DESCRIPTION:Martin & Paz-Ares. 1997: The cloning of the first transcription factor from plants, the C1 gene of maize, indicated that plants use transcription factors that are structurally related to those of animals in their control of gene expression, because C1 showed significant structural homology to the vertebrate cellular proto-oncogene c-MYB. Since 1987, the catalogue of MYB-related transcription factors has increased considerably in size due, primarily, to the ever-expanding number of MYB genes identified in higher plants (Arabidopsis thaliana is estimated to contain more than a hundred MYB genes). In vertebrates, the MYB-related proto-oncogenes comprise a small family with a central role in controlling cellular proliferation and commitment to development. However, while the functions of some plant MYB genes are relatively well understood they are, at present, quite distinct from their animal counterparts.
Members of this family
SHOULD possess Myb_DNA-binding domain
SHOULD NOT possess ARID G2-like Response_reg SNF2_N trihelix domains
References
Jin, H; Martin, C. 1999. Multifunctionality and diversity within the plant MYB-gene family. Plant Mol. Biol. 41(5):577-85 PUBMEDID:10645718
Klempnauer, KH; Sippel, AE. 1987. The highly conserved amino-terminal region of the protein encoded by the v-myb oncogene functions as a DNA-binding domain. EMBO J. 6(9):2719-25 PUBMEDID:2824190
Martin, C; Paz-Ares, J. 1997. MYB transcription factors in plants. Trends Genet. 13(2):67-73 PUBMEDID:9055608