Structure of the Immature Dengue Virus at Low pH Primes Proteolytic Maturation

Structure of the Immature Dengue Virus at Low pH Primes Proteolytic Maturation

Intracellular cleavage of immature flaviviruses is a critical step in assembly that generates the membrane fusion potential of the E glycoprotein. With cryo--electron microscopy we show that the immature dengue particles undergo a reversible conformational change at low pH that renders them accessib...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2008-03, Vol.319 (5871), p.1834-1837
Hauptverfasser: Yu, I-Mei, Zhang, Wei, Holdaway, Heather A., Li, Long, Kostyuchenko, Victor A., Chipman, Paul R., Kuhn, Richard J., Rossmann, Michael G., Chen, Jue
Format: Artikel
Sprache:eng
Schlagworte:
60 APPLIED LIFE SCIENCES
BASIC BIOLOGICAL SCIENCES
Biological and medical sciences
Cellular biology
CLEAVAGE
CONFIGURATION
CONFORMATIONAL CHANGES
Cryoelectron Microscopy
Crystal structure
Crystallography, X-Ray
Dengue
Dengue virus
Dengue Virus - chemistry
Dengue Virus - growth & development
Dengue Virus - metabolism
Dengue Virus - ultrastructure
Dimerization
Dimers
DISSOCIATION
Electron microscopes
Endoplasmic Reticulum - virology
Fundamental and applied biological sciences. Psychology
Furin - metabolism
Glycoproteins
Hydrogen-Ion Concentration
Image Processing, Computer-Assisted
Membrane Fusion
MEMBRANES
Microbiology
MICROSCOPY
Morphology, structure, chemical composition, physicochemical properties
P branes
PEPTIDES
Protein Conformation
PROTEINS
Secretory pathway
trans-Golgi Network - metabolism
trans-Golgi Network - virology
Viral Envelope Proteins - chemistry
Viral Envelope Proteins - metabolism
Viral Fusion Proteins - chemistry
Viral Fusion Proteins - metabolism
Viral Matrix Proteins - chemistry
Viral Matrix Proteins - metabolism
Viral morphology
Virion - metabolism
Virion - ultrastructure
Virions
Virology
Viruses
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Zusammenfassung:Intracellular cleavage of immature flaviviruses is a critical step in assembly that generates the membrane fusion potential of the E glycoprotein. With cryo--electron microscopy we show that the immature dengue particles undergo a reversible conformational change at low pH that renders them accessible to furin cleavage. At a pH of 6.0, the E proteins are arranged in a herringbone pattern with the pr peptides docked onto the fusion loops, a configuration similar to that of the mature virion. After cleavage, the dissociation of pr is pH-dependent, suggesting that in the acidic environment of the trans-Golgi network pr is retained on the virion to prevent membrane fusion. These results suggest a mechanism by which flaviviruses are processed and stabilized in the host cell secretory pathway.
ISSN:0036-8075
0193-4511
1095-9203
DOI:10.1126/science.1153264