Peck, Scott C., Nühse, Thomas S., Hess, Daniel, Iglesias, Alejandro, Meins, Fred, Boller, Thomas
The perception of microbial signal molecules is part of the strategy evolved by plants to survive attacks by potential pathogens. To gain a more complete understanding of the early signaling events...
Phosphoproteomics of the Arabidopsis Plasma Membrane and a New Phosphorylation Site DatabaseW⃞
Nühse, Thomas S., Stensballe, Allan, Jensen, Ole N., Peck, Scott C.
Functional genomic technologies are generating vast amounts of data describing the presence of transcripts or proteins in plant cells. Together with classical genetics, these approaches broaden our...
Peck, Scott C., Nühse, Thomas S., Hess, Daniel, Iglesias, Alejandro, Meins, Fred, Boller, Thomas
The perception of microbial signal molecules is part of the strategy evolved by plants to survive attacks by potential pathogens. To gain a more complete understanding of the early signaling events...
Phosphoproteomics of the Arabidopsis Plasma Membrane and a New Phosphorylation Site DatabaseW⃞
Nühse, Thomas S., Stensballe, Allan, Jensen, Ole N., Peck, Scott C.
Functional genomic technologies are generating vast amounts of data describing the presence of transcripts or proteins in plant cells. Together with classical genetics, these approaches broaden our...
Kalde, Monika, Nühse, Thomas S., Findlay, Kim, Peck, Scott C.
In contrast to many mammalian pathogens, potential bacterial pathogens of plants remain outside the host cell. The plant must, therefore, promote an active resistance mechanism to combat the...
Nühse, Thomas S, Bottrill, Andrew R, Jones, Alexandra ME, Peck, Scott C
Advances in proteomic techniques have allowed the large-scale identification of phosphorylation sites in complex protein samples, but new biological insight requires an understanding of their in vivo...