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Abstract
Perception of the plant hormone ethylene is essential to initiate and advance ripening of climacteric fruits. Since ethylene receptors negatively regulate signaling, the suppression is canceled upon ethylene binding, permitting responses including fruit ripening. Although receptors have autophosphorylation activity, the mechanism whereby signal transduction occurs has not been fully determined. Here we demonstrate that LeETR4, a critical receptor for tomato (Solanum lycopersicum) fruit ripening, is multiply phosphorylated in vivo and the phosphorylation level is dependent on ripening stage and ethylene action. Treatment of preclimacteric fruits with ethylene resulted in accumulation of LeETR4 with reduced phosphorylation whereas treatments of ripening fruits with ethylene antagonists, 1-methylcyclopropene and 2,5-norbornadiene, induced accumulation of the phosphorylated isotypes. A similar phosphorylation pattern was also observed for Never ripe, another ripening-related receptor. Alteration in the phosphorylation state of receptors is likely to be an initial response upon ethylene binding since treatments with ethylene and 1-methylcyclopropene rapidly influenced the LeETR4 phosphorylation state rather than protein abundance. The LeETR4 phosphorylation state closely paralleled ripening progress, suggesting that the phosphorylation state of receptors is implicated in ethylene signal output in tomato fruits. We provide insights into the nature of receptor on and off states.
Highlights
Perception of the plant hormone ethylene is essential to initiate and advance ripening of climacteric fruits
Based on the observations that LeETR4 is highly or intermediately phosphorylated at the preclimacteric stages but minimally phosphorylated or nonphosphorylated after ripening initiation (Fig. 1), the isotypes with minimal and no phosphorylation presumably correspond to the off state of the receptor. This idea is supported by the results in which ethylene treatment of preclimacteric fruits resulted in accumulation of LeETR4 with reduced phosphorylation (Fig. 2)
Previous studies have indicated that 1-MCP and NBD bind to receptors (Sisler and Yang, 1984; Sisler and Serek, 1997), preventing ethylene binding and locking the receptor in the on state, a subsequent molecular event has not been elucidated
Summary
Perception of the plant hormone ethylene is essential to initiate and advance ripening of climacteric fruits. Since ethylene receptors negatively regulate signaling, the suppression is canceled upon ethylene binding, permitting responses including fruit ripening. We demonstrate that LeETR4, a critical receptor for tomato (Solanum lycopersicum) fruit ripening, is multiply phosphorylated in vivo and the phosphorylation level is dependent on ripening stage and ethylene action. Alteration in the phosphorylation state of receptors is likely to be an initial response upon ethylene binding since treatments with ethylene and 1-methylcyclopropene rapidly influenced the LeETR4 phosphorylation state rather than protein abundance. Ripening of climacteric fruits in particular is profoundly controlled by ethylene action, and the mechanism of this control has been intensively investigated in a number of species, most notably tomato (Solanum lycopersicum), an important model for the study of fleshy fruit development. It is likely that ethylene binding to the receptors alters kinase activity in vivo, modulating signal output
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