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Abstract
A review of current trends of physiological and biochemical studies of Hemerocallis L. are presented. The new data about taxonomy and phylogeny, introduction, the genetic basis of plant breeding, quantitative and qualitative analysis of pigments, and biology of flowering, identification and рhysiological action of biologically active substances are given.
References
Вяткин А.И. Род Красоднев (Hemerocallis L.) в Сибири: Автореф. дис. …канд. биол. наук. — Новосибирск, 2000. — 16 с.
Жапова О.И. Эколого-фитоценотическая приуроченность Hemerocallis minor Miler. и накопление в нем биологически активных веществ (Забайкалье): Автореф. дис. …канд. биол. наук. — Улан-Удэ, 2006. — 19 с.
Крестова И.Н. Род Hemerocallis L. (семейство Hemerocallidaceae R. Br.) в условиях культуры в Приморском крае: Автореф. дис. ...канд. биол. наук. — Владивосток, 2010. — 18 с.
Маассуми С.М. Ультраструктура и ультраскульптура оболочки пыльцевых зерен представителей семейства Liliaceae Juss. в связи с вопросами их систематики: Автореф. дис. … канд. биол. наук. — М., 2005. — 22 с.
Пельтихина Р.И., Крохмаль И.И. Интродукция видов и сортов рода Hemerocallis L. (Hemerocallidaceae R. Br.) в Донбасс и перспективы их использования в декоративном садоводстве. — Донецк: Норд-Пресс, 2005. — 236 с.
Рогожин В.В. Физиолого-биохимические механизмы формирования гипобиотических состояний высших растений: Автореф. дис. ... д-ра биол. наук. — Иркутск, 2000. — 44 с.
Рогожин В.В., Романова А.Ю., Рогожина Т.Ю. Изучение активностей алкогольдегидрогеназы и пероксидазы в непроросших семенах Hemerocallis lilio-asphodelus // Материалы науч. конф., посвященной 60-летию высшего образования в Республике Саха (Якутии). — Якутск, 1994. — Вып. 2. — С. 82.
Холина А.Б., Воронкова Н.М. Сохранение генофонда дальневосточных растений методом крио консервации семян // Физиология растений. — 2008. — № 3. — С. 304–312.
Чипиляк Т.Ф. Перспективи інтродукції видів та культиварів лілійнику в умовах степового Придніпров’я // Інтродукція рослин. — 2005. — № 1. — С. 65–70. https://doi.org/10.5281/zenodo.2586170
Чупарина А.В., Гуничева Т.Н. Рентгенофлуоресцентное определение некоторых элементов в растительных материалах без разрушения образца // Аналитика и контроль.— 2003. — 2, № 9. — С. 960–966.
Чупов В.С. Форма боковой филогенетической ветви у растений по данным неонтолого-таксономической летописи эволюции // Успехи современной биологии. — 2002. — 122, № 3.— С. 227–238.
Щербакова Т.О. Аналіз та порівняльна сортооцінка колекції Hemerocallis hybrida Hort. Національного ботанічного саду ім. М.М. Гришка НАН України // Вісн. Київ. нац. ун-ту імені Тараса Шевченка. — 2009. — № 22-24. — C. 86–87.
Adelberg J., Delgado M., Tomkins J. In vitro sugar water use in diploid and tetraploid genotypes of daylily in liquid medium as affected by density and plant growth regulators // Hort Science. — 2007. — N 42. — P. 325–328.
Ahn Y.-H., Kim S.-H., Lee C., Lee S. Palynotaxonomic study of the genus Hemerocallis L. in Korea // Journal of the Korean Society for Horticultural Science. — 1999. — N 40. — Р. 505–510.
Amin A., Mousa M. Merits of anti-cancer plants from the Arabian Gulf region // Cancer Therapy. — 2007. — 5. — P. 55–66.
Aziz A.N., Sauve R.J., Zhou S. Genetic transformation of Stella de Oro daylily by particle bombardment // Can. J. Plant Science. — 2003. — 83, N 4. — P. 873–876.
