Lignan Profiles of Indoor-Cultivated Anthriscus sylvestris

Albert Koulman; Sieb Batterman; Freeke M. S. van Putten; Rein Bos; Wim J. Quax

doi:10.1055/s-2003-45110

Planta Medica, Table of Contents

Planta Med 2003; 69(10): 959-961
DOI: 10.1055/s-2003-45110

Letter

Lignan Profiles of Indoor-Cultivated Anthriscus sylvestris

Albert Koulman¹ , Sieb Batterman¹ , Freeke M. S. van Putten¹ , Rein Bos¹ , Wim J. Quax¹

¹Department of Pharmaceutical Biology, GUIDE (Groningen University Institute for Drug Exploration), University of Groningen, Groningen, The Netherlands

This project was partly sponsored by the EU; BIO4-CT98-0461 LIGNOCANCER; Plant Cell Factories as a Source of Anti-Cancer Lignans

Abstract

In a previous study we have shown that different populations of Anthriscus sylvestris (L.) Hoffm. (Apiaceae) yield significantly different lignan profiles. In this study we collected the seeds of A. sylvestris from 4 locations, one in England and three in The Netherlands. The seeds germinated and were grown under identical laboratory conditions. After 5 months the plants were harvested and the lignan profile in the roots and aerial parts was analysed using GC-MS. The plants from the seeds of the 4 locations showed several significant phenotypic differences in, for instance, dry-weight. However the 4 groups did not differ significantly in their lignan profile in their roots. The lignans in the roots of A. sylvestris, deoxypodophyllotoxin, yatein and anhydropodorhizol reached, on average, equal amounts in all 4 groups. Within the 4 groups, however, a large quantitative variation in lignan profile between the individual plants was observed, pointing to within-population genetic differences between individual plants.

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References

1 Gross G. Clinical diagnosis and management of anogenital warts and papillomavirus-associated lesions. Hautarzt. 2001; 52 6-17
2 Choudhary D K, Kaul B L, Khan S. Cultivation and conservation of Podophyllum hexandrum - An overview. J Med Arom Plant Sci. 1998; 20 1071-3
3 Rai L K, Prasad P, Sharma E. Conservation threats to some important medicinal plants of the Sikkim Himalaya. Biol Cons. 2000; 93 27-33
4 Van Uden W, Bos J A, Boeke G M, Woerdenbag H J, Pras N. The large scale isolation of deoxypodophyllotoxin from rhizomes of Anthriscus sylvestris followed by its bioconversion into 5-methoxypodophyllotoxin β-d-glucoside by cell cultures of Linum flavum . J Nat Prod. 1997; 60 401-3
5 Kondo K, Ogura M, Midorikawa Y, Kozawa M, Tsuijbo H. et al . Conversion of deoxypodophyllotoxin to podophyllotoxin-related compounds by microbes. Agric Biol Chem. 1989; 53 777-82
6 Koulman A, Bos R, Medarde M, Pras N, Quax W J. A fast and simple GC-MS method for lignan profiling in Anthriscus sylvestris and biosynthetically related plant species. Planta Med. 2001; 67 858-62
7 Carroll M J, Berenbaum M R. Behavioral responses of the parsnip webworm to host plant volatiles. J Chem Ecol. 2002; 28 2191-201
8 Talley S M, Coley P D, Kursar T A. Antifungal leaf-surface metabolites correlate with fungal abundance in sagebrush populations. J Chem Ecol. 2002; 28 2141-68
9 Macel M, Klinkhamer P GL, Vrieling K, van der Meijden E. Diversity of pyrrolizidine alkaloids in Senecio species does not affect the specialist herbivore Tyria jacobaeae . Oecologia. 2002; 133 541-50
10 Bernasconi C. Etoposide: fifteen years experience. Bone Marrow Transplant. 1989; 4 52-5

Dr. Rein Bos

Department of Pharmaceutical Biology

GUIDE (Groningen University Institute for Drug Exploration)

University of Groningen

A. Deusinglaan 1

9713 AV Groningen

The Netherlands

Phone: +31-50-3633354

Fax: +31-50-3633000

Email: R.Bos@farm.rug.nl