Effects of Culture Period and Plant Growth Regulators on In Vitro Biomass Production and Phenolic Compounds in Seven Species of Hypericum

Doina Clapa¹, Monica Hârţa¹, Ana Maria Radomir², Adrian George Peticilă³, Loredana Leopold⁴, Floricuţa Ranga⁴, Dorin Ioan Sumedrea²

Affiliations

¹ Faculty of Horticulture and Business in Rural Development, University of Agricultural Sciences and Veterinary Medicine of Cluj-Napoca, 400372 Cluj-Napoca, Romania.
² National Research and Development Institute for Biotechnology in Horticulture Ștefănești-Argeș, 117715 Ștefănești, Romania.
³ Faculty of Horticulture, University of Agronomic Sciences and Veterinary Medicine of Bucharest, 011464 Bucharest, Romania.
⁴ Faculty of Food Science and Technology, University of Agricultural Sciences and Veterinary Medicine of Cluj-Napoca, 400372 Cluj-Napoca, Romania.

PMID: 40805786
PMCID: PMC12349193
DOI: 10.3390/plants14152437

Effects of Culture Period and Plant Growth Regulators on In Vitro Biomass Production and Phenolic Compounds in Seven Species of Hypericum

Doina Clapa et al. Plants (Basel). 2025.

. 2025 Aug 6;14(15):2437.

doi: 10.3390/plants14152437.

Authors

Doina Clapa¹, Monica Hârţa¹, Ana Maria Radomir², Adrian George Peticilă³, Loredana Leopold⁴, Floricuţa Ranga⁴, Dorin Ioan Sumedrea²

Affiliations

¹ Faculty of Horticulture and Business in Rural Development, University of Agricultural Sciences and Veterinary Medicine of Cluj-Napoca, 400372 Cluj-Napoca, Romania.
² National Research and Development Institute for Biotechnology in Horticulture Ștefănești-Argeș, 117715 Ștefănești, Romania.
³ Faculty of Horticulture, University of Agronomic Sciences and Veterinary Medicine of Bucharest, 011464 Bucharest, Romania.
⁴ Faculty of Food Science and Technology, University of Agricultural Sciences and Veterinary Medicine of Cluj-Napoca, 400372 Cluj-Napoca, Romania.

PMID: 40805786
PMCID: PMC12349193
DOI: 10.3390/plants14152437

Abstract

This study evaluated biomass accumulation and phenolic compound production in seven Hypericum species (H. androsaemum, H. calycinum, H. hirsutum, H. kalmianum, H. olympicum, H. perforatum, and H. triquetrifolium) cultivated in vitro under varying growth regulator treatments and culture periods. Shoots were grown on Murashige and Skoog (MS) medium supplemented with benzyladenine (BA) or meta-topoline (mT) and analyzed after 40 and 60 days. MS medium supplemented with 0.2 mg/L BA was the most effective condition for promoting biomass across all species, with shoot fresh weight increasing significantly at 60 days, particularly in H. olympicum, H. perforatum, and H. triquetrifolium. High-performance liquid chromatography coupled with diode array detection and electrospray ionization mass spectrometry (HPLC-DAD-ESI-MS) identified 13 phenolic compounds, including flavonols, hydroxycinnamic acids, anthocyanins, phloroglucinols, and naphthodianthrones. Phenolic profiles were species-specific and influenced by culture period. H. kalmianum accumulated the highest total phenolic content (37.6 mg/g DW), while H. olympicum was the top producer of hypericin and pseudohypericin. These results highlight the crucial role of culture conditions in regulating both biomass and phytochemical production and provide a promising approach for producing bioactive metabolites in Hypericum species through in vitro systems.

Keywords: HPLC; benzyladenine; bioactive compounds; hypericin; naphthodianthrones; shoots culture.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

**Figure 1**
Morphology of cluster shoots from *Hypericum* species in vitro cultures in Murashige and Skoog medium supplemented with 0.2 mg/L 6-benzyladenine after a 60-day growth cycle: (a)—*H. androsaemum*; (b)—*H. calycinum*; (c)—*H. hirsutum*; (d)—*H. kalmianum*; (e)—*H. olimpicum*; (f)—*H. perforatum*; (g)—*H. triquetrifolium*.

**Figure 2**
Representative HPLC-DAD profiles of methanolic extracts from (a) *H. olympicum* (60 days, highest hypericin content) and (b) *H. kalmianum* (60 days, highest total phenolic content). Peak numbers correspond to the identified compounds listed in Table 4.

**Figure 3**
Individual phenolic compound content of seven *Hypericum* species biomass extracts cultivated in vitro for 40 and 60 days on MS + 0.2 mg/L BA: (a)—3-Caffeoylquinic acid; (b)—cyanidin-glucoside (c)—cyanidin-rhamnoside; (d)—hyperforin; (e)—protopseudohypericin; (f)—pseudohypericin; (g)—quercetin-galactoside; (h)—quercetin-rhamnoside; (i)—hyperfirin; (j)—adhyperforin; (k)—adhyperfirin; (l)—quercetin; (m)—hypericin; (n)—total phenolic compound. HPLC-DAD-MS-ESI was used for the analysis, and the values are expressed as milligrams per gram of dry weight ± standard error (mg/g DW ± SE). The bars marked with different lowercase letters denote significant differences between samples at p < 0.05.

**Figure 4**
Heat map showing the content of each phenolic compound in the biomass extracts of seven *Hypericum* species at two different culture periods (40 and 60 days) on MS + 0.2 mg/L BA. The color intensity in each cell corresponds to the concentration of the respective phenolic compound, with a gradient ranging from black (lowest concentration) to red (intermediate concentration) to purple/blue (highest concentration).

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Effects of Culture Period and Plant Growth Regulators on In Vitro Biomass Production and Phenolic Compounds in Seven Species of Hypericum

Affiliations

Effects of Culture Period and Plant Growth Regulators on In Vitro Biomass Production and Phenolic Compounds in Seven Species of Hypericum

Authors

Affiliations

Abstract

Conflict of interest statement

Figures

References

Grants and funding

LinkOut - more resources

Full Text Sources