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Full-Text Articles in Life Sciences
Serine/Threonine Acetylation Of Tgfbeta-Activated Kinase (Tak1) By Yersinia Pestis Yopj Inhibits Innate Immune Signaling, Nicholas Paul Paquette, Joseph E. Conlon, Charles R. Sweet, Florentina Rus, Lindsay Wilson, Andrea J. Pereira, Charles V. Rosadini, Nadege Goutagny, Alexander N. R. Weber, William S. Lane, Scott A. Shaffer, Stephanie Maniatis, Katherine A. Fitzgerald, Lynda M. Stuart, Neal S. Silverman
Serine/Threonine Acetylation Of Tgfbeta-Activated Kinase (Tak1) By Yersinia Pestis Yopj Inhibits Innate Immune Signaling, Nicholas Paul Paquette, Joseph E. Conlon, Charles R. Sweet, Florentina Rus, Lindsay Wilson, Andrea J. Pereira, Charles V. Rosadini, Nadege Goutagny, Alexander N. R. Weber, William S. Lane, Scott A. Shaffer, Stephanie Maniatis, Katherine A. Fitzgerald, Lynda M. Stuart, Neal S. Silverman
Neal Silverman
The Gram-negative bacteria Yersinia pestis, causative agent of plague, is extremely virulent. One mechanism contributing to Y. pestis virulence is the presence of a type-three secretion system, which injects effector proteins, Yops, directly into immune cells of the infected host. One of these Yop proteins, YopJ, is proapoptotic and inhibits mammalian NF-kappaB and MAP-kinase signal transduction pathways. Although the molecular mechanism remained elusive for some time, recent work has shown that YopJ acts as a serine/threonine acetyl-transferase targeting MAP2 kinases. Using Drosophila as a model system, we find that YopJ inhibits one innate immune NF-kappaB signaling pathway (IMD) but not …
Fighting Infection Fly-Style, Louisa Wu, Neal S. Silverman
Fighting Infection Fly-Style, Louisa Wu, Neal S. Silverman
Neal Silverman
No abstract provided.
Hormonal Regulation Of The Humoral Innate Immune Response In Drosophila Melanogaster, Thomas Flatt, Andreas Heyland, Florentina Rus, Ermelinda Porpiglia, Chris Sherlock, Rochele Yamamoto, Alina Garbuzov, Subba R. Palli, Marc Tatar, Neal S. Silverman
Hormonal Regulation Of The Humoral Innate Immune Response In Drosophila Melanogaster, Thomas Flatt, Andreas Heyland, Florentina Rus, Ermelinda Porpiglia, Chris Sherlock, Rochele Yamamoto, Alina Garbuzov, Subba R. Palli, Marc Tatar, Neal S. Silverman
Neal Silverman
Juvenile hormone (JH) and 20-hydroxy-ecdysone (20E) are highly versatile hormones, coordinating development, growth, reproduction and aging in insects. Pulses of 20E provide key signals for initiating developmental and physiological transitions, while JH promotes or inhibits these signals in a stage-specific manner. Previous evidence suggests that JH and 20E might modulate innate immunity, but whether and how these hormones interact to regulate the immune response remains unclear. Here we show that JH and 20E have antagonistic effects on the induction of antimicrobial peptide (AMP) genes in Drosophila melanogaster. 20E pretreatment of Schneider S2 cells promoted the robust induction of AMP genes, …