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Team:NYMU-Taipei/chassis
From 2011.igem.org
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(→(Why choose AMB-1?): Well...if a kind of bacteria can match all we required...why not?) |
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| - | ===<font color=red>Why choose AMB-1?</font>: <font color=gray>Well...if a kind of bacteria can match all we required... | + | ===<font color=red>Why choose AMB-1?</font>: <font color=gray>Well...if a kind of bacteria can match all we required...</font>'''=== |
This year, NYMU-Taipei goes beyond the current realm of mainstream synthetic biology, developing a <font color=blue>'''opto-magnetic probing platform'''</font> on ''Magnetospirillum magneticum'' AMB-1 which functionally couples to channelrhodopsins (opsins that are ultra-rapidly reactive to light beams of certain wavelengths) to enable activation of neuronal circuitry in a <font color=red>'''totally wireless'''</font>, <font color=red>'''spatially and temporarily accurate'''</font>, <font color=red>'''minimally invasive'''</font>, <font color=red>'''3-dimensional multi-site stimulation enabling'''</font> fasion. | This year, NYMU-Taipei goes beyond the current realm of mainstream synthetic biology, developing a <font color=blue>'''opto-magnetic probing platform'''</font> on ''Magnetospirillum magneticum'' AMB-1 which functionally couples to channelrhodopsins (opsins that are ultra-rapidly reactive to light beams of certain wavelengths) to enable activation of neuronal circuitry in a <font color=red>'''totally wireless'''</font>, <font color=red>'''spatially and temporarily accurate'''</font>, <font color=red>'''minimally invasive'''</font>, <font color=red>'''3-dimensional multi-site stimulation enabling'''</font> fasion. | ||
Revision as of 14:27, 4 October 2011
Why choose AMB-1?: Well...if a kind of bacteria can match all we required...
This year, NYMU-Taipei goes beyond the current realm of mainstream synthetic biology, developing a opto-magnetic probing platform on Magnetospirillum magneticum AMB-1 which functionally couples to channelrhodopsins (opsins that are ultra-rapidly reactive to light beams of certain wavelengths) to enable activation of neuronal circuitry in a totally wireless, spatially and temporarily accurate, minimally invasive, 3-dimensional multi-site stimulation enabling fasion.
