Macarena Forner scite author profile

Macarena Forner

3Publications

49Citation Statements Received

51Citation Statements Given

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John Innes Centre, Norwich Research Park

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An Efficient Agrobacterium‐Mediated Transformation Protocol for Hexaploid and Tetraploid Wheat

et al. 2021

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Wheat, though a key crop plant with considerable influence on world food security, has nonetheless trailed behind other major cereals in the advancement of gene transformation technology for its improvement. New breeding technologies such as genome editing allow precise DNA manipulation, but their potential is limited by low regeneration efficiencies in tissue culture and the lack of transformable genotypes. We developed, in the hexaploid spring wheat cultivar "Fielder," a robust, reproducible Agrobacterium tumefaciens-mediated transformation system with transformation efficiencies of up to 33%. The system requires immature embryos as starting material and includes a centrifugation pretreatment before the inoculation with Agrobacterium. This high-throughput, highly efficient, and repeatable transformation system has been used effectively to introduce genes of interest for overexpression, RNA interference, and CRISPR-Cas-based genome editing. With slight modifications reported here, the standard protocol can be applied to the hexaploid wheat "Cadenza" and the tetraploid durum wheat "Kronos" with efficiencies of up to 4% and 10%, respectively. The system has also been employed to assess the developmental gene fusion GRF-GIF with outstanding results. In our hands, this technology combined with our transformation system improved transformation efficiency to 77.5% in Fielder. This combination should help alleviate the genotype dependence of wheat transformation, allowing new genome-editing tools to be used directly in more elite wheat varieties.

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Highly efficient genome editing in barley using novel LbCas12a variants and impact of sgRNA architecture

Lawrenson

Hinchliffe

Forner

et al. 2022

Preprint

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We report the first successful, high efficiency use of LbCas12a in barley and describe the development and application of two novel Cas12a variants. In total we compared five coding sequence (CDS) variants including the two novel ones and two guide architectures over 5 different target genes using twenty different guides. We found large differences in editing efficiencies between the different CDS versions (0-87%) and guide architectures (0-70%) and show our two novel CDS versions massively outperform the others on test in this species. We show heritability of mutations generated. Our findings highlight the importance of optimising CRISPR systems for individual species and are likely to aid the use of LbCas12a in other monocot species.

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Development of a highly efficient LbCas12a CRISPR system in barley with additional utility in Brassica oleracea

Lawrenson

Hinchliffe

Forner

et al. 2022

Preprint

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Macarena Forner

An Efficient Agrobacterium‐Mediated Transformation Protocol for Hexaploid and Tetraploid Wheat

Highly efficient genome editing in barley using novel LbCas12a variants and impact of sgRNA architecture

Development of a highly efficient LbCas12a CRISPR system in barley with additional utility in Brassica oleracea

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