1. CRISPR-Cas9-mediated mutagenesis of kiwifruit BFT genes results in an evergrowing but not early flowering phenotype
- Author
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Dinum Herath, Charlotte Voogd, Matthew Mayo‐Smith, Bo Yang, Andrew C. Allan, Joanna Putterill, and Erika Varkonyi‐Gasic
- Subjects
Phenotype ,Gene Expression Regulation, Plant ,Mutagenesis ,Actinidia ,Plant Science ,Flowers ,Amino Acid Sequence ,CRISPR-Cas Systems ,Plants, Genetically Modified ,Agronomy and Crop Science ,Biotechnology ,Plant Proteins - Abstract
Phosphatidylethanolamine-binding protein (PEBP) genes regulate flowering and architecture in many plant species. Here, we study kiwifruit (Actinidia chinensis, Ac) PEBP genes with homology to BROTHER OF FT AND TFL1 (BFT). CRISPR-Cas9 was used to target AcBFT genes in wild-type and fast-flowering kiwifruit backgrounds. The editing construct was designed to preferentially target AcBFT2, whose expression is elevated in dormant buds. Acbft lines displayed an evergrowing phenotype and increased branching, while control plants established winter dormancy. The evergrowing phenotype, encompassing delayed budset and advanced budbreak after defoliation, was identified in multiple independent lines with edits in both alleles of AcBFT2. RNA-seq analyses conducted using buds from gene-edited and control lines indicated that Acbft evergrowing plants had a transcriptome similar to that of actively growing wild-type plants, rather than dormant controls. Mutations in both alleles of AcBFT2 did not promote flowering in wild-type or affect flowering time, morphology and fertility in fast-flowering transgenic kiwifruit. In summary, editing of AcBFT2 has the potential to reduce plant dormancy with no adverse effect on flowering, giving rise to cultivars better suited for a changing climate.
- Published
- 2022