URMC / Labs / Ward Lab / Publications Publications Baker JLWard BM Development and comparison of a quantitative TaqMan-MGB real-time PCR assay to three other methods of quantifying vaccinia virions.; Journal of virological methods; Vol 196. 2014 Feb. Hollenbaugh JAGee PBaker JDaly MBAmie SMTate JKasai NKanemura YKim DHWard BMKoyanagi YKim B Host factor SAMHD1 restricts DNA viruses in non-dividing myeloid cells.; PLoS pathogens; Vol 96. 2013. Chan WMWard BM The A33-dependent incorporation of B5 into extracellular enveloped vaccinia virions is mediated through an interaction between their lumenal domains.; Journal of virology; Vol 8615. 2012 Aug. Chan WMWard BM Increased interaction between vaccinia virus proteins A33 and B5 is detrimental to infectious extracellular enveloped virion production.; Journal of virology; Vol 8615. 2012 Aug. Chen GWard BMYu KHChinchar VGRobert J Improved knockout methodology reveals that frog virus 3 mutants lacking either the 18K immediate-early gene or the truncated vIF-2alpha gene are defective for replication and growth in vivo.; Journal of virology; Vol 8521. 2011 Nov. Ward BM The taking of the cytoskeleton one two three: how viruses utilize the cytoskeleton during egress.; Virology; Vol 4112. 2011 Mar 15. Chan WMKalkanoglu AEWard BM The inability of vaccinia virus A33R protein to form intermolecular disulfide-bonded homodimers does not affect the production of infectious extracellular virus.; Virology; Vol 4081. 2010 Dec 5. Chan WMWard BM There is an A33-dependent mechanism for the incorporation of B5-GFP into vaccinia virus extracellular enveloped virions.; Virology; Vol 4021. 2010 Jun 20. Lee HYTopham DJPark SYHollenbaugh JTreanor JMosmann TRJin XWard BMMiao HHolden-Wiltse JPerelson ASZand MWu H Simulation and prediction of the adaptive immune response to influenza A virus infection.; Journal of virology; Vol 8314. 2009 Jul. Johnston SCWard BM Vaccinia virus protein F12 associates with intracellular enveloped virions through an interaction with A36.; Journal of virology; Vol 834. 2009 Feb. Ward BM Using fluorescent proteins to study poxvirus morphogenesis.; Methods in molecular biology (Clifton, N.J.); Vol 515. 2009. Earley AKChan WMWard BM The vaccinia virus B5 protein requires A34 for efficient intracellular trafficking from the endoplasmic reticulum to the site of wrapping and incorporation into progeny virions.; Journal of virology; Vol 825. 2008 Mar. Ward BM The longest micron; transporting poxviruses out of the cell.; Cellular microbiology; Vol 711. 2005 Nov. Ward BM Visualization and characterization of the intracellular movement of vaccinia virus intracellular mature virions.; Journal of virology; Vol 798. 2005 Apr. Senkevich TGWard BMMoss B Vaccinia virus A28L gene encodes an essential protein component of the virion membrane with intramolecular disulfide bonds formed by the viral cytoplasmic redox pathway.; Journal of virology; Vol 785. 2004 Mar. Senkevich TGWard BMMoss B Vaccinia virus entry into cells is dependent on a virion surface protein encoded by the A28L gene.; Journal of virology; Vol 785. 2004 Mar. Ward BMMoss B Vaccinia virus A36R membrane protein provides a direct link between intracellular enveloped virions and the microtubule motor kinesin.; Journal of virology; Vol 785. 2004 Mar. Ward BM Pox, dyes, and videotape: making movies of GFP-labeled vaccinia virus.; Methods in molecular biology (Clifton, N.J.); Vol 269. 2004. Katz EWard BMWeisberg ASMoss B Mutations in the vaccinia virus A33R and B5R envelope proteins that enhance release of extracellular virions and eliminate formation of actin-containing microvilli without preventing tyrosine phosphorylation of the A36R protein.; Journal of virology; Vol 7722. 2003 Nov. Ward BMWeisberg ASMoss B Mapping and functional analysis of interaction sites within the cytoplasmic domains of the vaccinia virus A33R and A36R envelope proteins.; Journal of virology; Vol 777. 2003 Apr. Lazarowitz SGMcGarry RCHill JEBarron YDGold DCarvalho MFSanderfoot AAWard BM Macromolecular trafficking within and between plant cells as revealed by virus movement proteins.; In Biology of Plant-Microbe Interactions vol. 3. (Sally A. Leong, Caitilyn Allen, and Eric W. Triplett, eds.). 2002 Jan 01. Ward BMMoss B Vaccinia virus intracellular movement is associated with microtubules and independent of actin tails.; Journal of virology; Vol 7523. 2001 Dec. Moss BWard BM High-speed mass transit for poxviruses on microtubules.; Nature cell biology; Vol 311. 2001 Nov. Ward BMMoss B Visualization of intracellular movement of vaccinia virus virions containing a green fluorescent protein-B5R membrane protein chimera.; Journal of virology; Vol 7510. 2001 May. Ward BMMoss B Golgi network targeting and plasma membrane internalization signals in vaccinia virus B5R envelope protein.; Journal of virology; Vol 748. 2000 Apr. Ward BMLazarowitz SG Nuclear export in plants. Use of geminivirus movement proteins for a cell-based export assay.; Plant Cell. 1999 Jan 01. Qin SWard BMLazarowitz SG The bipartite geminivirus coat protein aids BR1 function in viral movement by affecting the accumulation of viral single-stranded DNA.; Journal of virology; Vol 7211. 1998 Nov. Lazarowitz SGWard BMSanderfoot AALaukaitis CM Intercellular and intracellular trafficking: What we can learn from geminivirus movement. In Cellular Integration of Signal Pathways in Plants.; NATO Advanced Study Institute Series, Vol. H 104. (F.Lo Schiavo, R.L. Last, G.Morelli, and N.V. Raikhel ed.).; Vol pp. 275-288.. 1998 Jan 01. Ward BMMedville RLazarowitz SGTurgeon R The geminivirus BL1 movement protein is associated with endoplasmic reticulum-derived tubules in developing phloem cells.; Journal of virology; Vol 715. 1997 May. Pascal ESanderfoot AAWard BMMedville RTurgeon RLazarowitz SG The geminivirus BR1 movement protein binds single-stranded DNA and localizes to the cell nucleus.; The Plant cell; Vol 67. 1994 Jul.