Biology Reference
In-Depth Information
Kato, K., Terao, S., Shimamoto, N. & Hirata, M., 1988. Studies on scavengers of active oxygen species. 1.
Synthesis and biological activity of 2-O-alkylascorbic acids.
Journal of Medicinal Chemistry
31,
793-798.
Kavitha, J., Rajasekhar, D., Subbaraju, G.V. & Ramesh, G.N., 1999.
Indian Journal of Chemistry
38B,
1280.
Knasmüller, S., Parzefall, W., Sanyal, R., Ecker, S., Schwab, C., Uhl, M., Mersch-Sundermann, V.,
Williamson, G., Hietsch, G., Langer, T., Darroudi, F. & Natarajan, A.T., 1998. Use of metabolically
competent human hepatoma cells for the detection of mutagens and antimutagens.
Mutation
Research
402, 185-202.
López, S., Castelli, M.V., Zacchino, S.A., Domínguez, J., Lobo, G. & Charris, J., 2001.
In vitro
antifungal
evaluation and structure-activity relationships of a new series of chalcone derivatives and syn-
thetic analogues, with inhibitory properties against polymers of the fungal cell wall.
Biorganic
Medical Chemistry
9, 1999-2013.
Mantena, R.K.R., Wijburg, O.L.C., Vindurampulle, C., Bennett-Wood, V.R., Walduck, A., Drummond,
G.R., Davies, J.K., Robins-Browne, R.M. & Strugnell, R.A., 2008. Reactive oxygen species are the
major antibacterials against
Salmonella typhimurium
purine auxotrophs in the phagosome of
RAW 264.7 cells.
Cellular Microbiology
10, 1058-1073.
Meng, J.C., Zhu, Q.X. & Tan, R.X., 2000. New antimicrobial mono- and sesquiterpenes from
Soroseris
hookeriana
subsp.
erysimoides. Planta Medica
66, 541-544.
Mitscher, L., Leu, R., Bathala, M., Wu, W. & Beal, J., 1972. Antimicrobial agents from higher plants. I.
Introduction, rationale, and methodology.
Lloydia
35, 157-166.
Moretti, M., Macarelli, M., Villarini, M., Fatigoni, C., Scassellati-Sforzolini, G. & Pasquini, R., 2002.
In
vitro
testing for genotoxicity of the herbicide terbutryn: cytogenetic and primary DNA damage.
Toxicology In Vitro
16, 81-88.
National Committee for Clinical Laboratory Standards (NCCLS), 2002. Perfomance standards for anti-
microbial susceptibility testing. Twelfth Informational Supplement M100-S12 NCCLS. Wayne,
Pennsylvania.
Nishikimi, M., Rao, A. & Yagi, K., 1972. The occurrence of superoxide anion in the reaction of reduced
phenazine
methosulphate
and
molecular
oxygen.
Biochemical
Biophysical
Research
Communications
46, 849-854.
Ohkawa, H., Ohishi, N. & Yagi, K., 1979. Assay for lipid peroxides in animal tissues by thiobarbituric
acid reaction.
Analytical Biochemistry
95, 351-358.
Ortega, C.A., María, A.O.M., Giordano, O.S. & Gianello, J.C., 2003. Effects of
Zuccagnia punctata
on
the gastrointestinal tract in rats and mice.
Phytotherapy Research
17, 404-406.
Parks, D.A., Bulkley, G.B. & Granger, D.N., 1983. Role of oxygen-derived free radicals in digestive tract
diseases.
Surgery
94, 415-422.
Pederiva, R. & Giordano, O.S., 1984. 3,7-Dihydroxy-8-methoxyflavone from
Zuccagnia punctata.
Phytochemistry
23, 1340-1341.
Pederiva, R., Kavka, J. & D'Arcangelo, A.T., 1975. Chalcones and flavanones isolated from
Larrea nitida
Cav.
Annual Asociación Quimica Argentina
63, 85-90.
Pieri, C., Marra, M., Moroni, F., Recchioni, R. & Marcheselli, F., 1994. Melatonin: a peroxyl radical
scavenger more effective than vitamin E.
Life Science
55, 271-276.
Pihan, G., Regillo, C. & Szabo, S., 1987. Free radicals and lipid peroxidation in ethanol- or aspirin-
induced gastric mucosal injury.
Digestive Diseases and Science
. 32, 1395-1401.
Pioli, R.N., Benavídez, R., Morandi, E.N. & Bodrero, M., 2000. Epidemiological study of diseases asso-
ciated to soybean carpels and seeds, in Santa Fe, Argentina.
Fitopatología
35, 111-118.
Poeggeler, B., Reiter, R.J., Hardeland, R., Sewerynek, E., Melchiorri, D. & Barlow-Walden, L.R.,
1995. Melatonin, a mediator of electron transfer and repair reactions, acts synergistically with
the chain-breaking antioxidants ascorbate, trolox and glutathione.
Neuroendocrinology Letters
17, 87-92.
Poole, K., 2001. Overcoming antimicrobial resistance by targeting resistance mechanisms.
Journal of
Pharmacy and Pharmacology
53, 283-284.
Quiroga, E.N., Sampietro, A.R. & Vattuone, M.A., 2001. Screening antifungal activities of selected
medicinal plants.
Journal of Ethnopharmacology
74, 89-96.
Ramachandra, M.S. & Subbaraju, G.V., 2006. Synthesis and bioactivity of novel caffeic acid esters from
Zuccagnia punctata
.
Journal of Asian Natural Products Research
8, 683-688.
Ratera, E.L. & Ratera, M.O., 1980.
Plantas de la Flora Argentina Empleadas en Medicina Popular
.
Hemisferio SA, Buenos Aires, Argentina, p. 189.
Search WWH ::
Custom Search