AI Article Synopsis
- Fruit maturation and softening significantly affect the shelf-life of climacteric tomatoes, with ethylene being a crucial factor in this process.
- The study identified two related proteins, SlACO1 and SlE8, which are highly expressed during ripening but did not find natural mutations that impair their functions.
- By using TILLING techniques, potential alleles (slaco1-1, slaco1-2, sle8-1, sle8-2) for improving shelf-life and ripening speed in tomatoes were identified, emphasizing the roles of SlACO1 and SlE8 in ethylene production for post-harvest management.
Article Abstract
Fruit maturation and softening are critical traits that control fruit shelf-life. In the climacteric tomato (Solanum lycopersicum L.) fruit, ethylene plays a key role in fruit ripening and softening. We characterized two related proteins with contrasting impact on ethylene production, ACC oxidase 1 (SlACO1) and SlE8. We found SlACO1 and SlE8 to be highly expressed during fruit ripening. To identify loss-of-function alleles, we analysed the tomato genetic diversity but we did not find any natural mutations impairing the function of these proteins. We also found the two loci evolving under purifying selection. To engineer hypomorphic alleles, we used TILLING (target-induced local lesions in genomes) to screen a tomato ethylmethane sulfonate-mutagenized population. We found 13 mutants that we phenotyped for ethylene production, shelf-life, firmness, conductivity, and soluble solid content in tomato fruits. The data demonstrated that slaco1-1 and slaco1-2 alleles could be used to improve fruit shelf-life, and that sle8-1 and sle8-2 alleles could be used to accelerate ripening. This study highlights further the importance of SlACO1 and SlE8 in ethylene production in tomato fruit and how they might be used for post-harvest fruit preservation or speeding up fruit maturation.
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| http://dx.doi.org/10.1093/jxb/erab330 | DOI Listing |
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