Brennan J., King B. Colchicine conversion by injection // The Daylily Journal. — 2003. — N 58. — P. 257–261.
Buck J.W., Williams-Woodwards J.L. Effect of fungicide on urediniospores germination and disease development of daylily rust // Crop Protection. — 2003. — 22, N 1. — P. 135–140.
Callawey D.J., Callawey M.B. Breeding Ornamental plants. — Oregon: Timber Press., 2000. — 323 p.
Chakrabarty D., Verma A.K., Datta S.K. Oxidative stress and antioxidant activity as the basis of senescence in Hemerocallis (daylily) flowers // Journal of Horticulture and Foresty. — 2009. — 1, N 6. — P. 113–119.
Chase M.W., Reveal J.L., Fay M.F. A subfamilial classification for the expanded asparagalean families Amaryllidaceae, Asparagaceae and Xanthorrhoeaceae // Botanical Journal of the Linnean Society. — 2009. — 161, N 2. — P. 132–136.
Chen H.-Y., Bor J.-Y., Huang W.-H. et al. Effect of Sulfite-treated Daylily (Hemerocallis fulva L.) Flower on the production of nitric оxide and DNA damage in macrophages // Journal of Food and Drug Analysis. — 2007. — 15, N 1. — P. 63–70.
Chen J., Hall E., Luca V. Effects of the growth retardant paclobutrazol on large-scale micropropagation of daylily (Hemerocallis ssp.) // In vitro cellular and developmental Biology. — 2005. — 41, N 1. — P. 58–62.
Chung M., Noguchi J. Geographic spatial corellation of morphological characters of Hemerocallis middendorfii complex // Annales Botanici Fennici. — 1998. — 35. — P. 183–189.
Chung M. Spatial structure of three populations of Hemerocallis hakuuensis // Bot. Bull. Acad. Science. — 2000. — N 41. — P. 231–236.
Cichewicz R.H., Lim K.C., McKerrow J.H., Nair M.G. Kwanzoquinones A–G and other constituents of Hemerocallis fulva ‘Kwanzo’ roots and their activity against the human pathogenic trematode Schistosoma mansoni // Tetrahedron. — 2002. — 58, N 42. — P. 8597–8606.
Cichewicz R.H., Nair M.G. Isolation and characterization of stelladerol, a new antioxidant naphthalene glycoside, and other antioxidant glycosides from edible daylilies (Hemerocallis) flowers // Journal of Agricultural and Food Chemistry. — 2002. — N 50. — P. 87–91.
Cichewicz R.H., Zhang Y., Seeram N.P., Nair M.G. Inhibition of human tumor cell proliferation by novel anthraquinones from daylilies // Life Sciences. — 2004. — 74, N 14.— Р. 1791–1799.
Clifford M., Wu W., Kuhnert N. The chlorogenic acids of Hemerocallis // Food Chemistry. — 2006. — N 95. — P. 577–578.
Erhardt W. Hemerocallis. — Oregon: Timber Press., 1992. — 160 p.
Fu M.R., He Z.P., Zhao Y.Y. et al. Antioxidant properties and involved compounds of daylily flowers in relation to maturity // Food Chemistry. — 114, N 4. — P. 1192–1197.
Griesbach R., Batdorf L. Flower Pigments within Hemerocallis fulva L. fm. fulva, fm. rosea, and fm. disticha // HortScience. — 1995. — 30, N 2. — Р. 353–354.
Griesbach R.J. Biochemistry and genetics of flower color // Plant Breed. Reviews. — 2005. — N 25. — P. 89–114.
Gulia S., Carter J. Callus induction and in vitro plant regeneration in daylily // HortScience. — 2007. — 42. — P. 972.
Gulia S., Singh B., Carter J., Griesbach R. Daylily: botany, propagation, breeding // Horticultural reviews. — 2009. — 35. — P. 193–220.
