Static magnetic fields can diminish neuron spines through microtubule dynamicity disruption
作者: Ali Dadras , Ali Naghshineh , Deyhim Atarod , Atiye Liaghi , Gholam Hossein Riazi
DOI: 10.1109/COGSCI.2015.7426664
关键词:
摘要: Recently, the hypothesis in which memory and information would be stored as magnetic forms astrocytes is expanding neuromagnetic interactions between neurons neighboring neocortex have potential to basis of formation. It was proposed that any kinds could maintained form neuronal activity-associated fields (NAAMFs) thereby alterations brain should effective on memory. On other hand, microtubules (MTs), most essential elements cytoskeleton, are crucial regulation spine development morphology, cognitive behavior, consciousness storage. Because MT dynamic nature, it can produce local field through vibration. According size, number, structure function microtubule proteins, they eligible components affected by endogenous exogenous fields. Therefore, present study we tried investigate possible effects static (SMFs) examining structural functional changes activity neural cell morphology. results revealed polymerization process not attained steady state at right time presence SMF 300 ascending slope phase abnormally observed. In addition, relatively changed. influence SMF, PC12 neuron-like cells spines decreased significantly their morphology altered pyramidal form.
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