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SlATG8f enhances tomato thermotolerance and fruit quality via autophagy and HS pathways

Authors: Cheng, q., Xu, w., wen, c., He, Z., Song, L.

Date: 2025-09-25 · Version: 1
DOI: 10.1101/2025.09.23.678159

Category: Plant Biology

Model Organism: Solanum lycopersicum

AI Summary

The researchers created tomato lines overexpressing the autophagy gene SlATG8f and evaluated their performance under high-temperature stress. qRT‑PCR and physiological measurements revealed that SlATG8f overexpression enhances expression of autophagy‑related and heat‑shock protein genes, accelerates fruit ripening, and improves fruit quality under heat stress.

SlATG8f autophagy high-temperature stress tomato fruit quality

Introducing furanocoumarin biosynthetic genes in tomato results in coumarins accumulation and impacted growth

Authors: Bouille, A., Villard, C., Galati, G., Roumani, M., Fauvet, A., Grosjean, J., Hoengenaert, L., Boerjan, W., Ralph, J., Hilliou, F., Robin, C., Hehn, A., Larbat, R.

Date: 2025-07-08 · Version: 1
DOI: 10.1101/2025.07.07.663522

Category: Plant Biology

Model Organism: Solanum lycopersicum

AI Summary

The study engineered the linear furanocoumarin pathway in tomato by integrating four biosynthetic genes, aiming to produce psoralen, but instead generated coumarins such as scopoletin. Morphophysiological, metabolomic, and transcriptomic analyses revealed that even low levels of these coumarins can influence plant growth and physiology, highlighting both benefits and costs of coumarin accumulation in crops.

metabolic engineering linear furanocoumarin pathway coumarins tomato metabolomics