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  • Title: The infectious bronchitis virus nucleocapsid protein binds RNA sequences in the 3' terminus of the genome.
    Author: Zhou M, Williams AK, Chung SI, Wang L, Collisson EW.
    Journal: Virology; 1996 Mar 01; 217(1):191-9. PubMed ID: 8599203.
    Abstract:
    The infectious bronchitis virus (IBV) nucleocapsid protein was expressed as a bacterial fusion protein which differed from the native protein only in the addition of six amino terminus histidine residues. Using RNA overlay protein blot assays, the recombinant protein was shown to bind to RNA fragments specific for the positive sense 3' noncoding end of the IBV genome. At greater concentrations of sodium chloride, the native and fusion nucleocapsid proteins similarly bound to G RNA, representing the terminal 1805 3' nt of the genome, whereas bovine serum albumin and allantoic fluid protein did not bind to labeled G RNA. Competitive gel shift assays with labeled G RNA indicated that the protein interacted with several unlabeled RNA representing sequences at the 3' noncoding end of the IBV genome. Cache Valley virus (a bunyavirus) mRNA transcribed from the small segment cDNA also inhibited the interaction with IBV G RNA to approximately the same extent as homologous unlabeled G RNA, whereas reactions with bovine liver RNA and yeast tRNA were considerably weaker. Whereas yeast tRNA did not inhibit the interaction with the labeled large G RNA, interactions of the fusion protein with EF, a region from 78 to 217 nt from the 3' terminus of the IBV genome, were also apparently weaker than interactions with fragment CD which consisted of the 3' terminal 155 nt. On a molar basis, the latter interacted in an identical nature to a RNA consisting of CD and an additional 1053 nt of plasmid sequences. Compared to bovine liver RNA, unlabeled G specifically inhibited binding to the two smaller labeled IBV fragments in gel shift assays. The binding of IBV nucleocapsid protein with RNA probably requires specific sequences and/or structures that are present on the genome, and may represent a common mechanism used by similar viral nucleoproteins whose functions depend on binding to RNA.
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