Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors

Yamaner, Ömer; Gokbulut, Cengiz; ERDAG, BENGI

Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors

Ömer YAMANER, (Adnan Menderes Üniversitesi, Fen Edebiyat Fakültesi, Biyoloji Bölümü, Aydın, Türkiye)

Bengi ERDAĞ, (Adnan Menderes Üniversitesi, Fen Edebiyat Fakültesi, Biyoloji Bölümü, Aydın, Türkiye)

Cengiz GÖKBULUT (Adnan Menderes Üniversitesi, Veteriner Fakültesi, Farmakoloji ve Toksikoloji Anabilim Dalı, Aydın, Türkiye)

Turkish Journal of Botany

8 0

Yıl: 2013 Cilt: 37 Sayı: 1 Sayfa Aralığı: 153 - 159 Metin Dili: İngilizce İndeks Tarihi: 29-07-2022

Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors

Öz:

The goal of this work was to study the stimulating effects of mannan and pectin on the biosynthesis of hypericins in in vitro seedlings of Hypericum adenotrichum Spach. Seedlings of H. adenotrichum were grown on a modified MS medium containing mannan (10, 50, and 100 mg/L) or pectin (10, 50, and 100 mg/L) for 15 and 30 days. Seedlings of H. adenotrichum were extracted with methanol. The methanol extracts of the seedlings were analysed by HPLC to investigate the changes in hypericin and pseudohypericin levels. The best results were obtained by exposure to 50 mg/L mannan or pectin for 15 days. Mannan stimulated pseudohypericin production up to 2.8-fold and hypericin production up to 1.7-fold. Pectin stimulated pseudohypericin production up to 4.8-fold and hypericin production up to 2.7-fold. The increases in hypericins in response to mannan and pectin demonstrate that these elicitors can be evaluated for production of secondary metabolites in Hypericum species.

Anahtar Kelime: biosynthesis Hypericum pectins Hypericum adenotrichum elicitors mannans

