Christenhusz and Byng. The number of known plants species in the world and its annual increase. Phytotaxa, 2016; 261(3): 201–217.
2.
Fanget al.Exploring the Diversity of Plant Metabolism. Trends Plant Sci., 2019; 24(1): 83–98.
3.
Food and Agricultural Organization of the United Nations. Once neglected, these traditional crops are our new rising stars. Published: October2, 2018. Accessed: September 12, 2022. https://www.fao.org/fao-stories/article/en/c/1154584/.
4.
Sunet al.Twenty years of plant genome sequencing: achievements and challenges. Trends Plant Sci., 2022; 27(4): 391–401.
5.
Barba-Espinet al.Ethephon-induced changes in antioxidants and phenolic compounds in anthocyanin-producing black carrot hairy root cultures. J. Exp. Bot., 2020; 71(22): 7030–7045.
6.
Carlinet al.Effects of different culture media and conditions on biomass production of hairy root cultures in six Mexican cactus species. In Vitro Cell. Dev. Biol.-Plant. 2015; 51(3): 332–339.
7.
Häkkinenet al.Molecular farming in tobacco hairy roots by triggering the secretion of a pharmaceutical antibody. Biotechnol. Bioeng., 2014; 111(2): 336–346.
8.
Parkin-Pariziet al. Impact of different culture media on hairy roots growth of Valeriana officinalis L. Acta Agric. Slov. 2014; 103(2): 299–305.
9.
Thimmaraju. Bioreactor for cultivation of red beet hairy roots and in situ recovery of primary and secondary metabolites. Eng. Life Sci., 2009; 9(3): 227–238.
10.
Urbanskaet al. The growth and saponin production of Platycodon grandiflorum (Jacq.) A. DC. (Chinese bellflower) hairy roots cultures maintained in shake flasks and mist bioreactor. Acta. Soc. Bot. Pol., 2014; 83(3): 229–237.
11.
Jinet al.Secondary Metabolites Profiled in Cannabis Inflorescences, Leaves, Stem Barks, and Roots for Medicinal Purposes. Sci. Rep., 2020; 10: 3309.