Hadley R.M., Richardson J.A., Gwaltney-Brant S.M. A retrospective study of daylily toxicosis in cats // Veterinary and Human Toxicology. — 2003. — 45, N 1. — Р. 38–39.
Han H.-N., Cho U.-H., Kim-Lee H.-Y. Genetic variability in four daylily genus (Hemerocallis) tax using RAPD // Journal of the Korean Society for Horticultural Science. — 1998. — N 39. — Р. 218–221.
Haston E., Richardson J., Stevens P. et al. A linear sequence of angiosperm phylogeny group II families // Taxon. — 2007. — 56, N 1. — P. 7–12.
Hsieh M.T., Ho Y.F., Peng W.H. et al. Effects of Hemerocallis flava on motor activity and the concentration of central monoamines and its metabolites in rats // Journal of Ethnopharmacology. — 1996. — 52, N 2. — Р. 71–76.
Huang Y.-L., Chow F.-H., Shieh B.-J. et al. Two new anthraquinones from Hemerocallis fulva // Chinese Pharmaceutical Journal. — 2003. — N 55. — P. 83–86.
Kang S.S., Chung M.G. High levels of allozyme variation within populations and low allozyme divergence within and among species of Hemerocallis (Liliaceae) // Am. J. Bot. — 2000. — N 87. — P. 1634–1646.
Knight P.R., Coker C.E., Posados B.C., Anderson J. M. Phytotoxicity and weed control efficacy of three non-labeled herbicides for field-grown Hemerocallis spp. // HortScience. — 2004. — N 39. — Р. 745.
Konishi T., Fujiwara Y., Konoshima T. et. al. Steroidal saponins from Hemerocallis fulva var. kwanso // Chemical and Pharmaceutical Bulletin. — 2001. — N 49. — Р. 318–320.
Konishi T., Inoue T., Kiyosawa S., Fujiwata Y. A 2,5-dimethoxytetrahydrofuran from Hemerocallis fulva var. kwanso // Phytochemistry. — 1996. — 42, N 1. — Р. 135–137.
Krikorian A.D. Somatic embryos of daylily in space // Advances in Space Research. — 1999. — 23, N 12. — P. 1987–1997.
Leclere M., Caldwell C.D., Lada R.R. Effect of plant growth regulatoirs on propagule formation in Hemerocallis ssp. and Hosta ssp. // HortScience. — 2006. — 41, N 3. — P. 651–653.
Levine H.G., Krikorian A.D. Changes in plant medium composition after a spaceflight experiment: Potassium levels are of special interest // Advances in Space Research. — 2008. — 42, N 6. — P. 1060–1065.
Li Z., Pinkham L., Campbell N. et al. Development of triploid daylily (Hemerocallis) germplasm by embryo rescue // Euphytica. — 2009. — 169, N 3. — Р. 313–318.
Liao J.-J., Wu Y.-J., Yan L.-F. Biochemical characterization of the pollen tubulin from daylily (Hemerocallis fulva, Liliaceae) // Acta Botanica Yunnanica. — 2006. — 28. — Р. 425–428.
Mao L., Pan X., Que F., Fang X. Antioxidant properties of water and ethanol extracts from hot air-dried and freeze-dried daylily flowers // European Food Research and Technology. — 2006. — 222. — Р. 236–241.
McGarty T.P. Hemerocallis: Species, hybrids, and genetics. — Режим доступу: www.telmarcgardens.com
McGarty T.P. Phylogenetics, DNA, classification and the genus Hemerocallis. — Режим доступу: www.telmarcgardens.com
Mueller D.S., Williams-Woodward J.L., Buck J.W. Resistance of daylily cultivars to the daylily rust // Daylily Journal. — 2003. — 58, N 4. — P. 348–350.
Noguchi J., De-yuan H. Multiple origins of the Japanese nocturnal Hemerocallis citrina // Int. J. Plant Sciences. — 2004. — 165, N 1. — P. 219–230.
