Plasticity of 150-loop in influenza neuraminidase explored by Hamiltonian replica exchange molecular dynamics simulations
Neuraminidase (NA) of influenza is a key target for antiviral inhibitors, and the 150-cavity in group-1 NA provides new insight in treating this disease. However, NA of 2009 pandemic influenza (09N1) was found lacking this cavity in a crystal structure. To address the issue of flexibility of the 1...
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| Main Authors: | , |
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| Other Authors: | |
| Format: | Article |
| Language: | English |
| Published: |
2013
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10356/96407 http://hdl.handle.net/10220/9875 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Neuraminidase (NA) of influenza is a key target for antiviral inhibitors, and the 150-cavity in group-1 NA provides new
insight in treating this disease. However, NA of 2009 pandemic influenza (09N1) was found lacking this cavity in a crystal
structure. To address the issue of flexibility of the 150-loop, Hamiltonian replica exchange molecular dynamics simulations
were performed on different groups of NAs. Free energy landscape calculated based on the volume of 150-cavity indicates
that 09N1 prefers open forms of 150-loop. The turn A (residues 147–150) of the 150-loop is discovered as the most
dynamical motif which induces the inter-conversion of this loop among different conformations. In the turn A, the
backbone dynamic of residue 149 is highly related with the shape of 150-loop, thus can function as a marker for the
conformation of 150-loop. As a contrast, the closed conformation of 150-loop is more energetically favorable in N2, one of
group-2 NAs. The D147-H150 salt bridge is found having no correlation with the conformation of 150-loop. Instead the
intimate salt bridge interaction between the 150 and 430 loops in N2 variant contributes the stabilizing factor for the closed
form of 150-loop. The clustering analysis elaborates the structural plasticity of the loop. This enhanced sampling simulation
provides more information in further structural-based drug discovery on influenza virus. |
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