Slow release of a synthetic auxin induces formation of adventitious roots in recalcitrant woody plants

Ohad Roth¹, Sela Yechezkel², Ori Serero^{2

3}, Avi Eliyahu^{2

3}, Inna Vints¹, Pan Tzeela^{2

3}, Alberto Carignano⁴, Dorina P Janacek⁵, Verena Peters⁶, Amit Kessel⁷, Vikas Dwivedi², Mira Carmeli-Weissberg², Felix Shaya², Adi Faigenboim-Doron², Kien Lam Ung⁸, Bjørn Panyella Pedersen⁸, Joseph Riov³, Eric Klavins⁴, Corinna Dawid⁶, Ulrich Z Hammes⁵, Nir Ben-Tal⁷, Richard Napier⁹, Einat Sadot¹⁰, Roy Weinstain¹¹

Affiliations

¹ School of Plant Sciences and Food Security, Faculty of Life Sciences, Tel Aviv University, Tel Aviv, Israel.
² The Institute of Plant Sciences, The Volcani Center, Ministry of Agriculture and Rural Development, Rishon LeZion, Israel.
³ The Robert H. Smith Institute of Plant Sciences and Genetics in Agriculture, The Robert H. Smith Faculty of Agriculture, Food and Environment, The Hebrew University of Jerusalem, Rehovot, Israel.
⁴ Department of Electrical and Computer Engineering, University of Washington, Seattle, WA, USA.
⁵ Chair of Plant Systems Biology, Technical University of Munich, Freising, Germany.
⁶ Chair of Food Chemistry and Molecular and Sensory Science, Technical University of Munich, Freising, Germany.
⁷ Department of Biochemistry and Molecular BiologySchool of Neurobiology, Biochemistry & Biophysics, Faculty of Life Sciences, Tel Aviv University, Tel Aviv, Israel.
⁸ Department of Molecular Biology and Genetics, Aarhus University, Aarhus, Denmark.
⁹ School of Life Sciences, University of Warwick, Coventry, UK.
¹⁰ The Institute of Plant Sciences, The Volcani Center, Ministry of Agriculture and Rural Development, Rishon LeZion, Israel. vhesadot@volcani.agri.gov.il.
¹¹ School of Plant Sciences and Food Security, Faculty of Life Sciences, Tel Aviv University, Tel Aviv, Israel. royweinstain@tauex.tau.ac.il.

PMID: 38267759
DOI: 10.1038/s41587-023-02065-3

Slow release of a synthetic auxin induces formation of adventitious roots in recalcitrant woody plants

Ohad Roth et al. Nat Biotechnol. 2024 Nov.

. 2024 Nov;42(11):1705-1716.

doi: 10.1038/s41587-023-02065-3. Epub 2024 Jan 24.

Authors

Affiliations

¹ School of Plant Sciences and Food Security, Faculty of Life Sciences, Tel Aviv University, Tel Aviv, Israel.
² The Institute of Plant Sciences, The Volcani Center, Ministry of Agriculture and Rural Development, Rishon LeZion, Israel.
³ The Robert H. Smith Institute of Plant Sciences and Genetics in Agriculture, The Robert H. Smith Faculty of Agriculture, Food and Environment, The Hebrew University of Jerusalem, Rehovot, Israel.
⁴ Department of Electrical and Computer Engineering, University of Washington, Seattle, WA, USA.
⁵ Chair of Plant Systems Biology, Technical University of Munich, Freising, Germany.
⁶ Chair of Food Chemistry and Molecular and Sensory Science, Technical University of Munich, Freising, Germany.
⁷ Department of Biochemistry and Molecular BiologySchool of Neurobiology, Biochemistry & Biophysics, Faculty of Life Sciences, Tel Aviv University, Tel Aviv, Israel.
⁸ Department of Molecular Biology and Genetics, Aarhus University, Aarhus, Denmark.
⁹ School of Life Sciences, University of Warwick, Coventry, UK.
¹⁰ The Institute of Plant Sciences, The Volcani Center, Ministry of Agriculture and Rural Development, Rishon LeZion, Israel. vhesadot@volcani.agri.gov.il.
¹¹ School of Plant Sciences and Food Security, Faculty of Life Sciences, Tel Aviv University, Tel Aviv, Israel. royweinstain@tauex.tau.ac.il.

PMID: 38267759
DOI: 10.1038/s41587-023-02065-3

Abstract

Clonal propagation of plants by induction of adventitious roots (ARs) from stem cuttings is a requisite step in breeding programs. A major barrier exists for propagating valuable plants that naturally have low capacity to form ARs. Due to the central role of auxin in organogenesis, indole-3-butyric acid is often used as part of commercial rooting mixtures, yet many recalcitrant plants do not form ARs in response to this treatment. Here we describe the synthesis and screening of a focused library of synthetic auxin conjugates in Eucalyptus grandis cuttings and identify 4-chlorophenoxyacetic acid-L-tryptophan-OMe as a competent enhancer of adventitious rooting in a number of recalcitrant woody plants, including apple and argan. Comprehensive metabolic and functional analyses reveal that this activity is engendered by prolonged auxin signaling due to initial fast uptake and slow release and clearance of the free auxin 4-chlorophenoxyacetic acid. This work highlights the utility of a slow-release strategy for bioactive compounds for more effective plant growth regulation.

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Conflict of interest statement

Competing interests The authors declare no competing interests.

References

1. Verstraeten, I., Schotte, S. & Geelen, D. Hypocotyl adventitious root organogenesis differs from lateral root development. Front. Plant Sci. 5, 495 (2014). - PubMed - PMC - DOI
1. Hartmann, H. T., Kester, D. E., Davis, F. T., Geneve, R. L. & Wilson, S. B. Hartmann & Kester’s Plant Propagation: Principles and Practices (Pearson, 2017).
1. Poethig, R. S. Phase change and the regulation of shoot morphogenesis in plants. Science 250, 923–930 (1990). - PubMed - DOI
1. Pijut, P. M., Woeste, K. E. & Michler, C. H. Promotion of adventitious root formation of difficult-to-root hardwood tree species. Hortic. Rev. 38, 213 (2011).
1. Hackett, W. P. Juvenility, maturation, and rejuvenation in woody plants. Hortic. Rev. 7, 109–154 (2011).

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Slow release of a synthetic auxin induces formation of adventitious roots in recalcitrant woody plants

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Slow release of a synthetic auxin induces formation of adventitious roots in recalcitrant woody plants

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