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Immature Form Of Zika Could Clarify How Virus Infects

Discussion in 'Microbiology' started by Ghada Ali youssef, Jan 29, 2017.

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  1. Ghada Ali youssef

    Ghada Ali youssef Golden Member

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    Researchers have determined the high-resolution structure of immature Zika virus, a step toward better understanding how the virus infects host cells and spreads.

    Zika belongs to a family of viruses called flaviviruses, which includes dengue, West Nile, yellow fever, Japanese encephalitis, and tick-borne encephalitic viruses. Although only the mature forms of flaviviruses are considered infectious, the virus population secreted from host cells is a mixture of mature, partially mature and immature virus particles.

    “It is, therefore, probable that the immature form of Zika also plays a role in virus infection and spread,” says Michael Rossmann, a professor of biological sciences at Purdue University.

    Findings appear in the journal Nature Structural & Molecular Biology.

    “I think these findings open the door to begin to explore the assembly process of the virus,” says Richard Kuhn, a professor of biological sciences at Purdue University who collaborated on the work. “We see clear differences between the structure of the immature virus and the mature virus.

    “Not only are there differences in the outer structure, but the inner core must also undergo some significant changes during maturation. We need to study what these changes are and why they occur.”

    Rossmann and Kuhn also led a team that last year determined the structure of the mature Zika virus. Research into a virus’s structure provides insights important to the development of effective antiviral treatments and vaccines.

    The researchers used a technique called cryo-electron microscopy to reconstruct the immature virus’s structure at 9 Ångstroms resolution, or about a thousand times better resolution than would be possible with a conventional light microscope.

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    The genome of the virus is housed inside a protective envelope that includes a lipid membrane, an envelope protein, a precursor membrane protein and a capsid protein. The researchers are the first to learn the position of the capsid protein in the immature virus, which plays the critical role of recognizing the virus’s genetic material and acts as a chaperone to guide these RNA strands into the virus for assembly.

    The envelope protein is essential for the virus’s binding, attachment, and fusion to host cells during the infection process. The membrane protein cleaves from the mature virus as it is released from the host to infect other cells.

    A map of the immature virus’s structure revealed details about the proteins, showing that the envelope and precursor membrane proteins are arranged in 60 spike-like features on the virus’s surface, whereas the capsid protein is located on the internal side of the lipid membrane. The structure differs from the mature Zika virus in that the membrane protein in the mature virus is covered by the envelope protein. Both proteins exist on the surface of the immature version of the virus.

    Findings also show differences between the immature Zika virus and immature versions of other flaviviruses. Notably, it contains a “partially ordered capsid protein shell” that is less prominent in other immature flaviviruses.

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