PlantTFDB
Plant Transcription Factor Database
v4.0
Previous version: v1.0, v2.0, v3.0
Cannabis sativa
LBD Family
Species TF ID Description
PK00972.1LBD family protein
PK03075.1LBD family protein
PK03169.1LBD family protein
PK03977.1LBD family protein
PK04548.1LBD family protein
PK09808.1LBD family protein
PK11227.1LBD family protein
PK11564.1LBD family protein
PK13228.1LBD family protein
PK15647.1LBD family protein
PK17217.1LBD family protein
PK17217.2LBD family protein
PK18922.1LBD family protein
PK21510.1LBD family protein
PK21617.1LBD family protein
PK23185.1LBD family protein
PK23380.1LBD family protein
PK23777.1LBD family protein
PK23777.2LBD family protein
PK24670.1LBD family protein
PK24688.1LBD family protein
PK25573.1LBD family protein
PK26472.1LBD family protein
PK27389.1LBD family protein
PK29334.1LBD family protein
PK29811.1LBD family protein
LBD Family Introduction

The in vitro DNA-binding and heterologous transcriptional activation studies presented here indicate that the LBD protein family represents a new class of DNA-binding transcription factors that recognize the cis-element GCGGCG. The DNA-binding activity is present within the LOB domain, which is conserved throughout the 43 Arabidopsis family members as well as LBD proteins in other plant species.

the LBD genes encode a novel class of DNA-binding transcription factors. Post-translational regulation of transcription factors is often crucial for control of gene expression. In our study, we demonstrate that members of the basic helix-loop-helix (bHLH) family of transcription factors are capable of interacting with LOB. The expression patterns of bHLH048 and LOB overlap at lateral organ boundaries. Interestingly, the interaction of bHLH048 with LOB results in reduced affinity of LOB for the consensus DNA motif. Thus, our studies suggest that bHLH048 post-translationally regulates the function of LOB at lateral organ boundaries.

Aman Husbands, Elizabeth M. Bell, Bin Shuai, Harley M.S. Smith, and Patricia S. Springer.
LATERAL ORGAN BOUNDARIES defines a new family of DNA-binding transcription factors and can interact with specific bHLH proteins.
Nucleic Acids Res, 2007. 35(19): p. 6663-71.
PMID: 17913740