YouTube: Plant interaction with friendly microo...

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From www.youtube.com - November 8, 2012 4:34 AM

In two papers to be published in Current Biology, researchers from JIC and The Sainsbury Laboratory on the Norwich Research Park, and Rothamsted Research and the University of York identify genes that help plants interact with microbes in the soil.

Professor Giles Oldroyd of the John Innes Centre explains how plant roots form beneficial interactions with soil microbes. Almost all plants associate with mycorrhizal fungi to help in the uptake of nutrients such as phosphate. Some plants, particularly legumes, also associate with bacteria that ‘fix’ atmospheric nitrogen into a form the plant can use as fertiliser.

These two interactions are mediated within the plant by a common signalling pathway. The researchers have identified a specific mycorrhizal transcription factor. They also show how the signalling pathway has been recruited by pathogenic microbes, presenting a challenge to the plant. Its ability to form beneficial interactions can leave it vulnerable to invasion by pathogens.

Wang, E., Schornack, S., Marsh, J.F., Gobbato, E., Schwessinger, B., Eastmond, P., Schultze, M., Kamoun, S., and Oldroyd, G.E.D. (2012). A common signaling process that promotes mycorrhizal and oomycete colonization of plants. Curr. Biol. http://dx.doi.org/10.1016/j.cub.2012.09.043

Gobbato, E., Marsh, J.F., Vernie´ , T., Wang, E., Maillet, F., Kim, J., Miller, J.B., Sun, J., Bano, S.A., Ratet, P., et al. (2012). A GRAS-type transcription factor with a specific function in mycorrhizal signalling. Curr. Biol. http://dx.doi.org/10.1016/j.cub

Via Kamoun Lab @ TSL

Role of actin cytoskeleton in brassinosteroid signaling and in its integration with the auxin response in plants (Developmental Cell) | plant cell genetics | Scoop.it

From www.cell.com - July 16, 2012 3:06 PM

In plants, developmental programs and tropisms are modulated by the phytohormone auxin. Auxin reconfigures the actin cytoskeleton, which controls polar localization of auxin transporters such as PIN2 and thus determines cell-type-specific responses. In conjunction with a second growth-promoting phytohormone, brassinosteroid (BR), auxin synergistically enhances growth and gene transcription. We show that BR alters actin configuration and PIN2 localization in a manner similar to that of auxin. We describe a BR constitutive-response mutant that bears an allele of the ACTIN2 gene and shows altered actin configuration, PIN2 delocalization, and a broad array of phenotypes that recapitulate BR-treated plants. Moreover, we show that actin filament reconfiguration is sufficient to activate BR signaling, which leads to an enhanced auxin response. Our results demonstrate that the actin cytoskeleton functions as an integration node for the BR signaling pathway and auxin responsiveness.

Via GMI Vienna, PMG

plant cell genetics

YouTube: Plant interaction with friendly microorganisms gives pathogens their break (2012)

Role of actin cytoskeleton in brassinosteroid signaling and in its integration with the auxin response in plants (Developmental Cell)