Axon-First Neuritogenesis on Vertical Nanowires

In this work, we report that high-density, vertically grown silicon nanowires (vg-SiNWs) direct a new in vitro developmental pathway of primary hippocampal neurons. Neurons on vg-SiNWs formed a single, extremely elongated major neurite earlier than minor neurites, which led to accelerated polarizati...

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Veröffentlicht in:	Nano letters 2016-01, Vol.16 (1), p.675-680
Hauptverfasser:	Kang, Kyungtae, Park, Yi-Seul, Park, Matthew, Jang, Min Jee, Kim, Seong-Min, Lee, Juno, Choi, Ji Yu, Jung, Da Hee, Chang, Young-Tae, Yoon, Myung-Han, Lee, Jin Seok, Nam, Yoonkey, Choi, Insung S
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Sprache:	eng
Schlagworte:	Actins - chemistry Animals Axons - chemistry Axons - physiology Cell Culture Techniques Cell Tracking - methods Hippocampus - chemistry Hippocampus - cytology Nanowires - chemistry Neurites - chemistry Neurogenesis Rats Silicon - chemistry
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creator	Kang, Kyungtae Park, Yi-Seul Park, Matthew Jang, Min Jee Kim, Seong-Min Lee, Juno Choi, Ji Yu Jung, Da Hee Chang, Young-Tae Yoon, Myung-Han Lee, Jin Seok Nam, Yoonkey Choi, Insung S
description	In this work, we report that high-density, vertically grown silicon nanowires (vg-SiNWs) direct a new in vitro developmental pathway of primary hippocampal neurons. Neurons on vg-SiNWs formed a single, extremely elongated major neurite earlier than minor neurites, which led to accelerated polarization. Additionally, the development of lamellipodia, which generally occurs on 2D culture coverslips, was absent on vg-SiNWs. The results indicate that surface topography is an important factor that influences neuronal development and also provide implications for the role of topography in neuronal development in vivo.
doi_str_mv	10.1021/acs.nanolett.5b04458
format	Article
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subjects	Actins - chemistry Animals Axons - chemistry Axons - physiology Cell Culture Techniques Cell Tracking - methods Hippocampus - chemistry Hippocampus - cytology Nanowires - chemistry Neurites - chemistry Neurogenesis Rats Silicon - chemistry
title	Axon-First Neuritogenesis on Vertical Nanowires
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