The stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation
Newly assembled dengue viruses (DENV) undergo maturation to become infectious particles. The maturation process involves major rearrangement of virus surface premembrane (prM) and envelope (E) proteins. The prM-E complexes on immature viruses are first assembled as trimeric spikes in the neutral pH...
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sg-ntu-dr.10356-1053262022-02-16T16:29:05Z The stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation Zhang, Q. Hunke, C. Seow, V. Lee, S. Tanner, L. B. Guan, X. L. Wenk, M. R. Fibriansah, G. Chew, P. L. Kukkaro, P. Shi, P.-Y. Lok, S.-M. Yau, Yin Hoe Biuković, Goran Shochat, Susana Geifman Grüber, Gerhard School of Biological Sciences DRNTU::Science::Biological sciences::Biochemistry Newly assembled dengue viruses (DENV) undergo maturation to become infectious particles. The maturation process involves major rearrangement of virus surface premembrane (prM) and envelope (E) proteins. The prM-E complexes on immature viruses are first assembled as trimeric spikes in the neutral pH environment of the endoplasmic reticulum. When the virus is transported to the low pH environment of the exosomes, these spikes rearrange into dimeric structures, which lie parallel to the virus lipid envelope. The proteins involved in driving this process are unknown. Previous cryoelectron microscopy studies of the mature DENV showed that the prM-stem region (residues 111–131) is membrane-associated and may interact with the E proteins. Here we investigated the prM-stem region in modulating the virus maturation process. The binding of the prM-stem region to the E protein was shown to increase significantly at low pH compared with neutral pH in ELISAs and surface plasmon resonance studies. In addition, the affinity of the prM-stem region for the liposome, as measured by fluorescence correlation spectroscopy, was also increased when pH is lowered. These results suggest that the prM-stem region forms a tight association with the virus membrane and attracts the associated E protein in the low pH environment of exosomes. This will lead to the surface protein rearrangement observed during maturation. 2013-11-15T02:45:58Z 2019-12-06T21:49:14Z 2013-11-15T02:45:58Z 2019-12-06T21:49:14Z 2012 2012 Journal Article Zhang, Q., Hunke, C., Yau, Y. H., Seow, V., Lee, S., Tanner, L. B., et al. (2012). The stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation. Journal of biological chemistry, 287(48), 40525-40534. https://hdl.handle.net/10356/105326 http://hdl.handle.net/10220/17653 10.1074/jbc.M112.384446 23035113 en Journal of biological chemistry |
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DRNTU::Science::Biological sciences::Biochemistry Zhang, Q. Hunke, C. Seow, V. Lee, S. Tanner, L. B. Guan, X. L. Wenk, M. R. Fibriansah, G. Chew, P. L. Kukkaro, P. Shi, P.-Y. Lok, S.-M. Yau, Yin Hoe Biuković, Goran Shochat, Susana Geifman Grüber, Gerhard The stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation |
| description |
Newly assembled dengue viruses (DENV) undergo maturation to become infectious particles. The maturation process involves major rearrangement of virus surface premembrane (prM) and envelope (E) proteins. The prM-E complexes on immature viruses are first assembled as trimeric spikes in the neutral pH environment of the endoplasmic reticulum. When the virus is transported to the low pH environment of the exosomes, these spikes rearrange into dimeric structures, which lie parallel to the virus lipid envelope. The proteins involved in driving this process are unknown. Previous cryoelectron microscopy studies of the mature DENV showed that the prM-stem region (residues 111–131) is membrane-associated and may interact with the E proteins. Here we investigated the prM-stem region in modulating the virus maturation process. The binding of the prM-stem region to the E protein was shown to increase significantly at low pH compared with neutral pH in ELISAs and surface plasmon resonance studies. In addition, the affinity of the prM-stem region for the liposome, as measured by fluorescence correlation spectroscopy, was also increased when pH is lowered. These results suggest that the prM-stem region forms a tight association with the virus membrane and attracts the associated E protein in the low pH environment of exosomes. This will lead to the surface protein rearrangement observed during maturation. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Zhang, Q. Hunke, C. Seow, V. Lee, S. Tanner, L. B. Guan, X. L. Wenk, M. R. Fibriansah, G. Chew, P. L. Kukkaro, P. Shi, P.-Y. Lok, S.-M. Yau, Yin Hoe Biuković, Goran Shochat, Susana Geifman Grüber, Gerhard |
| format |
Article |
| author |
Zhang, Q. Hunke, C. Seow, V. Lee, S. Tanner, L. B. Guan, X. L. Wenk, M. R. Fibriansah, G. Chew, P. L. Kukkaro, P. Shi, P.-Y. Lok, S.-M. Yau, Yin Hoe Biuković, Goran Shochat, Susana Geifman Grüber, Gerhard |
| author_sort |
Zhang, Q. |
| title |
The stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation |
| title_short |
The stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation |
| title_full |
The stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation |
| title_fullStr |
The stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation |
| title_full_unstemmed |
The stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation |
| title_sort |
stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/105326 http://hdl.handle.net/10220/17653 |
| _version_ |
1725985744274587648 |