AI Article Synopsis
- Coffee plants experience asynchronous flowering influenced by both internal and environmental factors, with anthesis occurring after rehydration following water stress.
- The study analyzed levels of hormones and enzymes associated with flowering in three coffee genotypes cultivated under field conditions, revealing increased ACC and decreased ACO activity and ethylene during re-watering.
- Results suggest that ACC may independently modulate the anthesis process in coffee, highlighting the complex interactions between hormones like ABA, ACO, and ethylene during flowering.
Article Abstract
Coffee ( L.) presents an asynchronous flowering regulated by an endogenous and environmental stimulus, and anthesis occurs once plants are rehydrated after a period of water deficit. We evaluated the evolution of Abscisic Acid (ABA), ethylene, 1-aminocyclopropane-1-carboxylate (ACC) content, ACC oxidase (ACO) activity, and expression analysis of the 1 () transporter, in the roots, leaves, and flower buds from three coffee genotypes ( L. cv Oeiras, Acauã, and Semperflorens) cultivated under field conditions with two experiments. In a third field experiment, the effect of the exogenous supply of ACC in coffee anthesis was evaluated. We found an increased ACC level, low ACO activity, decreased level of ethylene, and a decreased level of ABA in all tissues from the three coffee genotypes in the re-watering period just before anthesis, and a high expression of the in flower buds and leaves. The ethylene content and ACO activity decreased from rainy to dry period whereas the ABA content increased. A higher number of opened and G6 stage flower buds were observed in the treatment with exogenous ACC. The results showed that the interaction of ABA-ACO-ethylene and intercellular ACC transport among the leaves, buds, and roots in coffee favors an increased level of ACC that is most likely, involved as a modulator in coffee anthesis. This study provides evidence that ACC can play an important role independently of ethylene in the anthesis process in a perennial crop.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9019592 | PMC |
| http://dx.doi.org/10.3389/fpls.2022.824948 | DOI Listing |
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