PlantTFDB - Plant Transcription Factor Database @ CBI, PKU

Plant Transcription Factor Database

Dichanthelium oligosanthes

C3H Family

Species	TF ID	Description
Dichanthelium oligosanthes (36)	Do000531.1	C3H family protein
	Do000835.1	C3H family protein
	Do001454.1	C3H family protein
	Do002984.1	C3H family protein
	Do003214.1	C3H family protein
	Do003424.1	C3H family protein
	Do003457.1	C3H family protein
	Do004618.1	C3H family protein
	Do004747.1	C3H family protein
	Do005210.1	C3H family protein
	Do006326.1	C3H family protein
	Do007027.1	C3H family protein
	Do008082.1	C3H family protein
	Do009506.1	C3H family protein
	Do011519.1	C3H family protein
	Do012762.1	C3H family protein
	Do013615.1	C3H family protein
	Do014210.1	C3H family protein
	Do014304.1	C3H family protein
	Do015230.1	C3H family protein
	Do015255.1	C3H family protein
	Do015990.1	C3H family protein
	Do017074.1	C3H family protein
	Do017526.1	C3H family protein
	Do017722.1	C3H family protein
	Do018203.1	C3H family protein
	Do018807.1	C3H family protein
	Do019191.1	C3H family protein
	Do019815.1	C3H family protein
	Do020011.1	C3H family protein
	Do020212.1	C3H family protein
	Do020641.1	C3H family protein
	Do023533.1	C3H family protein
	Do023798.1	C3H family protein
	Do028322.1	C3H family protein
	Do029743.1	C3H family protein

C3H Family Introduction

One gene isolated by virtual subtraction is PEI. It encodes a protein containing a Cys3His zinc finger domain associated with a number of animal and fungal transcription factors. In situ hybridization results showed that PEI1 is expressed throughout the embryo from globular to late cotyledon stage. Transgenic Arabidopsis plants expressing a PEI1 antisense gene produced white seeds in which embryo development did not progress through heart stage. Aberrant embryos failed to form cotyledons, but the embryonic root appeared to be normal. Aberrant embryos did not turn green, and the expression of genes involved in photomorphogenesis was drastically attenuated. In culture, aberrant embryos did not form true leaves, but root formation was apparently normal. These results suggest that PEI1 is an embryo-specific transcription factor that plays an important role during Arabidopsis embryogenesis, functioning primarily in the apical domain of the embryo.

we used a random binding site selection method to show that recombinant PEI1 protein purified from Escherichia coli can bind to specific DNA sequences. This DNA binding activity supports the prediction that PEI1 is an embryo-specific transcription factor.

Z Li and T L Thomas.
PEI1, an embryo-specific zinc finger protein gene required for heart-stage embryo formation in Arabidopsis.
Plant Cell, 1998. 10(3): p. 383-98.
PMID: 9501112