Biomod/2014/Hokudai

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<p><center><a class="image" title="team hokudai"><img alt="team hokudai" src="https://upload.wikimedia.org/wikipedia/commons/thumb/0/02/Team_Hokudai%EF%BC%92.jpg/1200px-Team_Hokudai%EF%BC%92.jpg" width="180" height="100" border="0" /></a></p></center> </div>


<p class="example1 example2 example3 example4 example5"> <a href="Hokudai/PROJECT">PROJECT</a> <a href="Hokudai/DESIGN">DESIGN</a> <a href="Hokudai/MATERIAL&METHOD">MATERIAL&METHOD</a> <a href="Hokudai/RESULTS">RESULTS</a> <a href="Hokudai/FUTURE">FUTURE</a> <a href="Hokudai/TEAM">TEAM</a> <a href="Hokudai/SPONSORS">SPONSORS</a> </p>


<p class="clearLeft example1 example2 ">Abstract <br><p class="example11 example2 example12 "> Biomolecular motor systems are smallest natural machine that convert chemical energy of ATP into mechanical work. Aim of this project is to establish a method to control arbitrarily the spatial arrangement of the biomolecular motors. Based on this method, we create a power system capable of amplification of speed and control of the direction of movement. We use a dissipative structure induced by the temperature gradient as a way to control the spatial arrangement of biomolecular motors. By creating a local temperature gradients by light irradiation, We can control arbitrarily pattern of dissipative structure with uniform polarity. We make the system express the movement (contraction such as muscle, for example) by introducing the ATP, which is the energy source. It is controlled by using the intermolecular interactions of DNA transfer of power generated by biomolecular motors. It is expected to contribute to the creation of soft actuators designed freely in the future.</Div> </p>


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