Flavonoid and Organic Acid Content in Rose Hips (Rosa L., Sect. Caninae Dc. Em. Christ.)

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We determined the level of flavonoids, citric acid and ascorbic acid in hips of rose species from the Caninae section occurring in Poland. We performed phytochemical analyses of 75 samples representing 11 species: Rosaagrestis Savi, R. canina L., R. dumalis Bechst., R. glauca Pourret, R. inodora Fries, R. jundzillii Besser, R. rubiginosa L., R. sherardii Davies, R. tomentosa Sm., R. villosa L. and R. zalana Wiesb. Flavonoid content was determined spectrophotometrically, and organic acid concentrations by HPLC. The content of the studied compounds varied greatly. Interspecific differences in the amount of flavonoids and ascorbic acid were highly significant. The most common species, Rosa canina, showed low average content of vitamin C (0.51 g/100 g of dry matter) and flavonoids (41 mg/100 g DM) and high content of citric acid (3.48 g/100 g DM). Ascorbic acid was highest in R. villosa hips (avg. 2.25 g/100 g DM), flavonoids were highest in R. rubiginosa (72 mg/100 g DM), and citric acid was highest in R. tomentosa (4.34 g/100 g DM). Flavonoid level correlated negatively with the amount of citric acid (r=-0.47, p<0.001). Cluster analysis of rose species based on the content of the investigated compounds confirmed the validity of the division of sect. Caninae into three subsections: Rubiginosae, Vestitae and Rubrifoliae. The phytochemical variation of these roses reflects their probable phylogenetic relationships as determined from morphology.

ACHON MA, PINNER M, MEDINA V, and LOMONOSSOFF GP. 1996. Biological characteristics of maize dwarf mosaic potyvirus from Spain. European Journal of Plant Pathology 102: 697-705.

CALDER VL, and INGERFELD M. 1990. The roles of the cylindrical inclusion protein of a potyvirus in the induction of vesicles and in cell-to-cell spread. Journal of Structural Biology 105: 62-66.

DE MEJIA MVG, HIEBERT E, and PURCIFULL DE. 1985a. Isolation and partial characterization of the amorphous cytoplasmic inclusions associated with infections caused by two potyviruses. Virology 142: 24-33.

DE MEJIA MVG, HIEBERT E, PURCIFULL DE, THORNBURY DV, and PIRONE TP. 1985b. Identification of potyviral amorphous inclusion protein as a nonstructural, virus-specific protein related to helper component. Virology 142: 34-43.

EDWARDSON JR. 1974. Some properties of the potato virus Y group. Florida Agricultural Experiment Station Monograph Series No.4, University of Florida, Gainesville.

EDWARDSON JR, CHRISTIE RG, and KO NJ. 1984. Potyvirus cylindrical inclusions - subdivision IV. Phytopathology 74 (9): 1111-1114.

FRANCKI RIB, MILNE RG, and HATTA I. 1985. Atlas of Plant Viruses, vol. II. CRC Press, Boca Raton.

FUCHS E. 2004. Sugarcane mosaic. In: Lapierre H and Signoret PA [eds.], Viruses and Virus Diseases of Poaceae (Gramineae), 690-692. INRA, Paris.

GARBACZEWSKA G, CHRZANOWSKA M, and KERLAN C. 1996. Ultrastructural studies in Nicotiana clevelandii and potato plants infected with PVYNTN. Annals of Warsaw Agricultural University-SGGW. Agriculture 31: 15-22.

GILL CC, and CHONG J. 1979. Cytological alterations in cells infected with corn leaf aphid-specific isolates of barley yellow dwarf virus. Phytopathology 69: 363-368.

GORDON DT. 2004. Maize dwarf mosaic. In: Lapierre H and Signoret PA [eds.], Viruses and Virus Diseases of Poaceae (Gramineae) 644-649. INRA, Paris.

KRASS CJ, and FORD RE. 1969. Ultrastructure of corn systemically infected with Maize dwarf mosaic virus. Phytopathology 59: 431-439.

LAWSON RH, HEARON SS, and SMITH FF. 1971. Development of pinwheel inclusions associated with sweet potato russet crack virus. Virology 46: 453-463.

LESEMANN DE. 1988. Cytopathology. In: Milne RG [ed.], The Plant Viruses, vol. 4. The Filamentous Viruses, 179-235. Plenum Press, New York and London.

LESEMANN DE. 1995. Intracellular symptoms. In: Loebenstein G, Lawson RH, and Brunt AA. [eds.], Virus and Virus-like Diseases of Bulb and Flower Crops, 99-116. J. Wiley & Sons, Chichester.

LESEMANN DE. 1999. Virus specific cytological effects in infected plant cells. Phyton 39 (3): 41-45.

LESEMANN DE, KOENIG R, and HEIN A. 1979. Statice virus Y - a virus related to bean yellow mosaic and clover yellow vein viruses. Phytopathologische Zeitschrift 95: 128-139.

LESEMANN DE, SHUKLA DD, TOSIC M, and HUTH W. 1992. Differentiation of the four viruses of the sugarcane mosaic virus subgroup based on cytopathology. Archives of Virology (Suppl. 5): 353-361.

MARTELLI GP, and RUSSO M. 1976. Unusual cytoplasmic inclusions induced by watermelon mosaic virus. Virology 72: 352-362.

MARTELLI GP, and RUSSO M. 1977. Plant virus inclusion bodies. Advances in Virus Research 21: 175-266.

MURANT AF, and ROBERTS IM. 1971. Cylindrical inclusions in coriander leaf cells infected with parsnip mosaic virus. Journal of General Virology 10: 65-70.

PURCIFULL DE, and EDWARDSON JR. 1967. Watermelon mosaic virus: tubular inclusions in pumpkin leaves and aggregates in leaf extracts. Virology 32: 393-401.

ROBERTS IM, WANG D, FINDLAY K, and MAULE AJ. 1998. Ultrastructural and temporal observations of the potyvirus cylindrical inclusions (CIs) show that the CI protein acts transiently in aiding virus movement. Virology 245: 173-181.

RUSSO M, and MARTELLI GP. 1969. Cytology of Gomphrena globosa L. plants infected by Beet mosaic virus (BMV). Phytopathologia Mediterranea 8(2): 65-82.

SHUKLA DD, TOSIC M, JILKA J, FORD RE, TOLER RW, and LANGHAM MAC. 1989. Taxonomy of potyviruses infecting maize, sorghum and sugarcane in Australia and in the United States as determined by reactivities of polyclonal antibodies directed towards virus-specific N-termini of coat proteins. Phytopathology 79: 223-229.

TRZMIEL K. 2009. First report of Sugarcane mosaic virus infecting maize in Poland. Plant Disease 93(10): 1078.

TRZMIEL K, and JEżEWSKA M. 2008. Identification of Maize dwarf mosaic virus in maize in Poland. Plant Disease 92(6): 981.

ZECHMANN B, MULLER M, and ZELLNIG G. 2003. Cytological modifications in zucchini yellow mosaic virus (ZYMV)-infected Styrian pumpkin plants. Archives of Virology 148: 1119-1133.

Acta Biologica Cracoviensia s. Botanica

The Journal of Polish Academy of Sciences

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