Modifying Anthocyanins Biosynthesis in Tomato Hairy Roots: A Test Bed for Plant Resistance to Ionizing Radiation and Antioxidant Properties in Space

Silvia Massa; Riccardo Pagliarello; Alessia Cemmi; Ilaria Di Sarcina; Aureliano Bombarely; Olivia Costantina Demurtas; Gianfranco Diretto; Francesca Paolini; H Earl Petzold; Mattijs Bliek; Elisabetta Bennici; Antonella Del Fiore; Patrizia De Rossi; Cornelis Spelt; Ronald Koes; Francesca Quattrocchio; Eugenio Benvenuto

doi:10.3389/fpls.2022.830931

Modifying Anthocyanins Biosynthesis in Tomato Hairy Roots: A Test Bed for Plant Resistance to Ionizing Radiation and Antioxidant Properties in Space

Front Plant Sci. 2022 Feb 24:13:830931. doi: 10.3389/fpls.2022.830931. eCollection 2022.

Authors

Silvia Massa¹, Riccardo Pagliarello^{1

2}, Alessia Cemmi³, Ilaria Di Sarcina³, Aureliano Bombarely⁴, Olivia Costantina Demurtas¹, Gianfranco Diretto¹, Francesca Paolini⁵, H Earl Petzold⁶, Mattijs Bliek⁷, Elisabetta Bennici¹, Antonella Del Fiore⁸, Patrizia De Rossi⁹, Cornelis Spelt⁷, Ronald Koes⁷, Francesca Quattrocchio⁷, Eugenio Benvenuto¹

Affiliations

¹ Department for Sustainability, Biotechnology and Agro-Industry Division - Biotec Laboratory, Italian National Agency for New Technologies, Energy and Sustainable Economic Development, Rome, Italy.
² Department of Agriculture and Forest Sciences, University of Tuscia, Viterbo, Italy.
³ Fusion and Nuclear Safety Technologies Department, Italian National Agency for New Technologies, Energy and Sustainable Economic Development, Rome, Italy.
⁴ Department of Biosciences, University of Milan, Milan, Italy.
⁵ 'Regina Elena' National Cancer Institute, HPV-UNIT, Department of Research, Advanced Diagnostic and Technological Innovation, Translational Research Functional Departmental Area, Rome, Italy.
⁶ School of Plants and Environmental Sciences, Virginia Tech, Blacksburg, VA, United States.
⁷ Department of Plant Development and (Epi)Genetics, Swammerdam Institute for Life Sciences, University of Amsterdam, Amsterdam, Netherlands.
⁸ Department for Sustainability, Biotechnology and Agro-Industry Division - Agrifood Sustainability, Quality, and Safety Laboratory, Italian National Agency for New Technologies, Energy and Sustainable Economic Development, Rome, Italy.
⁹ Energy Efficiency Unit Department - Northern Area Regions Laboratory, Casaccia Research Center, Italian National Agency for New Technologies, Energy and Sustainable Economic Development, Rome, Italy.

Abstract

Gene expression manipulation of specific metabolic pathways can be used to obtain bioaccumulation of valuable molecules and desired quality traits in plants. A single-gene approach to impact different traits would be greatly desirable in agrospace applications, where several aspects of plant physiology can be affected, influencing growth. In this work, MicroTom hairy root cultures expressing a MYB-like transcription factor that regulates the biosynthesis of anthocyanins in Petunia hybrida (PhAN4), were considered as a testbed for bio-fortified tomato whole plants aimed at agrospace applications. Ectopic expression of PhAN4 promoted biosynthesis of anthocyanins, allowing to profile 5 major derivatives of delphinidin and petunidin together with pelargonidin and malvidin-based anthocyanins, unusual in tomato. Consistent with PhAN4 features, transcriptomic profiling indicated upregulation of genes correlated to anthocyanin biosynthesis. Interestingly, a transcriptome reprogramming oriented to positive regulation of cell response to biotic, abiotic, and redox stimuli was evidenced. PhAN4 hairy root cultures showed the significant capability to counteract reactive oxygen species (ROS) accumulation and protein misfolding upon high-dose gamma irradiation, which is among the most potent pro-oxidant stress that can be encountered in space. These results may have significance in the engineering of whole tomato plants that can benefit space agriculture.

Keywords: MicroTom; agrospace; anthocyanins; biofortification; gamma radiation; hairy root cultures.