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1.
Virus Res ; 167(1): 118-23, 2012 Jul.
Article in English | MEDLINE | ID: mdl-22808531

ABSTRACT

The aim of this study was to evaluate the contribution of positively charged amino acid residues for the Uukuniemi virus (UUKV) N protein functionality. Based on phlebovirus nucleocapsid (N) protein alignments and 3D-structure predictions of UUKV N protein, 14 positively charged residues were chosen as targets for the mutagenesis. The impact of mutations to the N protein functionality was analyzed using minigenome-, virus-like particle-, and mammalian two-hybrid-assays. Seven of the mutations affected the functional competence in all three assays, while others had milder impact or no impact at all. In the 3D-model of UUKV N protein, five of the affected residues, R61, R64, R73, R98 and R115, were located either within or in close proximity to the central cavity that could potentially bind RNA.


Subject(s)
Mutation , Nucleocapsid Proteins/genetics , Uukuniemi virus/genetics , Amino Acid Sequence , Amino Acids/chemistry , Amino Acids/genetics , Amino Acids/metabolism , DNA Mutational Analysis , Molecular Sequence Data , Nucleocapsid Proteins/chemistry , Nucleocapsid Proteins/metabolism , Phlebovirus/chemistry , Phlebovirus/genetics , Phlebovirus/metabolism , Sequence Alignment , Uukuniemi virus/chemistry , Uukuniemi virus/metabolism
2.
J Virol ; 81(20): 11381-91, 2007 Oct.
Article in English | MEDLINE | ID: mdl-17670814

ABSTRACT

Functional motifs within the cytoplasmic tails of the two glycoproteins G(N) and G(C) of Uukuniemi virus (UUK) (Bunyaviridae family) were identified with the help of our recently developed virus-like particle (VLP) system for UUK virus (A. K. Overby, V. Popov, E. P. Neve, and R. F. Pettersson, J. Virol. 80:10428-10435, 2006). We previously reported that information necessary for the packaging of ribonucleoproteins into VLPs is located within the G(N) cytoplasmic tail (A. K. Overby, R. F. Pettersson, and E. P. Neve, J. Virol. 81:3198-3205, 2007). The G(N) glycoprotein cytoplasmic tail specifically interacts with the ribonucleoproteins and is critical for genome packaging. In addition, two other regions in the G(N) cytoplasmic tail, encompassing residues 21 to 25 and 46 to 50, were shown to be important for particle generation and release. By the introduction of point mutations within these two regions, we demonstrate that leucines at positions 23 and 24 are crucial for the initiation of VLP budding, while leucine 46, glutamate 47, and leucine 50 are important for efficient exit from the endoplasmic reticulum and subsequent transport to the Golgi complex. We found that budding and particle generation are highly dependent on the intracellular localization of both glycoproteins. The short cytoplasmic tail of UUK G(C) contains a lysine at position -3 from the C terminus that is highly conserved among members of the Phlebovirus, Hantavirus, and Orthobunyavirus genera. Mutating this single amino acid residue in G(C) resulted in the mislocalization of not only G(C) but also G(N) to the plasma membrane, and VLP generation was compromised in cells expressing this mutant. Together, these results demonstrate that the cytoplasmic tails of both G(N) and G(C) contain specific information necessary for efficient virus particle generation.


Subject(s)
Glycoproteins/physiology , Uukuniemi virus/chemistry , Uukuniemi virus/physiology , Viral Proteins/physiology , Virion/physiology , Bunyaviridae , Cytoplasm , Viral Envelope Proteins/physiology
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