High Photosynthetic Rates in a Solanum pennellii Chromosome 2 QTL Is Explained by Biochemical and Photochemical Changes

Lana-Costa, Jaciara; Silva, Franklin Magnum de Oliveira; Batista‐Silva, Willian; Carolino, Diego Costa; Senra, Renato Lima; Medeiros, David B.; Martins, Samuel C. V.; Gago, Jorge; Araújo, Wagner L.; Nunes‐Nesi, Adriano

doi:10.3389/fpls.2020.00794

Cited by 3 publications

(2 citation statements)

References 96 publications

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“…However, four of the BC 1 F 2 industrial processing and four of the fresh consumption progenies maintained A equal to their wild parent and higher to their commercial parents under drought, indicating a great tolerance potential on these progenies. In fact, introgression lines obtained from crossings between other commercial S. lycopersicum genotypes with S. pennellii have been also related to increased photosynthesis (Lana-Costa et al, 2020). Furthermore, stomatal closure is one of the first responses of tomatoes to drought, resulting in lower transpiration and CO 2 uptake and consequently, reducing photosynthesis (Hasanagi c et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

Selection for drought tolerance in backcross populations derived from interspecific crosses of Solanum lycopersicum × Solanum pennellii

Henschel,

Batista,

de Souza de Voltare

et al. 2023

Plant Breeding

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Drought strongly limits tomato yield, and the introgression of genes from wild tomatoes is a powerful tool to obtain drought‐tolerant progenies. The aim of this study was to select drought‐tolerant transgressive progeny obtained from interspecific crosses between drought‐susceptible tomatoes (Solanum lycopersicum) × drought‐tolerant wild species (Solanum pennellii) under in vitro and greenhouse conditions. BC1F2 populations were advanced from backcrosses between F1 × Jumbo AG‐592 (cultivar for fresh consumption) and F1 × BRS Tospodoro (cultivar for industrial processing). For this, BC1F2 seeds were germinated in vitro and evaluated for tolerance to drought. Then, eight genotypes from each BC1F2 were selected and submitted to 14 days of drought (0% of water supply) or well‐watered (100% of water supply) in greenhouse conditions and evaluated for growth, water balance and gas exchanges. Using in vitro assays with mannitol‐induced drought proved to be effective for the initial screening of drought‐tolerant BC1F2 plants, while greenhouse experiments showed that drought decreased photosynthesis in all genotypes, but almost all the BC1F2 progenies had greater photosynthetic capacity, water balance and growth than their commercial parents. As a result, we selected six progenies for fresh consumption and six progenies for industrial processing with increased drought tolerance.

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Section: Discussionmentioning

confidence: 99%

Selection for drought tolerance in backcross populations derived from interspecific crosses of Solanum lycopersicum × Solanum pennellii

Henschel,

Batista,

de Souza de Voltare

et al. 2023

Plant Breeding

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“…This work in wheat and rice is promising, demonstrating the potential for breeding new varieties better adapted to changing growth conditions, however it is unclear if such strategies will work in horticultural crops. In the case of tomato, there is considerable variation within the wild and elite varieties to suggest that such breeding strategies could be used to enhanced yield and quality [ 109 , 110 ]. See Sharwood et al [ 111 ] for review ( Figure 3 ).…”

Section: Impact Of Elevated [Co 2 ] On Yield and Q...mentioning

confidence: 99%

Feeding the world: impacts of elevated [CO2] on nutrient content of greenhouse grown fruit crops and options for future yield gains

Doddrell

Lawson

Raines

et al. 2023

Horticulture Research

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Several long-term studies have provided strong support demonstrating that growing crops under elevated [CO2] can increase photosynthesis and result in an increase in yield, flavour and nutritional content (including but not limited to Vitamins C, E and pro-vitamin A). In the case of tomato, increases in yield by as much as 80 % are observed when plants are cultivated at 1000ppm [CO2], which is consistent with current commercial greenhouse production methods in the tomato fruit industry. These results provide a clear demonstration of the potential for elevating [CO2] for improving yield and quality in greenhouse crops. The major focus of this review is to bring together 50 years of observations evaluating the impact of elevated [CO2] on fruit yield and fruit nutritional quality. In the final section, we consider the need to engineer improvements to photosynthesis and nitrogen assimilation to allow plants to take greater advantage of elevated CO2 growth conditions.

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Mining for allelic gold: finding genetic variation in photosynthetic traits in crops and wild relatives

Sharwood

Quick

Sargent

et al. 2022

Journal of Experimental Botany

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Improvement of photosynthetic traits in crops to increase yield potential and crop resilience has recently become a major breeding target. Synthetic biology and genetic technologies offer unparalleled opportunities to create new genetics for photosynthetic traits driven by existing fundamental knowledge. However, large “gene bank” collections of germplasm comprising of historical collections of crop species and their relatives offer a wealth of opportunities to find novel allelic variation in the key steps of photosynthesis, to identify new mechanisms and to accelerate genetic progress in crop breeding programs. Here we explore the available genetic resources in food and fibre crops, strategies to selectively target allelic variation in genes underpinning key photosynthetic processes and deployment of this variation via gene editing in modern elite material

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High Photosynthetic Rates in a Solanum pennellii Chromosome 2 QTL Is Explained by Biochemical and Photochemical Changes

Cited by 3 publications

References 96 publications

Selection for drought tolerance in backcross populations derived from interspecific crosses of Solanum lycopersicum × Solanum pennellii

Selection for drought tolerance in backcross populations derived from interspecific crosses of Solanum lycopersicum × Solanum pennellii

Feeding the world: impacts of elevated [CO2] on nutrient content of greenhouse grown fruit crops and options for future yield gains

Mining for allelic gold: finding genetic variation in photosynthetic traits in crops and wild relatives

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