Konular: Biyoloji

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

Bruni R & Sacchetti G (2009). Factors affecting polyphenol biosynthesis in wild and field grown St. John’s wort (Hypericum perforatum L. Hypericaceae/Guttiferae). Molecules 14: 682–725.
Cavaliere C, Rea P, Lynch ME & Blumenthal M (2009). Herbal supplement sales experience slight increase in 2008. HerbalGram 82: 58–61.
Çırak C, Ivanauskasb L, Janulisb V & Radusiene J (2009). Chemical constituents of Hypericum adenotrichum Spach, an endemic Turkish species. Natural Product Research 23: 1189–1195.
Dörnenburg H & Knorr D (1994). Effectiveness of plant-derived and microbial polysaccharides as elicitors for antraquinone synthesis in Morinda citrifolia cultures. Journal of Agricultural and Food Chemistry 42: 1048–1052.
Flores-Sánchez IJ, Ortega-López J, Montes-Horcasitas MC & Ramos- Valdivia AC (2002). Biosynthesis of sterols and triterpenes in cell suspension cultures of Uncaria tomentosa. Plant Cell Physiology 43: 1502–1509.
Gadzovska S, Maury S, Delaunay A, Spasenoski M, Joseph C & Hagege D (2007). Jasmonic acid elicitation of Hypericum perforatum L. cell suspensions and effects on the production of phenylpropanoids and naphthodianthrones. Plant Cell Tissue Organ Culture 89: 1–13.
Galletti R, Denoux C, Gambetta S, Dewdney J, Ausubel FM, De Lorenzo G & Ferrari S (2008). The AtrbohD-mediated oxidative burst elicited by oligogalacturonides in Arabidopsis is dispensable for the activation of defense responses effective against Botrytis cinerea. Plant Physiology 148: 1695–1706.
Gokhale M & Bansal YK (2010). Assessment of secondary metabolites in in vitro regenerated plantlets of Oroxylum indicum (L.) Vent. Plant Tissue Culture and Biotechnology 20: 21–28.
Galzy R (1964). Technique de thermothrrapie des viroses de la vigne. Annales der Epiphyties 15: 245–256.
Ganzera M, Zhao J & Khan IA (2002). Hypericum perforatumchemical profiling and quantitative results of St. John’s Wort products by an improved high-performance liquid chromatography method. Journal of Pharmaceutical Sciences 91: 623–630.
Gioti EM, Skalkos DC, Fiamegos YC & Stalikas CD (2005). Singledrop liquid-phase microextraction for the determination of hypericin, pseudohypericin and hyperforin in biological fluids by high-performance liquid chromatography. Journal of Chromatography A 1093: 1–10.
Greeson J, Sanford B & Monti DA (2001). St. John’s wort (Hypericum perforatum): a review of the current pharmacological, toxicological and clinical literature. Psychopharmacology 153: 402–414.
Hasançebi S, Kara NT, Çakır Ö & Arı Ş (2011). Micropropagation and root culture of Turkish endemic Astragalus chrysochlorus (Leguminosae). Turkish Journal of Botany 35: 203–210.
Hölzl J & Petersen M (2003). Chemical constituents of Hypericum ssp. In: Ernst E (ed.) Hypericum, The Genus Hypericum. London, Taylor & Francis Group, pp. 77–93.
Jones GH & Ballou CE (1969). Studies on the structure of yeast mannan. I. Purification and some properties of an α-mannosidase from an Arthrobacter species. The Journal of Biological Chemistry 244: 1043–1051.
Karioti A & Bilia AR (2010). Hypericins as potential leads for new therapeutics. International Journal of Molecular Science 11: 562–594.
Karuppusamy S (2009). A review on trends in production of secondary metabolites from higher plants by in vitro tissue, organ and cell cultures. Journal of Medicinal Plants Research 3: 1222–1239.
Kirakosyan A, Gibson DM & Kaufman PB (2008). The production of dianthrones and philroglucinol derivatives in St. John’s wort. In: Ramawat KG & Mérillon JM (ed.) Bioactive Molecules and Medicinal Plants, pp. 151–164. Berlin and Heidelberg: Springer.
Kirakosyan A, Hayashi H, Inoue K, Charchoglyan A & Vardapetyan H (2000). Stimulation of the production of hypericins by mannan in Hypericum perforatum shoot cultures. Phytochemistry 53: 345–348.
Kirakosyan A, Sirvent T, Gibson D & Kaufman P (2004). The production of hypericins and hyperforin by in vitro cultures of Hypericum perforatum. Biotechnology and Applied Biochemistry 39: 71–81.
Kitanov GM (2001). Hypericin and pseudohypericin in some Hypericum species. Biochemical Systematics and Ecology 29: 171–178.
Kornfeld A, Kaufman PB, Lu CR, Gibson DM, Bolling SF, Warber, SL, Chang SC & Kirakosyan A (2007). The production of hypericins in two selected Hypericum perforatum shoot cultures is related to differences in black gland structure. Plant Physiology and Biochemistry 45: 24–32.
Murashige T & Skoog F (1962). A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiologia Plantarum 15: 473–497.
Özmen A, Bauer S, Gridling M, Singhuber J, Krasteva S, Madlener S, Vo TP, Stark N, Saiko P, Fritzer-Szekeres M, Szekeres T, Askin- Celik T, Krenn L & Krupitza G (2009). In vitro anti-neoplastic activity of the ethno-pharmaceutical plant Hypericum adenotrichum Spach endemic to Western Turkey. Oncology Reports 22: 845–852.
Pavlik M, Vacek J, Klejdus B & Kuban V (2007). Hypericin and hyperforin production in St. John’s wort in vitro culture: influence of saccharose, polyethylene glycol, methyl jasmonate, and Agrobacterium tumefaciens. Journal of Agricultural and Food Chemistry 55: 6147–6153.
Pilepić KH, Morović MF, Orač Šantor M & Vejnović V (2010). RFLP analysis of cpDNA in the genus Hypericum. Biologia 65: 805– 812.
Radman R, Saez T, Bucke C & Keshavarz T (2003). Elicitation of plants and microbial cell systems. Biotechnology and Applied Biochemistry 37: 91–102.
Ridley BL, O’Neill MA & Mohnen D (2001). Pectins: structure, biosynthesis, and oligogalacturonide-related signaling. Phytochemistry 57: 929–967.
Robson NKB (2003). Hypericum botany. In: Ernst E (ed.) Hypericum: the Genus Hypericum, pp. 196–241. New York: Taylor and Francis.
Shibuya N & Minami E (2001). Oligosaccharide signalling for defense responses in plant. Physiological and Molecular Plant Pathology 59: 223–233.
Sirvent T & Gibson D (2002). Induction of hypericins and hyperforin in Hypericum perforatum L. in response to biotic and chemical elicitors. Physiological and Molecular Plant Pathology 60: 311– 320.
Srivastava P & Malviya R (2011). Sources of pectin, extraction and its applications in pharmaceutical industry – An overview. Indian Journal of Natural Products and Resources 2: 10–18.
Vardapetyan H, Kirakosyan A & Hovhannisyan A (2003). Effect of various elicitors on lignan biosynthesis in callus cultures of Linum austriacum. Russian Journal of Plant Physiology 50: 297–301.
Vardapetyan HR, Oganesyan AA, Kabasakalyan EE & Tiratsuyan SG (2006). The influence of some elicitors on growth and morphogenesis of Hypericum perforatum L. callus cultures. Russian Journal of Developmental Biology 37: 350–353.
Vasconsuelo A & Boland R (2007). Molecular aspects of the early stages of elicitation of secondary metabolites in plants. Plant Science 172: 861–875.
Verma SK, Yücesan BB, Şahin G, Gürel S & Gürel E (2011). Direct shoot regeneration from leaf explants of Digitalis lamarckii, an endemic medicinal species. Turkish Journal of Botany 35: 689–695.
Wiktorowska E, Długosz M & Janiszowska W (2010). Significant enhancement of oleanolic acid accumulation by biotic elicitors in cell suspension cultures of Calendula officinalis L. Enzyme and Microbial Technology 46: 14–20.
Yamamoto H, Ichimura M & Inoue K (1995). Stimulation of prenylated flavanone production by mannans and acidic polysaccharides in callus culture of Sophora flavescens. Phytochemistry 40: 77–81.
Zhao J, Davis LC & Verpoorte R (2005). Elicitor signal transduction leading to production of plant secondary metabolites. Biotechnology Advances 23: 283–333.

