Abstract
JACFC is a Java web application (http://neuronanobiophysics.utsa.edu/) that provides both experts and non-experts in the field suitable tools for elucidating the molecular mechanisms modulating the electrical signal propagation, stability, and bundle formation of microtubules and actin filaments under different molecular (wild type, isoforms, mutants) and environmental (physiological and pathological) conditions. This acknowledgment might reveal the potential role of cytoskeleton filaments in neuronal activities, including molecular-level processing of information and neural regeneration. Molecular understanding of the polyelectrolyte properties of bionanowires, is also crucial for development of reliability, highly functioning small devices with biotechnological applications such as bionanosensors and computing bionanoprocessors.
References
Aug 1, 1970·Proceedings of the National Academy of Sciences of the United States of America·K M YamadaN K Wessells
Oct 1, 1993·Biophysical Journal·E C Lin, H F Cantiello
May 1, 1993·The Biochemical Journal·E S HennesseyJ C Sparrow
Nov 5, 2003·Journal of Neurobiology·Phillip R Gordon-Weeks
Sep 11, 2004·Nature Materials·Fernando PatolskyItamar Willner
Jan 6, 2006·The Neuroscientist : a Review Journal Bringing Neurobiology, Neurology and Psychiatry·Peter W Hickmott, Iryna M Ethell
Aug 12, 2009·Journal of Biological Physics·Avner PrielNancy J Woolf
Dec 8, 2009·Science·Thomas D Pollard, John A Cooper
Dec 12, 2012·Quarterly Reviews of Biophysics·Pengyu RenNathan A Baker
Dec 17, 2014·The Journal of Chemical Physics·Zaven OvanesyanMarcelo Marucho
Mar 1, 2016·Computer Physics Communications·Sandra Vergara-Perez, Marcelo Marucho
Feb 15, 2019·RSC Advances·Christian HunleyMarcelo Marucho
May 14, 2020·International Journal of Molecular Sciences·Francine ParkerMichelle Peckham