PlantTFDB
PlantRegMap/PlantTFDB v5.0
Plant Transcription Factor Database
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(e.g., LFY)
Genlisea aurea
NAC Family
Species TF ID Description
Genlisea aurea
(45)
EPS57631.1NAC family protein
EPS57769.1NAC family protein
EPS58964.1NAC family protein
EPS59021.1NAC family protein
EPS59231.1NAC family protein
EPS59407.1NAC family protein
EPS60726.1NAC family protein
EPS61345.1NAC family protein
EPS62083.1NAC family protein
EPS62404.1NAC family protein
EPS62577.1NAC family protein
EPS62860.1NAC family protein
EPS62927.1NAC family protein
EPS63500.1NAC family protein
EPS63592.1NAC family protein
EPS63665.1NAC family protein
EPS63677.1NAC family protein
EPS63856.1NAC family protein
EPS63951.1NAC family protein
EPS64303.1NAC family protein
EPS64902.1NAC family protein
EPS65413.1NAC family protein
EPS65686.1NAC family protein
EPS65703.1NAC family protein
EPS65704.1NAC family protein
EPS65849.1NAC family protein
EPS66983.1NAC family protein
EPS67020.1NAC family protein
EPS67213.1NAC family protein
EPS68202.1NAC family protein
EPS68229.1NAC family protein
EPS68490.1NAC family protein
EPS69041.1NAC family protein
EPS69130.1NAC family protein
EPS69330.1NAC family protein
EPS70002.1NAC family protein
EPS70298.1NAC family protein
EPS70444.1NAC family protein
EPS70863.1NAC family protein
EPS70912.1NAC family protein
EPS71066.1NAC family protein
EPS72463.1NAC family protein
EPS72690.1NAC family protein
EPS72933.1NAC family protein
EPS73268.1NAC family protein
NAC Family Introduction

NAM, ATAF, and CUC (NAC) transcription factors comprise a large protein family. Proteins of this family contain a highly conserved N-terminal DNA-binding domain and a variable C-terminal domain (Xie et al. 2000; Duval et al. 2002; Ernst et al. 2004; Olsen et al. 2005). NAC was originally derived from the names of three proteins, no apical meristem (NAM), ATAF1-2, and CUC2 (cup-shaped cotyledon), that contain a similar DNA-binding domain (Souer et al. 1996; Aida et al. 1997). The early reported NAC transcription factors are implicated in various aspects of plant development. A few examples are NAM from Petunia (Souer et al. 1996) and CUC1-2 (Aida et al. 1997) from Arabidopsis which have roles in controlling the formation of boundary cells of the meristem; NAP (Sablowski and Meyerowitz 1998) from Arabidopsis which acts as a target gene of AP3/PI and functions in the transition between cell division and cell expansion in stamens and petals; and AtNAC1 which mediates auxin signaling to promote lateral root development (Xie et al. 2000). Recently, a few NAC transcription factors were reported to play an essential role in regulating senescence, cell division, and wood formation (Ishida et al. 2000; Takada et al. 2001; Vroemen et al. 2003; Weir et al. 2004; Kubo et al. 2005; Kim et al. 2006; Zhong et al. 2006; Demura and Fukuda 2007; Ko et al. 2007; Mitsuda et al. 2007; Zhong et al. 2007).

NAM, ATAF, and CUC proteins were also found to participate in plant responses to pathogens, viral infections, and environmental stimuli (Xie et al. 1999; Ren et al. 2000; Collinge and Boller 2001; Kim et al. 2007). In Arabidopsis, three NAC genes, ANAC019, ANAC055, and ANAC072, were induced by drought, salinity, and/or low temperature (Tran et al. 2004), and the transgenic Arabidopsis plants overexpressing these genes showed improved stress tolerance compared to the wild type (Tran et al. 2004). Furthermore, proteins of these genes can bind to a ciselement containing CATGTG motif (Tran et al. 2004).

Fang Y, You J, Xie K, Xie W, Xiong L.
Systematic sequence analysis and identification of tissue-specific or stress-responsive genes of NAC transcription factor family in rice.
Mol Genet Genomics, 2008. 280(6): p. 547-63.
PMID: 18813954