[1] 王猛. 浅 析 精 胺 的 研 究 进 展 及 应 用 前 景[J]. 饲料工业, 2006, 27(13): 19-22 [2] Yang Q, Zheng C, Cao J, Shou P, Lin L, Velletri T, Jiang M, Chen Q, Han Y, Li F, Wang Y, Cao W, Shi Y. Spermidine alleviates experimental autoimmune encephalomyelitis through inducing inhibitory macrophages[J]. Cell Death & Differentiation, 2016, 23(11): 1850-1861 [3] Gupta V K, Pech U, Bhukel A, Fulterer A, Ender A, Mauermann S F, Andlauer T F M, Antwi-Adjei E, Beuschel C, Thriene K, Maglione M, Quentin C, Bushow R, Sigrist S J. Spermidine suppresses age-associated memory impairment by preventing adverse increase of presynaptic active zone size and release[J]. PLoS Biology, 2016, 14(9): e1002563 [4] Eisenberg T, Knauer H, Schauer A, Büttner S, Ruckenstuhl C, Carmona-Gutierrez D, Ring J, Schroeder S, Magnes C, Antonacci L, Fussi H, Deszcz L, Hartl R, Schraml E, Criollo A, Megalou E, Weiskopf D, Laun P, Heeren G, Breitenbach M, Grubeck-Loebenstein B, Herker E, Fahrenkrog B, Fröhlich K U, Sinner F, Tavernarakis N, Minois N, Kroemer G, Madeo F. Induction of autophagy by spermidine promotes longevity[J]. Nature Cell Biology, 2009, 11(11): 1305-1314 [5] Edreva A. Polyamines in plants[J]. Bulgarian Journal of Plant Physiology, 1996, 22(1/2): 73-101 [6] Larqué E, Sabater-Molina M, Zamora S. Biological significance of dietary polyamines [J]. Nutrition, 2007, 23(1): 87-95 [7] Bachrach U. Polyamines and cancer: minireview article [J]. Amino Acids, 2004, 26(4): 307-309 [8] Edreva A. Polyamines in plants[J]. Bulgarian Journal of Plant Physiology, 1996, 22(1/2): 73-101 [9] Meurer B, Wray V, Grotjahn L, Wiermann R, Strack D.Hydroxycinnamic acid spermidine amides from pollen of Corylus avellana L.[J]. Phytochemistry, 1986, 25(2): 433-435 [10] Meurer B, Wiermann R, Strack D. Phenylpropanoid patterns in Fagales pollen and their phylogenetic relevance[J]. Phytochemistry, 1988, 27(3): 823-828 [11] Meurer B, Wray V, Wiermann R, Strack D. Hydroxycinnamic acid-spermidine amides from pollen of Alnus glutinosa , Betula verrucosa and Pterocarya fraxinifolia [J]. Phytochemistry, 1988, 27(3): 839-843 [12] Sattar E A, Glasl H, Nahrstedt A, Hilal S H, Zaki A Y, El-Zalabani S M H. Hydroxycinnamic acid amides from Iochroma cyaneum [J]. Phytochemistry, 1990, 29(12): 3931-3933 [13] Bokern M, Witte L, Wray V, Nimtz M, Meurer-Grimes B. Trisubstituted hydroxycinnamic acid spermidines from Quercus dentata pollen [J]. Phytochemistry, 1995, 39(6): 1371-1375 [14] Jaggy H. A spermidine derivative from Crataegus flowers [hawthorn, angiosperm trees, drug plants]. [German][J]. Planta Medica, 1978 [15] Strack D, Eilert U, Wray V, Wolff J, Jaggy H. Tricoumaroylspermidine in flowers of rosaceae [J]. Phytochemistry, 1990, 29(9):2893-2896 [16] Meurer-Grimes B. New evidence for the systematic significance of acylated spermidines and flavonoids in pollen of Higher Hamamelidae [J]. Brittonia, 1995, 47(2): 130-142 [17] Gancel A L, Alter P, Dhuique-Mayer C, Ruales J, Vaillant F. Identifying carotenoids and phenolic compounds in naranjilla ( Solanum quitoense Lam. var. Puyo hybrid), an andean fruit [J]. Journal of Agricultural and Food Chemistry, 2008, 56(24): 11890-11899 [18] Forero D P, Masatani C, Fujimoto Y, Coy-Barrera E, Peterson D G, Osorio C. Spermidine derivatives in Lulo ( Solanum quitoense Lam.) fruit: Sensory (Taste) versus biofunctional (ACE-inhibition) properties[J]. Journal of Agricultural and Food Chemistry, 2016, 64(26): 5375-5383 [19] 袁茂叶, 李石飞, 张立伟. 红花中亚精胺衍生物分离纯化及其抑制[3H]-5-HT再摄取的作用[J]. 