Peggy Moller
Overview
Explore the profile of Peggy Moller including associated specialties, affiliations and a list of published articles.
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Articles
12
Citations
974
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Recent Articles
1.
Grolla A, Jones S, Fernando L, Strong J, Stroher U, Moller P, et al.
PLoS Negl Trop Dis
. 2011 Jun;
5(5):e1183.
PMID: 21629730
Background: Marburg virus (MARV), a zoonotic pathogen causing severe hemorrhagic fever in man, has emerged in Angola resulting in the largest outbreak of Marburg hemorrhagic fever (MHF) with the highest...
2.
Marzi A, Moller P, Hanna S, Harrer T, Eisemann J, Steinkasserer A, et al.
J Infect Dis
. 2007 Dec;
196 Suppl 2:S237-46.
PMID: 17940955
Background: The lectin DC-SIGN (dendritic cell-specific intercellular adhesion molecule 3-grabbing nonintegrin) augments Ebola virus (EBOV) infection. However, it its unclear whether DC-SIGN promotes only EBOV attachment (attachment factor function, nonessential)...
3.
DiCarlo A, Moller P, Lander A, Kolesnikova L, Becker S
Virol J
. 2007 Oct;
4:105.
PMID: 17958906
The nucleoprotein (NP) of Marburg virus (MARV) is responsible for the encapsidation of viral genomic RNA and the formation of the helical nucleocapsid precursors that accumulate in intracellular inclusions in...
4.
Muller S, Moller P, Bick M, Wurr S, Becker S, Gunther S, et al.
J Virol
. 2006 Dec;
81(5):2391-400.
PMID: 17182693
The zinc finger antiviral protein (ZAP) was recently shown to inhibit Moloney murine leukemia virus and Sindbis virus replication. We tested whether ZAP also acts against Ebola virus (EBOV) and...
5.
Moller P, Pariente N, Klenk H, Becker S
J Virol
. 2005 Nov;
79(23):14876-86.
PMID: 16282487
The nucleocapsid protein VP35 of Marburgvirus, a filovirus, acts as the cofactor of the viral polymerase and plays an essential role in transcription and replication of the viral RNA. VP35...
6.
Bamberg S, Kolesnikova L, Moller P, Klenk H, Becker S
J Virol
. 2005 Oct;
79(21):13421-33.
PMID: 16227263
The highly pathogenic enveloped Marburg virus (MARV) is composed of seven structural proteins and the nonsegmented negative-sense viral RNA genome. Four proteins (NP, VP35, VP30, and L) make up the...
7.
Gramberg T, Hofmann H, Moller P, Lalor P, Marzi A, Geier M, et al.
Virology
. 2005 Jul;
340(2):224-36.
PMID: 16051304
Cellular attachment factors like the C-type lectins DC-SIGN and DC-SIGNR (collectively referred to as DC-SIGN/R) can augment viral infection and might promote viral dissemination in and between hosts. The lectin...
8.
Fowler T, Bamberg S, Moller P, Klenk H, Meyer T, Becker S, et al.
J Gen Virol
. 2005 Mar;
86(Pt 4):1181-1188.
PMID: 15784912
High mortality rates and lack of an available vaccine against Marburg haemorrhagic fever (MHF) highlight the need for a defensive therapy against MHF and greater knowledge of the causative agent,...
9.
Marzi A, Gramberg T, Simmons G, Moller P, Rennekamp A, Krumbiegel M, et al.
J Virol
. 2004 Oct;
78(21):12090-5.
PMID: 15479853
The lectins DC-SIGN and DC-SIGNR can augment viral infection; however, the range of pathogens interacting with these attachment factors is incompletely defined. Here we show that DC-SIGN and DC-SIGNR enhance...
10.
Garbutt M, Liebscher R, Wahl-Jensen V, Jones S, Moller P, Wagner R, et al.
J Virol
. 2004 Apr;
78(10):5458-65.
PMID: 15113924
Replication-competent recombinant vesicular stomatitis viruses (rVSVs) expressing the type I transmembrane glycoproteins and selected soluble glycoproteins of several viral hemorrhagic fever agents (Marburg virus, Ebola virus, and Lassa virus) were...