Nagendran Muthusamy

Works (1)

Updated: April 11th, 2023 10:13

2022 article

Phosphorylation-dependent proteome of Marcks in ependyma during aging and behavioral homeostasis in the mouse forebrain

Muthusamy, N., Williams, T. I., O'Toole, R., Brudvig, J. J., Adler, K. B., Weimer, J. M., … Ghashghaei, H. T. (2022, January 24). GEROSCIENCE, Vol. 1.

By: N. Muthusamy n, T. Williams n, R. O'Toole*, J. Brudvig*, K. Adler n, J. Weimer*, D. Muddiman n, H. Ghashghaei n

Contributors: N. Muthusamy n, T. Williams n, R. O’Toole*, J. Brudvig*, K. Adler n, J. Weimer*, D. Muddiman n, H. Ghashghaei n

author keywords: Aging; Behavior; Clca3; Ependymal cells; Forebrain; Marcks; Mass spectrometry; Neuroinflammation
MeSH headings : Mice; Animals; Phosphorylation; Ependyma / metabolism; Intracellular Signaling Peptides and Proteins / metabolism; Myristoylated Alanine-Rich C Kinase Substrate / metabolism; Proteome / metabolism; Membrane Proteins / metabolism; Protein Kinase C / metabolism; Homeostasis; Prosencephalon / metabolism; Mammals / metabolism
TL;DR: This study provides first line of evidence for potential mechanisms that may mediate differential Marcks functions in young and old ECs, and their effect on forebrain homeostasis during aging. (via Semantic Scholar)
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Added: January 31, 2022

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