山西医科大学学报, 2015, 46(5): 442-446 [20] Yang Z, Dong F, Baldermann S, Murata A, Tu Y, Asai T, Watanabe N. Isolation and identification of spermidine derivatives in tea ( Camellia sinensis ) flowers and their distribution in floral organs[J]. Journal of the Science of Food and Agriculture, 2012, 92(10): 2128-2132 [21] Long Z, Zhang Y, Guo Z, Wang L, Xue X, Zhang X L, Wang S S, Wang Z W, Civelli O, Liang X M. Amide alkaloids from Scopolia tangutica [J]. Planta Medica, 2014, 80(13): 1124-1130 [22] Zhao J, Xu F, Ji T, Li J. A new spermidine from the fruits of Lycium ruthenicum [J]. Chemistry of Natural Compounds, 2014, 50(5): 880-883 [23] Wu T, Lv H Y, Wang F Z, Wang Y. Characterization of polyphenols from Lycium ruthenicum fruit by UPLC-Q-TOF/MS E and their antioxidant activity in Caco-2 Cells [J]. Journal of Agricultural and Food Chemistry, 2016, 64(11): 2280-2288 [24] Lv X, Wang C, Cheng Y, Huang L J, Wang Z F. Isolation and structural characterization of a polysaccharide LRP4-A from Lycium ruthenicum Murr [J]. Carbohydrate Research, 2013, 365: 20-25 [25] Li W, Tang Y, Chen Y, Duan J A. Advances in the chemical analysis and biological activities of chuanxiong [J]. Molecules, 2012, 17(9): 10614-10651 [26] Liu Z, Shu Q, Wang L, et al. Genetic diversity of the endangered and medically important Lycium ruthenicum Murr. revealed by sequence-related amplified polymorphism (SRAP) markers[J]. Biochemical Systematics & Ecology, 2012, 45(6):86-97 [27] Ni W, Gao T, Wang H, Du Y Z, Li J Y, Li C, Wei L X. Anti-fatigue activity of polysaccharides from the fruits of four Tibetan plateau indigenous medicinal plants[J]. Journal of Ethnopharmacology, 2013, 150: 529-535 [28] Peng Q, Liu H, Shi S, Li M. Lycium ruthenicum polysaccharide attenuates inflammation through inhibiting TLR4/NF-ΰB signaling pathway[J]. International Journal of Biological Macromolecules, 2014, 67: 330-335 [29] Duan Y, Chen F, Yao X, Zhu J, Wang C, Zhang J, Li X. Protective Effect of Lycium ruthenicum Murr. against radiation injury in mice[J]. International Journal of Environmental Research & Public Health, 2015, 12(7):8332-8347 [30] Wang S Q, Ren D M, Xiang F, Wang X N, Zhu C J, Yuan H Q, Sun L M, Lv B B, Sun X J, Lou H X. Dracotanosides A-D, spermidine glycosides from Dracocephalum tanguticum : structure and amide rotational barrier [J]. Journal of Natural Products, 2009, 72(6): 1006-1010 [31] Murata T, Miyase T, Yoshizaki F. Cyclic spermidine alkaloids and flavone glycosides from Meehania fargesii [J]. Chemical and Pharmaceutical Bulletin, 2010, 58(5): 696-702 [32] Kupchan S M, Hintz H P J, Smith R M,Karim A, Cass M W, Court W A, Yatagai M. Macrocyclic spermidine alkaloids from Maytenus serrata and Tripterygium wilfordii [J]. The Journal of Organic Chemistry, 1977, 42(23): 3660-3664 [33] Jiang J S, Lü L, Yang Y J, Zhang J L, Zhang P C. New spermidines from the florets of Carthamus tinctorius [J]. Journal of Asian Natural Products Research, 2008, 10(5): 447-451 [34] Li W C, Wang X Y, Lin P C, Hua N, Zhang Q L, Suo Y R. Preparative separation and purification of four cis-trans isomers of coumaroylspermidine analogs from safflower by high-speed counter-current chromatography[J]. Journal of Chromatography B Analytical Technologies in the Biomedical & Life Sciences, 2013, 938(9):75-79 [35] 国家药典委员会. 中华人民共和国药典: 1 部 [S]. 北京: 中国医药科技出版社, 2010 [36] Ma C Y, Liu W K, Che C T. Lignanamides and nonalkaloidal components of Hyoscyamus niger seeds [J]. Journal of Natural Products, 2002, 65(2): 206-209 [37] Damour F E, Smith D L. A method for determining loss of pain sensation[J]. Journal of Pharmacology and Experimental Therapeutics, 1941, 72(1): 74-79 [38] Zhang Y, Xu J, Wang Z, Zhang X, Liang X, Civelli O. BmK-Y A, an enkephalin-like peptide in scorpion venom.[J]. PLoS One, 2012, 7(7):e40417 [39] Crofford L J. Adverse effects of chronic opioid therapy for chronic musculoskeletal pain [J]. Nature Reviews Rheumatology, 2010, 6(4): 191-197 [40] Long Z, Wang C, Guo Z, Zhang X L, Nordahl L, Zeng J, Zeng J G, Liang X M. A non-aqueous solid phase extraction method for alkaloid enrichment and its application in the determination of hyoscyamine and scopolamine [J]. Analyst, 2012, 137(6): 1451-1457 |