APA	Yamaner Ö, ERDAG B, Gokbulut C (2013). Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors. , 153 - 159.
Chicago	Yamaner Ömer,ERDAG BENGI,Gokbulut Cengiz Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors. (2013): 153 - 159.
MLA	Yamaner Ömer,ERDAG BENGI,Gokbulut Cengiz Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors. , 2013, ss.153 - 159.
AMA	Yamaner Ö,ERDAG B,Gokbulut C Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors. . 2013; 153 - 159.
Vancouver	Yamaner Ö,ERDAG B,Gokbulut C Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors. . 2013; 153 - 159.
IEEE	Yamaner Ö,ERDAG B,Gokbulut C "Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors." , ss.153 - 159, 2013.
ISNAD	Yamaner, Ömer vd. "Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors". (2013), 153-159.

APA	Yamaner Ö, ERDAG B, Gokbulut C (2013). Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors. Turkish Journal of Botany, 37(1), 153 - 159.
Chicago	Yamaner Ömer,ERDAG BENGI,Gokbulut Cengiz Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors. Turkish Journal of Botany 37, no.1 (2013): 153 - 159.
MLA	Yamaner Ömer,ERDAG BENGI,Gokbulut Cengiz Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors. Turkish Journal of Botany, vol.37, no.1, 2013, ss.153 - 159.
AMA	Yamaner Ö,ERDAG B,Gokbulut C Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors. Turkish Journal of Botany. 2013; 37(1): 153 - 159.
Vancouver	Yamaner Ö,ERDAG B,Gokbulut C Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors. Turkish Journal of Botany. 2013; 37(1): 153 - 159.
IEEE	Yamaner Ö,ERDAG B,Gokbulut C "Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors." Turkish Journal of Botany, 37, ss.153 - 159, 2013.
ISNAD	Yamaner, Ömer vd. "Stimulation of the production of hypericins in in vitro seedlings of Hypericum adenotrichum by some biotic elicitors". Turkish Journal of Botany 37/1 (2013), 153-159.