artículo
The Glucose-Related Decrease in Polar Auxin Transport During Ripening and its Possible Role in Grapevine Berry Coloring
Fecha
2023Registro en:
10.1007/s00344-021-10553-6
1435-8107
0721-7595
Autor
Serrano, Alejandra
Kuhn, Nathalie
Restovic, Franko
Meyer-Regueiro, Carlos
Madariaga, Mónica
Arce Johnson, Jorge Patricio
Institución
Resumen
Auxin is a hormone that delays ripening in part by reducing anthocyanin content and impairing color development. Auxin content declines during the ripening process, whereas sugars accumulate from pre-veraison onwards. The spatio-temporal distribution of this hormone depends in part on polar auxin transport. On the other hand, sugar, acting as a signal molecule, modulates auxin distribution in model organisms; however, its efect on polar auxin transport during the coloring process in grapevine berries has not been investigated. To address this issue, we characterized auxin transport and sugar variations during the ripening process and performed treatments intended to alter auxin homeostasis in grape fruits. We found that polar auxin transport declines in concert with increasing sugar content prior to and at veraison. Moreover, N-1-napthylphthalamic acid (NPA; a polar auxin transport inhibitor) and glucose treatment increased berry coloration, reduced polar auxin transport and VvPIN1 transcript abundance at pre-veraison, and combined NPA and glucose treatment further increased berry color compared to glucose and NPA alone. Indole-3-acetic acid (IAA) treatment prevented the negative efect of glucose on auxin transport, suggesting that auxin homeostasis might be relevant for glucose modulation of berry ripening in grapevine. Impaired auxin transport is associated with increased ethylene sensitivity in several plant processes, including fruit abscission. For exploring a potential involvement of the ethylene pathway during the coloring process, we analyzed the transcript abundance of the putative ethylene receptor, VvETR2, a possible negative regulator of the ethylene pathway. We found that glucose plus NPA treatment reduced VvETR2 transcript abundance, whose expression is reported to decline from veraison onwards. Our results suggest a possible mechanism in which a rise in glucose contributes to auxin transport inhibition in coloring berries. As glucose has been reported to promote ripening and IAA inhibits berry coloring, our results further support an antagonistic switch between IAA and glucose, that could also involve changes in the expression of the VvETR2 gene