Publications by authors named "P Hilson"
Background: Even for easy-to-transform species or genotypes, the creation of transgenic or edited plant lines remains a significant bottleneck. Thus, any technical advance that accelerates the regeneration and transformation process is welcome. So far, methods to produce Brachypodium distachyon (Bd) transgenics span at least 14 weeks from the start of tissue culture to the recovery of regenerated plantlets.
View Article and Find Full Text PDFPlant somatic embryogenesis (SE) is a natural process of vegetative propagation. It can be induced in tissue cultures to investigate developmental transitions, to create transgenic or edited lines, or to multiply valuable crops. We studied the induction of SE in the scutellum of monocots with as a model system.
View Article and Find Full Text PDFRNA interference (RNAi) can be used for the protection against agricultural pests through the silencing of genes required for pest fitness. To assess the potential of RNAi approaches in the two-spotted spider mite, Tetranychus urticae, we compared 5 methods for the delivery of double-stranded RNA (dsRNA). These methods include mite feeding on either (i) leaves floating on a dsRNA solution, (ii) dsRNA-expressing plants, (iii) artificial diet supplemented with dsRNA, or (iv) dsRNA-coated leaves, and (v) mite soaking in a dsRNA solution.
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- The study explores how lateral root primordia (LRP) can be transformed into shoot meristems without forming callus structures, highlighting a unique identity switch in plants.
- This conversion process begins with a temporary halt in cell division and involves different expressions of root and shoot development regulators, specifically requiring apical stem cells and targeting LRP at certain developmental stages.
- By manipulating auxin and cytokinin levels, researchers discovered that the developmental pathways for root and shoot can interchangeably switch back and forth within specific growth periods, showcasing significant flexibility in plant stem cell functions.
Because the plant cell wall provides the first line of defense against biotic and abiotic assaults, its functional integrity needs to be maintained under stress conditions. Through a phenotype-based compound screening approach, we identified a novel cellulose synthase inhibitor, designated C17. C17 administration depletes cellulose synthase complexes from the plasma membrane in , resulting in anisotropic cell elongation and a weak cell wall.
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