Team:NYMU-Taipei/concept-on-interface-and-biomedicine

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(BUT BEFORE DREAMS COME TRUE (#): Yeah, yeah, we know......We were not using E. coli.)
 
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==<font size=5><font color=cirmson>'''INTERESTING POINTS (<font color=orange>◎</font>): </font></font><font color=gray>Hummm......you mentioned about......"Realizing the Concept of ''Avatar''?"</font>'''==
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Magnetotactic bacteria have long been regarded as an intriguing group of species exhibiting magnetotaxis with their fascinating bacterial organelles, magnetosomes. Also, optogenetics, the recent revolution in neuroscientific methodologies, has caught our attention intensively. An eagerness out of pure curiosity to combine and utilize these two streams of thoughts gave way to a truly ground-breaking idea, the '''realization of the concept of ''Avatar'''''.
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Magnetotactic bacteria has long been regarded as an interesting group of species expressing magnetotaxis with their fascinating bacterial organelles, magnetosomes. Also, optogenetics, the recent revolution in neuroscientific methodologies, has caught our attentions intensively. An eagerness to utilize these two stream of thoughts has unexpectedly gave way to a truly revolutionary idea, the '''realization of the concept of ''Avatar'''''.
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==<font size=5><font color=cirmson>'''GROUNDBREAKING NEWS (<font color=orange>!</font>):</font></font> <font color=gray>So we have decided to call it an......Opto-Magnetic Revolution</font>'''==
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This year, NYMU-Taipei goes beyond the current realm of mainstream synthetic biology We develope 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=green>'''totally wireless'''</font>, <font color=green>'''spatially and temporarily accurate'''</font>, <font color=green>'''minimally invasive'''</font>, <font color=green>'''3-dimensional multi-site stimulation enabling'''</font> fasion.
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==<font color=cirmson><font size=5>'''HOW CAN THAT ''EVER'' BE POSSIBLE (<font color=orange>?</font>):</font></font> <font color=gray>Basically, we focus on achieving BRET under electromagnetic field oscillations......</font>'''==
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In our project, we focus heavily on '''inducible BRET by electromagnetic field oscillations''' (BRET, Bioluminescence Resonance Energy Transfer). In this stream of thought, <font color=blue>'''mms13'''</font>, a transmembrane magnetite tight-binding protein on the magnetosome membrane of ''Magnetopirillum magneticum'' AMB-1 was chosen as the linker between non-contact force and biological responses. <font color=blue>'''Comformational ''wobbling'' of mms13'''</font> induced by magnetic movement under electromagnetic field oscillation is our '''''primary hypothesis'''''. Before testing on this hypothesis directly, we have designed [https://2011.igem.org/Team:NYMU-Taipei/optomagnetic-design <u>several constructs</u>] to prove "''lemmas,''" which are believed to be the foundation to this "''theory''". Computational modeling is thus a key emphasis in our project, [https://2011.igem.org/Team:NYMU-Taipei/modelling-protein-structure-champ-design <u>check out for more</u>]!
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==<font size=5><font color=cirmson>'''BUT BEFORE DREAMS COME TRUE (<font color=orange>#</font>):</font></font> <font color=gray>Yeah, yeah, we know......We were not using ''E. coli''.</font>'''==
 +
''Magnetospirillum magneticum'' AMB-1 has been proven to serve as a genetically manipulatable species. And we also noticed from the history of iGem that there are always some teams attempting almost every year to deal with AMB-1, but, unfortunately, those respectful movements never got their chance to appear on the jamborees. This year, we will make a change. A brand-new '''[https://2011.igem.org/Team:NYMU-Taipei/chassis <u>magnetic chassis</u>]''' is about to be established, and a '''complete toolkit''' containing all elements required in genetic manipulations on AMB-1 has been submitted to the registry (see [https://2011.igem.org/Team:NYMU-Taipei/chassis <u>Chassis</u>] for more details).
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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 with 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.
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==<font size=5><font color=cirmson>'''WAIT, SO YOU GONNA PUT THEM IN... (<font color=orange>§</font>):</font></font> <font color=gray>Glial cells in brain......Yes, we will make them dormant.</font>'''==
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Retrospectively, '''neuroimmune response''' appears to be the major negative issue spanning all invasive neuro-stimulatory methodologies. Although we've designed the '''''injectable''''' wireless optogenetic system aimed to avoid deleterious responses surrounding the electrodes / light cables inserted into the brain tissue, our very approach, ''utilizing bacteria'', if left unresolved, may cause far more serious aftereffects. To handle this problem, we engineer our AMB-1 with genes of team Warsaw's construct in 2010. In brief, '''intracellularity with controlled cell count''' is our goal of this part. We've designed a timeline of future applications with optomagnetic AMB-1, where <font color=blue>'''stable ''in vitro'' symbiosis within glial cells precedes injection'''</font> on the schedule. And, in our design <font color=red>'''we plan to inject glial cells containing AMB-1, not bacteria (AMB-1 in this case) into the brain'''</font>, to minimize any possible immune responses. See [https://2011.igem.org/Team:NYMU-Taipei/immunological-solution <u>'''NeuroSymbiosis'''</u>] for detailed explanations.
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==<font size=5>'''<font color=cirmson>What's Next?</font>'''</font>==
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For those who want to enjoy the ''context'' of our project (including what obstacles do we face, what candidate solutions do we adopt, defining the niche and drawbacks of our project and so on...), we strongly recommend you join us on the '''[https://2011.igem.org/Team:NYMU-Taipei/background-review <u>Journey to ''Making A Difference''</u>]'''.
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For those who are well-equipped with knowledge and power, you are sincerely invited to check upon our '''experimental designs''' ('''[https://2011.igem.org/Team:NYMU-Taipei/optomagnetic-design <u>Optomagnetic Design]</u>''' / '''[https://2011.igem.org/Team:NYMU-Taipei/immunological-solution <u>NeuroSymbiosis</u>]''') for the panorama of our project.

