Background: The transcription factor DOF AFFECTING GERMINATION1 (DAG1) is a repressor of seed germination acting downstream of the master repressor PHYTOCROME INTERACTING FACTOR3-LIKE 5 (PIL5). Among others, PIL5 induces the expression of the genes encoding the two DELLA proteins GA INSENSITIVE 1 (GAI) and REPRESSOR OF ga1-3 (RGA). Results: Based on the properties of gai-t6 and rga28 mutant seeds, we show here that the absence of RGA severely increases dormancy, while lack of GAI only partially compensates RGA inactivation. In addition, the germination properties of the dag1rga28 double mutant are different from those of the dag1 and rga28 single mutants, suggesting that RGA and DAG1 act in independent branches of the PIL5-controlled germination pathway. Surprisingly, the dag1gai-t6 double mutant proved embryo-lethal, suggesting an unexpected involvement of (a possible complex between) DAG1 and GAI in embryo development. Conclusions: Rather than overlapping functions as previously sugg
BACKGROUND: The transcription factor DOF AFFECTING GERMINATION1 (DAG1) is a repressor of seed germination acting downstream of the master repressor PHYTOCROME INTERACTING FACTOR3-LIKE 5 (PIL5). Among others, PIL5 induces the expression of the genes encoding the two DELLA proteins GA INSENSITIVE 1 (GAI) and REPRESSOR OF ga1-3 (RGA). RESULTS: Based on the properties of gai-t6 and rga28 mutant seeds, we show here that the absence of RGA severely increases dormancy, while lack of GAI only partially compensates RGA inactivation. In addition, the germination properties of the dag1rga28 double mutant are different from those of the dag1 and rga28 single mutants, suggesting that RGA and DAG1 act in independent branches of the PIL5-controlled germination pathway. Surprisingly, the dag1gai-t6 double mutant proved embryo-lethal, suggesting an unexpected involvement of (a possible complex between) DAG1 and GAI in embryo development. CONCLUSIONS: Rather than overlapping functions as previously suggested, we show that RGA and GAI play distinct roles in seed germination, and that GAI interacts with DAG1 in embryo development.
Independent and interactive effects of DOF AFFECTING GERMINATION 1 (DAG1) and the DELLA proteins GA INSENSITIVE (GAI) and REPRESSOR OF ga1-3 (RGA) in embryo development and seed germination / Boccaccini, Alessandra; Santopolo, Silvia; Capauto, Davide; Lorrai, Riccardo; Emanuele, Minutello; Katia, Belcram; Jean Cristophe Palauqui, ; Costantino, Paolo; Vittorioso, Paola. - In: BMC PLANT BIOLOGY. - ISSN 1471-2229. - STAMPA. - 14:1(2014), pp. 200-211. [10.1186/s12870-014-0200-z]
Independent and interactive effects of DOF AFFECTING GERMINATION 1 (DAG1) and the DELLA proteins GA INSENSITIVE (GAI) and REPRESSOR OF ga1-3 (RGA) in embryo development and seed germination
BOCCACCINI, ALESSANDRA;SANTOPOLO, SILVIA;Davide Capauto;LORRAI, RICCARDO;COSTANTINO, Paolo;VITTORIOSO, Paola
2014
Abstract
Background: The transcription factor DOF AFFECTING GERMINATION1 (DAG1) is a repressor of seed germination acting downstream of the master repressor PHYTOCROME INTERACTING FACTOR3-LIKE 5 (PIL5). Among others, PIL5 induces the expression of the genes encoding the two DELLA proteins GA INSENSITIVE 1 (GAI) and REPRESSOR OF ga1-3 (RGA). Results: Based on the properties of gai-t6 and rga28 mutant seeds, we show here that the absence of RGA severely increases dormancy, while lack of GAI only partially compensates RGA inactivation. In addition, the germination properties of the dag1rga28 double mutant are different from those of the dag1 and rga28 single mutants, suggesting that RGA and DAG1 act in independent branches of the PIL5-controlled germination pathway. Surprisingly, the dag1gai-t6 double mutant proved embryo-lethal, suggesting an unexpected involvement of (a possible complex between) DAG1 and GAI in embryo development. Conclusions: Rather than overlapping functions as previously suggI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.