Abstract

We have recently identified four proteins which interact with a protein binding element [3'(+)42 element] contained within the last 42 nucleotides of the mouse hepatitis virus genome. In this application we propose to examine the interaction of these four proteins, mitochondrial HSP70 (mtHSP70), mitochondrial aconitase (m-aconitase), HSP60, and HSP40, with MHV RNA. We will employ fluorescence resonance energy trar_sfer (FRET), immuno-electron microscopy, and cell permeant cross-linking studies to verify that the interaction of these proteins with MHV RNA takes place in intact cells. We will undertake a series of biochemical studies to determine if the MHV RNA interacts with mtHSP70, m-aconitase, and HSP60 prior to the importation of these proteins into mitochondria, or alternatively, if these MHV RNA interacting proteins are exported from mitochondria. We will also determine if mitochondrial function is altered during MHV infection. To better characterize the structural basis for these interactions we will perform a series of experiments to map the residues of m-aconitase, mtHSP70, HSP60, and HSP40 which are in contact with the MHV 3'(+)42 protein binding element. We will subsequently carry out a series of mutagenesis experiments to map residues of these proteins required for RNA binding. A second line of mutagenesis experiments will more precisely define the sequence requirements of the RNA for protein binding. We have determined that these proteins interact during binding, thus dominant negative mutants will be particularly sought. We have determined that mtHSP70 is tyrosine phosphorylated, and that the phosphorylation state of the MHV 3'(+)42 binding proteins regulates their binding the MHV 3'(+)42 element. We will perform a series of pharmacologic and genetic manipulations to investigate the role of tyrosine phosphorylation in regulating the interaction of these proteins with MHV RNA. The functional significance of the interaction of mtHSP70, m-aconitase, HSP60, and HSP40 with MHV RNA on virus replication will be examined in a series of experiments employing mutational and over-expression strategies.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI051493-05
Application #
7159356
Study Section
Special Emphasis Panel (ZRG1-VR (03))
Program Officer
Park, Eun-Chung
Project Start
2003-07-01
Project End
2008-12-31
Budget Start
2007-01-01
Budget End
2008-12-31
Support Year
5
Fiscal Year
2007
Total Cost
$241,430
Indirect Cost

  Institution

Name
Texas A&M University
Department
Pathology
Type
Schools of Medicine
DUNS #
835607441
City
College Station
State
TX
Country
United States
Zip Code
77845

  Publications

Yang, Dong; Liu, Pinghua; Wudeck, Elyse V et al. (2015) SHAPE analysis of the RNA secondary structure of the Mouse Hepatitis Virus 5' untranslated region and N-terminal nsp1 coding sequences. Virology 475:15-27
Yang, Dong; Liu, Pinghua; Giedroc, David P et al. (2011) Mouse hepatitis virus stem-loop 4 functions as a spacer element required to drive subgenomic RNA synthesis. J Virol 85:9199-209
Liu, Pinghua; Li, Lichun; Keane, Sarah C et al. (2009) Mouse hepatitis virus stem-loop 2 adopts a uYNMG(U)a-like tetraloop structure that is highly functionally tolerant of base substitutions. J Virol 83:12084-93
Li, Lichun; Kang, Hyojeung; Liu, Pinghua et al. (2008) Structural lability in stem-loop 1 drives a 5'UTR-3'UTR interaction in coronavirus replication. J Mol Biol 377:790-803
Kang, Hyojeung; Bhardwaj, Kanchan; Li, Yi et al. (2007) Biochemical and genetic analyses of murine hepatitis virus Nsp15 endoribonuclease. J Virol 81:13587-97
Liu, Pinghua; Li, Lichun; Millership, Jason J et al. (2007) A U-turn motif-containing stem-loop in the coronavirus 5'untranslated region plays a functional role in replication. RNA 13:763-80
De Albuquerque, Nadine; Baig, Ehtesham; Ma, Xuezhong et al. (2006) Murine hepatitis virus strain 1 produces a clinically relevant model of severe acute respiratory syndrome in A/J mice. J Virol 80:10382-94
Liu, Pinghua; Millership, Jason J; Li, Lichun et al. (2006) A previously unrecognized UNR stem-loop structure in the coronavirus 5' untranslated region plays a functional role in replication. Adv Exp Med Biol 581:25-30
Kang, Hyojeung; Feng, Min; Schroeder, Megan E et al. (2006) Putative cis-acting stem-loops in the 5' untranslated region of the severe acute respiratory syndrome coronavirus can substitute for their mouse hepatitis virus counterparts. J Virol 80:10600-14
Kang, Hyojeung; Feng, Min; Schroeder, Meagan E et al. (2006) Stem-loop 1 in the 5' UTR of the SARS coronavirus can substitute for its counterpart in mouse hepatitis virus. Adv Exp Med Biol 581:105-8

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