Latest revision as of 00:52, 29 October 2011

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Contents

INTERESTING POINTS (): Hummm......you mentioned about......"Realizing the Concept of Avatar?"

Magnetotactic bacteria have long been regarded as an intriguing group of species exhibiting magnetotaxis with their fascinating bacterial organelles, magnetosomes. Also, optogenetics, the recent revolution in neuroscientific methodologies, has caught our attention intensively. An eagerness out of pure curiosity to combine and utilize these two streams of thoughts gave way to a truly ground-breaking idea, the realization of the concept of Avatar.

GROUNDBREAKING NEWS (!): So we have decided to call it an......Opto-Magnetic Revolution

This year, NYMU-Taipei goes beyond the current realm of mainstream synthetic biology We develope 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.

HOW CAN THAT EVER BE POSSIBLE (?): Basically, we focus on achieving BRET under electromagnetic field oscillations......

In our project, we focus heavily on inducible BRET by electromagnetic field oscillations (BRET, Bioluminescence Resonance Energy Transfer). In this stream of thought, mms13, a transmembrane magnetite tight-binding protein on the magnetosome membrane of Magnetopirillum magneticum AMB-1 was chosen as the linker between non-contact force and biological responses. Comformational wobbling of mms13 induced by magnetic movement under electromagnetic field oscillation is our primary hypothesis. Before testing on this hypothesis directly, we have designed several constructs to prove "lemmas," which are believed to be the foundation to this "theory". Computational modeling is thus a key emphasis in our project, check out for more!

BUT BEFORE DREAMS COME TRUE (#): Yeah, yeah, we know......We were not using E. coli.

Magnetospirillum magneticum AMB-1 has been proven to serve as a genetically manipulatable species. And we also noticed from the history of iGem that there are always some teams attempting almost every year to deal with AMB-1, but, unfortunately, those respectful movements never got their chance to appear on the jamborees. This year, we will make a change. A brand-new magnetic chassis is about to be established, and a complete toolkit containing all elements required in genetic manipulations on AMB-1 has been submitted to the registry (see Chassis for more details).

WAIT, SO YOU GONNA PUT THEM IN... (§): Glial cells in brain......Yes, we will make them dormant.

Retrospectively, neuroimmune response appears to be the major negative issue spanning all invasive neuro-stimulatory methodologies. Although we've designed the injectable wireless optogenetic system aimed to avoid deleterious responses surrounding the electrodes / light cables inserted into the brain tissue, our very approach, utilizing bacteria, if left unresolved, may cause far more serious aftereffects. To handle this problem, we engineer our AMB-1 with genes of team Warsaw's construct in 2010. In brief, intracellularity with controlled cell count is our goal of this part. We've designed a timeline of future applications with optomagnetic AMB-1, where stable in vitro symbiosis within glial cells precedes injection on the schedule. And, in our design we plan to inject glial cells containing AMB-1, not bacteria (AMB-1 in this case) into the brain, to minimize any possible immune responses. See NeuroSymbiosis for detailed explanations.

What's Next?

For those who want to enjoy the context of our project (including what obstacles do we face, what candidate solutions do we adopt, defining the niche and drawbacks of our project and so on...), we strongly recommend you join us on the Journey to Making A Difference.

For those who are well-equipped with knowledge and power, you are sincerely invited to check upon our experimental designs (Optomagnetic Design / NeuroSymbiosis) for the panorama of our project.