Sabrina R. Kramer scite author profile

The replicase protein of Tobacco mosaic virus (TMV) disrupts the localization and stability of interacting auxin/indole acetic acid (Aux/IAA) proteins in Arabidopsis, altering auxin-mediated gene regulation and promoting disease development (M. S. Padmanabhan, S. P. Goregaoker, S. Golem, H. Shiferaw, and J. N. Culver, J. Virol. 79:2549-2558, 2005). In this study, a similar replicase-Aux/IAA interaction affecting disease development was identified in tomato. The ability of the TMV replicase to interact with Aux/IAA proteins from diverse hosts suggests that these interactions contribute to the infection process. To examine the role of this interaction in virus pathogenicity, the replication and spread of a TMV mutant with a reduced ability to interact with specific Aux/IAA proteins were examined. Within young (4-to 6-week-old) leaf tissue, there were no significant differences in the abilities of Aux/IAA-interacting or -noninteracting viruses to replicate and spread. In contrast, in mature (10-to 12-week-old) leaf tissue, the inability to interact with specific Aux/IAA proteins correlated with a significant reduction in virus accumulation. Correspondingly, interacting Aux/IAA levels are significantly higher in older tissue and the overaccumulation of a degradation-resistant Aux/IAA protein reduced virus accumulation in young leaf tissue. Combined, these findings suggest that TMV replicase-Aux/IAA interactions selectively enhance virus pathogenicity in tissues where Aux/IAA proteins accumulate. We speculate that the virus disrupts Aux/IAA functions as a means to reprogram the cellular environment of older cells to one that is more compatible for virus replication and spread.

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Association of the Tobacco mosaic virus 126kDa replication protein with a GDI protein affects host susceptibility

Kramer

Goregaoker

Culver

2011

Virology

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An interaction between the Tobacco mosaic virus (TMV) 126kDa replication protein and a host-encoded Rab GDP dissociation inhibitor (GDI2) was identified and investigated for its role in infection. GDI proteins are essential components of vesicle trafficking pathways. TMV infection alters the localization of GDI2 from the cytoplasm to ER-associated complexes. Partial silencing of GDI2 results in significant increases in the number of TMV infection foci observed in inoculated tissues. However, GDI2 silencing does not affect TMV accumulation at the infection site, cell-to-cell movement, or susceptibility of the host to mechanical inoculation. Furthermore, increases in the number of successful infection foci were specific to TMV and correlated with the appearance of vesicle-like rearrangements in the vacuolar membrane. Tissue infiltrations with brefeldin A, an inhibitor of vesicle trafficking, also enhanced host susceptibility to TMV. Combined these findings suggest that the 126kDa-GDI2 interaction alters vesicle trafficking to enhance the establishment of an infection.

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Expectations of computing and other STEM students: A comparison for different Class Levels, or (CSE &#x2260; STEM - CSE)&#x007C;<inf>course level</inf>

Badawy

Schmitt

Kramer

et al. 2013

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Sabrina R. Kramer

Tobacco Mosaic VirusReplicase-Auxin/Indole Acetic Acid Protein Interactions: Reprogramming the Auxin Response Pathway To Enhance Virus Infection

Association of the Tobacco mosaic virus 126kDa replication protein with a GDI protein affects host susceptibility

Expectations of computing and other STEM students: A comparison for different Class Levels, or (CSE &#x2260; STEM - CSE)&#x007C;<inf>course level</inf>

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Sabrina R. Kramer

Tobacco Mosaic VirusReplicase-Auxin/Indole Acetic Acid Protein Interactions: Reprogramming the Auxin Response Pathway To Enhance Virus Infection

Association of the Tobacco mosaic virus 126kDa replication protein with a GDI protein affects host susceptibility

Expectations of computing and other STEM students: A comparison for different Class Levels, or (CSE &amp;#x2260; STEM - CSE)&amp;#x007C;<inf>course level</inf>

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Expectations of computing and other STEM students: A comparison for different Class Levels, or (CSE ≠ STEM - CSE)|<inf>course level</inf>