|Tajima et al. (2004):||In Arabidopsis thaliana, a Histidine-to-Aspartate (His-->Asp) phosphorelay is involved in the signal transduction for propagation of certain stimuli, such as plant hormones. Through the phosphorelay, the type-B phospho-accepting response regulator (ARR) family members serve as DNA-binding transcriptional regulators, whose activities are most likely regulated by phosphorylation/dephosphorylation.|
|1)||Aoyama, T; Oka, A. 2003. Cytokinin signal transduction in plant cells. J. Plant Res. 116(3):221-31 PubMed|
|2)||D'Agostino, IB; Kieber, JJ. 1999. Phosphorelay signal transduction: the emerging family of plant response regulators. Trends Biochem. Sci. 24(11):452-6 PubMed|
|3)||Kakimoto, T. 2003. Perception and signal transduction of cytokinins. Annu Rev Plant Biol 54:605-27 PubMed|
|4)||Tajima, Y; Imamura, A; Kiba, T; Amano, Y; Yamashino, T; Mizuno, T. 2004. Comparative studies on the type-B response regulators revealing their distinctive properties in the His-to-Asp phosphorelay signal transduction of Arabidopsis thaliana. Plant Cell Physiol. 45(1):28-39 PubMed|
|Number of species containing the TAP:||104|
|Number of available proteins:||1099|
The colour code corresponds to the rules for the domains:
should not be contained
(Domain names are clickable)
Please note: One of the domains G2-like_Domain and Myb_DNA-binding are sufficient for a protein to be classified as TAP GARP_ARR-B.
Phylogenetic tree for Archeaplastida:
To view the tree click here.
The following table shows the distribution of GARP_ARR-B over all species included in TAPscan. The values for e.g. a specific kingdom are shown in the tree below if you expand the tree for that kingdom.