Binsen Li scite author profile

Binsen Li

2Publications

35Citation Statements Received

148Citation Statements Given

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Connecticut College

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Water diffusion in and out of the β-barrel of GFP and the fast maturing fluorescent protein, TurboGFP

Shahid

Peshkepija

2012

Chemical Physics

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The chromophore of fluorescent proteins is formed by an internal cyclization of the tripeptide 65SYG67 fragment and a subsequent oxidation. The oxidation is slow - the kinetics of this step is presumably improved in fast maturing GFPs. Water molecules can aid in the chromophore formation. We have used 50ns molecular dynamics simulations of the mature and immature forms of avGFP and TurboGFP to examine the diffusion of water molecules in-and-out of the protein β-barrel. Most crystal structures of GFPs have well-structured waters within hydrogen-bonding distance of Glu222 and Arg96. It has been proposed that they have an important role in chromophore formation. Stable waters are found in similar positions in all simulations conducted. The simulations confirm the existence of a pore that leads to the chromophore in the rapidly maturing TurboGFP; decreased water diffusion upon chromophore formation; and increased water diffusion due to the pore formation.

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Structural consequences of chromophore formation and exploration of conserved lid residues amongst naturally occurring fluorescent proteins

Zimmer

Shahid

et al. 2014

Chemical Physics

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Computational methods were used to generate the lowest energy conformations of the immature precyclized forms of the 28 naturally occurring GFP-like proteins deposited in the pdb. In all 28 GFP-like proteins, the beta-barrel contracts upon chromophore formation and becomes more rigid. Our prior analysis of over 260 distinct naturally occurring GFP-like proteins revealed that most of the conserved residues are located in the top and bottom of the barrel in the turns between the β-sheets.(1) Structural analyses, molecular dynamics simulations and the Anisotropic Network Model were used to explore the role of these conserved lid residues as possible folding nuclei. Our results are internally consistent and show that the conserved residues in the top and bottom lids undergo relatively less translational movement than other lid residues, and a number of these residues may play an important role as hinges or folding nuclei in the fluorescent proteins.

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Binsen Li

Water diffusion in and out of the β-barrel of GFP and the fast maturing fluorescent protein, TurboGFP

Structural consequences of chromophore formation and exploration of conserved lid residues amongst naturally occurring fluorescent proteins

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