|Bernadt et al. (2005):||NF-Y is a bifunctional transcription factor capable of activating or repressing transcription. NF-Y specifically recognizes CCAAT box motifs present in many eukaryotic promoters. The mechanisms involved in regulating its activity are poorly understood.|
|1)||Zanetti, ME; Rípodas, C; Niebel, A. 2017. Plant NF-Y transcription factors: Key players in plant-microbe interactions, root development and adaptation to stress. Biochim Biophys Acta. 1860(5):645-654 PubMed|
|2)||Lang, D; Weiche, B; Timmerhaus, G; Richardt, S; Riano-Pachon, DM; Correa, LG; Reski, R; Mueller-Roeber, B; Rensing, SA. 2010. Genome-wide phylogenetic comparative analysis of plant transcriptional regulation: a timeline of loss, gain, expansion, and correlation with complexity. Genome Biol Evol. 2: 488-503 PubMed|
|3)||Bernadt, CT; Nowling, T; Wiebe, MS; Rizzino, A. 2005. NF-Y behaves as a bifunctional transcription factor that can stimulate or repress the FGF-4 promoter in an enhancer-dependent manner. Gene Expr. 12(3):193-212 PubMed|
|4)||Li, XY; Mantovani, R; Hooft van Huijsduijnen, R; Andre, I; Benoist, C; Mathis, D. 1992. Evolutionary variation of the CCAAT-binding transcription factor NF-Y. Nucleic Acids Res. 20(5):1087-91 PubMed|
|Number of species containing the TAP:||117|
|Number of available proteins:||1193|
The colour code corresponds to the rules for the domains:
should not be contained
(Domain names are clickable)
Phylogenetic tree for Archeaplastida:
To view the tree click here.
The following table shows the distribution of CCAAT_HAP5 (NF-YC) 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.