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Project

Improving lateral root formation and propagation through cuttings in different tree species.

For most tree species, the root holds mainly one big taproot without many lateral roots (LRs). To increase the LR density, farmers perform root pruning, being labor-intensive. Next to this, propagation through cuttings, which is used to propagate trees when genetically identical trees are desired, is a process with frequently very low efficiencies. Interestingly, tree farmers noticed that the problems of limited LR formation and poor propagation co-occur. The Arabidopsis ERF115 transcription factor is a key molecular component that controls the replenishment of stem cells following wounding, playing an essential role in regeneration. Recently, I demonstrated that both ERF115 and its closest homolog, ERF114, control LR formation, both under control growth condition and following root pruning, without the need to induce wounding. Therefore, they represent interesting factors to tackle the problems of poor LR formation and propagation efficiency in tree species. Within this project, I aim to provide proof of concept for the use of ERF114 as a tool to stimulate LR formation and propagation in poplar. Additionally, through a chemical compound screen I will identify chemical activators of ERF114 activity and test them on a set of tree species.

Date:1 Nov 2020 →  4 Mar 2024
Keywords:Morus nigra, Arabidopsis thaliana, Morus alba macrofila, CRISPR/Cas9, Tilia cordata, Chemical compound screen, Regeneration, BiFC, Y2H, Lateral roots, Propagation through cuttings, Poplar, Tree
Disciplines:Plant genetics, Plant morphology, anatomy and physiology, Plant cell and molecular biology