl A. Kitt,Robert G. Struble,Molly V. Wagster,Donald L. Price,Linda C. Cork +5 more
TL;DR: The preliminary data suggest that the density of plaques may be related to poor behavioral performance in some aged monkeys, however, behavioral decline begins before the appearance of significant numbers of senile plaques, suggesting that other factors may interfere with cognition.
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Neurotrophin 4/5 is a trophic factor for mammalian facial motor neurons.
Vassilis E. Koliatsos,Michelle H. Cayouette,Lucy R. Berkemeier,Richard E. Clatterbuck,Donald L. Price,Arnon Rosenthal +5 more
TL;DR: It is demonstrated that NT-4/5 also prevents injury-induced death of facial motor neurons in neonatal rats and may serve as therapeutic agents for motor neuron disease.
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The Copper Chaperone CCS Is Abundant in Neurons and Astrocytes in Human and Rodent Brain
Jeffrey D. Rothstein,Margaret Dykes-Hoberg,Laura Corson,Laura Corson,Mark Becker,Don W. Cleveland,Donald L. Price,Valeria C. Culotta,Phillip C. Wong +8 more
TL;DR: Copper trafficking in mammalian cells is highly regulated, and CCS is found to be ubiquitously expressed by multiple tissues and is present in particularly high concentrations in kidney and liver.
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Axotomy induces nerve growth factor receptor immunoreactivity in spinal motor neurons.
TL;DR: The present study examined the onset, course, and specificity of NGF-R up-regulation following distal or proximal crush of the sciatic nerve, consistent with the hypothesis that target-derived factors participate in the regulation of N GF-R gene expression in adult motor neurons.
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Incorporation of axonally transported glycoproteins into axolemma during nerve regeneration
TL;DR: One role of fast axonal transport in nerve regeneration is the contribution to the regenerating sprout of glycoproteins inserted into the axolemma; these membrane elements are added both during longitudinal outgrowth and during lateral growth and maturation of the sprout.