Difference between revisions of "The Pu Research Group"

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dynamical motions that are encoded in their three dimensional structures.  
 
dynamical motions that are encoded in their three dimensional structures.  
 
Ongoing projects include computer simulations of ABC-transporters and  
 
Ongoing projects include computer simulations of ABC-transporters and  
development of combined quantum mechanical/molecular mechanical (QM/MM) methods.  
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damaged DNAs and development of combined quantum mechanical/molecular  
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mechanical (QM/MM) methods.  
  
 
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{| cellpadding="2" style="border: 0px solid darkgray;" align="center"
[[File:MalEFGK2.png|frame|right|Maltose transporter from ''E. coli''|link=Research]]
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| Example || Example
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| [[File:MalEFGK2.png|Maltose transporter from ''E. coli''|link=Research]]
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| [[File:tt_sp.png|SP lesion in DNA|link=Research]]
| Example || Example
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| [[File:qmmm.png|QM/MM|link=Research]]
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Latest revision as of 09:23, 29 March 2024

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Our interests lie at the interface between theoretical/computational chemistry and biophysics. The current research in the lab is directed towards understanding how biomolecules perform their functions via dynamical motions that are encoded in their three dimensional structures. Ongoing projects include computer simulations of ABC-transporters and damaged DNAs and development of combined quantum mechanical/molecular mechanical (QM/MM) methods.

Maltose transporter from E. coli SP lesion in DNA QM/MM