Double CRISPR knockout of pectin degrading enzymes improves tomato shelf‐life while ensuring fruit quality

Ortega‐Salazar, Isabel; Crum, Daphne; Sbodio, Adrian O.; Sugiyama, Yuko; Adaskaveg, Adam; Wang, Duoduo; Seymour, Graham B.; Li, Xueqi; Wang, Selina C.; Blanco‐Ulate, Barbara

doi:10.1002/ppp3.10445

Plants People Planet

2023

DOI: 10.1002/ppp3.10445

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Double CRISPR knockout of pectin degrading enzymes improves tomato shelf‐life while ensuring fruit quality

Isabel Ortega‐Salazar,

Daphne Crum,

Adrian O. Sbodio

et al.

Abstract: Social Impact StatementTomato fruit is an important and popular commodity producing $95.62 billion worldwide. Tomato fruit losses in the supply chain vary between 25% and 42% depending on the production area and the availability of postharvest technologies. For many decades, conventional tomato breeding programs have focused on extending the shelf‐life of fresh‐market varieties. However, in many instances, consumer‐based quality traits were not considered a priority. Consumers are now demanding safe, nutrient‐… Show more

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Cited by 4 publications

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Policy influence 2024: Building societal impact at Plants, People, Planet

Hiscock,

Lennon,

Young

2024

Plants People Planet

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Policy influence 2024: Building societal impact at Plants, People, Planet

Hiscock,

Lennon,

Young

2024

Plants People Planet

View full text Add to dashboard Cite

Insights into the cell-wall dynamics in grapevine berries during ripening and in response to biotic and abiotic stresses

Malacarne,

Lagreze,

Rojas San Martin

et al. 2024

Plant Mol Biol

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The cell wall (CW) is the dynamic structure of a plant cell, acting as a barrier against biotic and abiotic stresses. In grape berries, the modifications of pulp and skin CW during softening ensure flexibility during cell expansion and determine the final berry texture. In addition, the CW of grape berry skin is of fundamental importance for winemaking, controlling secondary metabolite extractability. Grapevine varieties with contrasting CW characteristics generally respond differently to biotic and abiotic stresses. In the context of climate change, it is important to investigate the CW dynamics occurring upon different stresses, to define new adaptation strategies. This review summarizes the molecular mechanisms underlying CW modifications during grapevine berry fruit ripening, plant-pathogen interaction, or in response to environmental stresses, also considering the most recently published transcriptomic data. Furthermore, perspectives of new biotechnological approaches aiming at modifying the CW properties based on other crops’ examples are also presented.

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The relationship between cell wall and postharvest physiological deterioration of fresh produce

Li,

Rosado-Souza,

Sampathkumar

et al. 2024

Plant Physiology and Biochemistry

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Double CRISPR knockout of pectin degrading enzymes improves tomato shelf‐life while ensuring fruit quality

Cited by 4 publications

References 39 publications

Policy influence 2024: Building societal impact at Plants, People, Planet

Policy influence 2024: Building societal impact at Plants, People, Planet

Insights into the cell-wall dynamics in grapevine berries during ripening and in response to biotic and abiotic stresses

The relationship between cell wall and postharvest physiological deterioration of fresh produce

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