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On the pH Dependent Behavior of the Firefly Bioluminescence: Protein Dynamics and Water Content in the Active Pocket

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Title
On the pH Dependent Behavior of the Firefly Bioluminescence: Protein Dynamics and Water Content in the Active Pocket
Author(s)
Hyun Woo Kim; Young Min Rhee
Subject
Acidic conditions, ; Bioluminescent systems, ; Emission properties, ; Luminescence process, ; Molecular dynamics simulations, ; Protein structures, ; Red-shifted emission, ; Structural distortions, ; Dynamics, ; Modulation, ; Molecular dynamics, ; Phosphorescence, ; Proteins, ; Bioluminescence, ; indole derivative, ; insect protein, ; oxyluciferin, ; photoprotein, ; pyrazine derivative, ; water, ; animal, ; article, ; chemical structure, ; chemistry, ; firefly, ; luminescence, ; metabolism, ; molecular dynamics, ; pH, ; Animals, ; Fireflies, ; Hydrogen-Ion Concentration, ; Indoles, ; Insect Proteins, ; Luminescence, ; Luminescent Measurements, ; Luminescent Proteins, ; Models, Molecular, ; Molecular Dynamics Simulation, ; Molecular Structure, ; Pyrazines, ; Water
Publication Date
2013-06
Journal
JOURNAL OF PHYSICAL CHEMISTRY B, v.117, no.24, pp.7260 - 7269
Publisher
AMER CHEMICAL SOC
Abstract
Understanding bioluminescence presents fascinating challenges for fundamental sciences and numerous opportunities for practical applications. As a representative example, the firefly bioluminescent system has been intensively studied in both experimental and computational areas. However, there are still remaining questions regarding especially the detailed protein dynamics and the mechanisms of its color modulation. Here, we report on the pH dependent behavior of the firefly bioluminescence primarily based on molecular dynamics simulations. We find that the overall protein structure is generally resilient to pH variations. As the protein does not exhibit any structural distortions that can affect the emission property, we next focus on the dynamics in the active pocket and its effect on color modulation by adopting different protonation states in the pocket. With this, we observe red-shifted emissions at acidic conditions as consistent with previous studies. Most importantly, we find that a water molecule in the active pocket can mediate flexible motions of neighboring groups, which can subsequently modify the emission properties to a substantial degree. Based on the observations, we propose that the active pocket is in a dry condition during the luminescence process. Our results highlight the importance of understanding the role of the dynamics near the active pocket in modulating bioluminescence. © 2013 American Chemical Society.
URI
https://pr.ibs.re.kr/handle/8788114/1310
DOI
10.1021/jp4024553
ISSN
1520-6106
Appears in Collections:
Center for Self-assembly and Complexity(복잡계 자기조립 연구단) > 1. Journal Papers (저널논문)
Files in This Item:
2013-06-20-J of Physical Chemistry B-On the pH Dependent Behavior.pdfDownload

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