New 3-D structural model of critical H1N1 protein developed
In just two weeks from the time the first patient virus samples were made available, Singapore scientists report an evolutionary analysis of a critical protein produced by the 2009 H1N1 influenza A virus strain. In the Biology Direct journal's May 20th issue, Sebastian Maurer-Stroh, Ph.D., and his team of scientists at the Bioinformatics Institute (BII), one of the research institutes at Singapore's Biopolis, also demonstrated the use of a computational 3-dimensional (3D) structural model of the protein, neuraminidase.
"Because we were working as a team, driven by the common goal to understand potential risks from this new virus, our group at BII was able to successfully complete this difficult analysis within such a short time," said Dr. Maurer-Stroh, BII principal investigator and first author of the paper.
BII's interactive 3D model is available at the following link: http://mendel.bii.a-star.edu.sg/SEQUENCES/H1N1/
With the 3D model, Dr. Maurer-Stroh and his team were able to map the regions of the protein that have mutated and determine whether drugs and vaccines that target specific areas of the protein were effective. Among their findings:
a. neuraminidase structure of the 2009 H1N1 influenza A virus has undergone extensive surface mutations compared to closely related strains such as the H5N1 avian flu virus or other H1N1 strains including the 1918 Spanish flu;
b. neuraminidase of the 2009 H1N1 influenza A virus strain is more similar to the H5N1 avian flu than to the historic 1918 H1N1 strain (Spanish flu);
c. current mutations of the virus have rendered previous flu vaccinations directed against neuraminidase less effective; and
d. commercial drugs, namely Tamiflu® and Relenza®, are still effective in treating the current H1N1 virus.
With the Biology Direct journal paper, the Singapore scientists have become the first to demonstrate how bioinformatics and computational biology can contribute towards managing the H1N1 influenza A virus.
"BII's H1N1 virus sequence study marks a significant milestone in the use of computational biology methods in understanding how the mutations of the fast evolving influenza virus affect immunogenic properties or drug response," said BII Director Frank Eisenhaber, Ph.D. "This information helps to develop a strategy for fighting the H1N1 virus and for organising an effective treatment for patients."
Other technologies to tackle the 2009 H1N1 Influenza A virus have been developed by scientists at Biopolis research institutes sponsored by Singapore's A*STAR (Agency for Science, Technology and Research). They include:
- a chip that is able to quickly sequence or decode the genes in the flu virus and distinguish between the H1N1, seasonal, and mutated flu strains, at the Genome Institute of Singapore (GIS).
- a microkit for the detection and identification of the flu virus strain within 2 hours, at the Institute of Bioengineering and Nanotechnology (IBN).
- a molecular diagnostic assay to distinguish between the H1N1 and seasonal flu strains, at the Institute of Molecular and Cell Biology (IMCB).
Source: Agency for Science, Technology and Research (A*STAR), Singapore
Related
- Immune system of healthy adults may be better prepared than expected to fight 2009 H1N1 influenzaMon, 16 Nov 2009, 15:51:32 EST
- Studies in animals suggest 2009 H1N1 virus may have biological advantage over seasonal influenzaTue, 1 Sep 2009, 10:21:23 EDT
- Scientists identify lab-made proteins that neutralize multiple strains of seasonal and pandemic fluSun, 22 Feb 2009, 13:29:39 EST
- Getting wise to the influenza virus' tricksSun, 4 May 2008, 20:28:13 EDT
- Early results: In children, 2009 H1N1 influenza vaccine works like seasonal flu vaccineMon, 21 Sep 2009, 11:24:18 EDT
Other sources
- British scientists make H1N1 flu strain for vaccinefrom Reuters:ScienceThu, 28 May 2009, 9:49:05 EDT
- 3-D model of H1N1 protein is developedfrom UPIWed, 27 May 2009, 15:14:09 EDT
- New 3-D Structural Model Of Critical H1N1 Protein Developedfrom Science DailySun, 24 May 2009, 21:21:13 EDT
- Genes of new flu virus show it's not so newfrom Reuters:ScienceSat, 23 May 2009, 12:49:10 EDT
- Vaccine looks likely for H1N1 strains of swine flufrom LA Times - ScienceFri, 22 May 2009, 19:21:05 EDT
- Eyes on the Swinefrom Scientific AmericanFri, 22 May 2009, 15:35:13 EDT
- New 3-D structural model of critical H1N1 protein developedfrom PhysorgFri, 22 May 2009, 11:49:44 EDT
- Old seasonal flu antibodies target swine flu virusfrom News @ NatureThu, 21 May 2009, 22:07:07 EDT
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