Noguchi J., Hong D.-Y., Grant W.F. The historical evolutionary development of Hemerocallis middendorfii (Hemerocallidaceae) revealed by non-coding regions in chloroplast DNA // Plant Systematics and Evolution. — 2004. — 247, N 1-2. — Р. 1–22.
Ono Y. Does Puccinia hemerocallidis regularly host-alternate between Hemerocallis and Patrinia plants in Japan // Journal of General Plant Pathology. — 2003. — N 69. — Р. 240–243.
Panavas T., LeVangie R., Mistler J. Activities of nucleases in senescing daylily petals // Plant Physiology and Biochemistry. — 2000. — 38, N 11. — P. 837–843.
Pollard A.N., Coggins P.C., Knight P.R. Sensory evaluation of edible daylilies (Hemerocallis) // 32 Annual Horticulture Field Day. — Mississippi, 2004. — P. 32.
Reilly C.C., Crawford M., Buck J.W. Nickel suppresses daylily rust, Puccinia hemerocallidis on susceptible daylilies, Hemerocallis ssp. in greenhouse and field trials // Phytopathology. — 2005. — N 95. — P. 588.
Que F., Mao L., Zheng X. In vitro and vivo antioxidant of daylily flowers and the involvement of phenolic compounds // Asia Pacific Journal of Clinical Nutrition. — 2007. — 16, N 1. — P.196–203.
Saito H., Mizunashi K., Tanaka S. et al. Ploidy estimation in Hemerocallis species and cultivars by flow cytometry // Scientia Horticulturae. — 2003. — N 97. — Р. 185–192.
Sarg T.M., Salem S.A., Farrag N.M. et al. Phytochemical and antimicrobial investigation of Hemerocallis fulva L. grown in Egypt // Pharmaceutical Biology. — 1990. — 28, N 2. — Р. 153–156.
Stout A.B. Daylilies. — New York, 1934. — 127 p.
Sun N., Zeng X., Li J. et al. Effects of magnesium compound with fertilizer on daylily (Hemerocallis citrina Baroni) growth and soil nutrients // Agricultural Sciences in China. — 2006. — 5, N 2. — Р. 123–129.
Suzuki K., Nakajima H., Hamano C. Coldinduced germination promotion in Hemerocallis dumortieri var. esculenta and H. fulva var. littorea seeds // Biology of Seeds. — Spain, 2003. — Р. 405– 412.
Tai C.-Y., Chen B.H. Analysis and stability of carotenoids in the flowers of daylily (Hemerocallis disticha) as affected by various treatments // Journal of Agricultural and Food Chemistry. — 2000. — 48, N 12. — P. 5962–5968.
Tomkins J.P., Wood T.C., Barnes L.S. et al. Evaluation of genetic variation in the daylily (Hemerocallis ssp.) using AFLP markers // Theoretical and Applied Genetics. — 2001. — 102, N 4. — Р. 489–496.
Uezu E. Effects of Hemerocallis on sleep in mice // Psychiatry and Clinical Neurosciences. — 1998. — 52, N 2. — P. 136–137.
Wu Y.-J., Cao Q.-H., Yan L.-F., Liu G.-Q. Isolation and characterization of dynamin from pollen of Hemerocallis fulva // Acta Botanica Sinica. — 2002. — N 44. — Р. 657–660.
Xiong Z., Chen S., Hong D., Luo Y. Pollen morphology and its evolutionary significance in Hemerocallis (Liliaceae) // Nordic Journal of Botany. — 1998. — N 18. — Р. 183–189.
Yasumoto A., Yahara T. Reproductive isolation on interspecific backcross of F1 pollen to parental species, Hemerocallis fulva and H. citrina (Hemerocallidacea) // Journal of Plant Research. — 2008. — N 121.— P. 287–291.
Zhang Y., Cichewicz R., Muraleedharan G. Lipid peroxidation inhibitory compounds from daylily (H. fulva) leaves // LifeSciences. — 2004. — 75, N 17. — Р. 2143–2144.
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