Auxin plays a key role in lateral root formation, but the signaling pathway for this process is poorly understood. We show here that NAC1, a new member of the NAC family, is induced by auxin and mediates auxin signaling to promote lateral toot development. NAC1 is a transcription activator consisting of an N-terminal conserved NAG-domain that binds to DNA and a C-terminal activation domain. This faster activates the expression of two downstream auxin-responsive genes, DBP and AIR3. Transgenic plants expressing sense or antisense NAC1: cDNA show an increase or reduction of lateral roots, respectively. finally, TIR1-induced lateral root development is blocked by expression of antisense NAC1 cDNA, and NAC1 overexpression can restore lateral root formation in the auxin-response mutant tir1, indicating that NAC1 acts downstream of TIR1.
Arabidopsis NAC1 transduces auxin signal downstream of TIR1 to promote lateral root development
Giovanna Frugis;
2000
Abstract
Auxin plays a key role in lateral root formation, but the signaling pathway for this process is poorly understood. We show here that NAC1, a new member of the NAC family, is induced by auxin and mediates auxin signaling to promote lateral toot development. NAC1 is a transcription activator consisting of an N-terminal conserved NAG-domain that binds to DNA and a C-terminal activation domain. This faster activates the expression of two downstream auxin-responsive genes, DBP and AIR3. Transgenic plants expressing sense or antisense NAC1: cDNA show an increase or reduction of lateral roots, respectively. finally, TIR1-induced lateral root development is blocked by expression of antisense NAC1 cDNA, and NAC1 overexpression can restore lateral root formation in the auxin-response mutant tir1, indicating that NAC1 acts downstream of TIR1.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
