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lgz_220: ½ð±Ò+10, ¡ï¡ï¡ï¡ï¡ï×î¼Ñ´ð°¸ 2014-07-25 19:57:20
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lgz_220: ½ð±Ò+10, ¡ï¡ï¡ï¡ï¡ï×î¼Ñ´ð°¸ 2014-07-25 19:57:20
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²éѯģʽ£ºÄ£ºý²éѯ ̼Æ×Êý¾ÝÊäÈ룺 °´´ÓСµ½´ó˳ÐòÊäÈ룬Êý×Ö¼äÓÃÓ¢ÎÄ°ë½Ç¶ººÅ(,)·Ö¸ôÀýÈ磺 21.4,30.4,37.4,73.2,73.7,125.6,126.6,139.6,140.2,168.2 ÈܼÁÑ¡Ï Æ¥ÅäÈݲ (Êý×Ö¸ñʽ£¬¿É×ÔÐÐÉ趨) ÏàËƶȣº %(ÏàËƶÈ>=50%) ²éѯ½á¹û£º¹²²éµ½83¸ö»¯ºÏÎï(²éѯ½á¹û½ö¹©²Î¿¼) 1 . piceinc ÏàËƶÈ:75% Phytochemistry 1986 25 1201-1204 Structural analysis of phenolic glucosides from salicaceae by NMR spectroscopy Roger A. Dommisse, Lucia Van Hoof, Arnold J. Vlietinck Structure 13C NMR ̼Æ×Ä£Äâͼ 2 . Picein ÏàËƶÈ:75% Archives of Pharmacal Research 2008 31 978-982 Cytotoxic constituents from the bark of Salix hulteni Seong Ho Jeon, Wanjoo Chun, Yong Joon Choi and Yong Soo Kwon Structure 13C NMR ̼Æ×Ä£Äâͼ 3 . picein ÏàËƶÈ:75% Chinese Pharmaceutical Journal 2011 46 93-97 Study on Chemical Constituents of Primula maximowiczii Regel  art ¢óQU Gong-lin, ZHANG Hai-ming, DENG Zhi-wei, KONG De-yun, GENG Zhu-feng, DU Shu-shan Structure 13C NMR ̼Æ×Ä£Äâͼ 4 . 4-hydroxyacetophenone-4-O-¦Â-D-glucopyranoside ÏàËƶÈ:75% Chinese Journal of Medicinal Chemistry 2010 20 61-63 Isolation and identification of chemical constituents from Artemisia capillaries Thunb. MA Hong-yu, SUN Yi LI A-li, CHEN Gang, WU Hong-hua, PEI Yue-hu Structure 13C NMR ̼Æ×Ä£Äâͼ 5 . ÔÆɼÜÕ ÏàËƶÈ:75% China Journal of Chinese Materia Medica 2012 37 238-242 Study on chemical constituents of Artemisia sphaerocephala ZHANG Jie; LI Linxi; LIU Xiuhua; WANG Yong; ZHAO Dongbao Structure 13C NMR ̼Æ×Ä£Äâͼ 6 . piceine C14H18O7 ÏàËƶÈ:66.6% Journal of Shenyang Pharmaceutical University 2005 22 263-266 Studies on the chemical constituents from the stems of Opuntia dillenii QIU Ying-kun, DOU De-qiang, YOSHIKAWA Masayuki, MATSUDA Hisashi, CHEN Ying-jie Structure 13C NMR ̼Æ×Ä£Äâͼ 7 . piceoside ÏàËƶÈ:58.3% Planta Medica 1987 53 307-308 Isolation of Piceoside from Arctostaphylos uva-ursi George A. Karikas, Melvin R. Euerby, and Roger D. Waigh Structure 13C NMR ̼Æ×Ä£Äâͼ 8 . apiin ÏàËƶÈ:58.3% Chemical & Pharmaceutical Bulletin 1987 35 3292-3297 Studies on the Constituents of the European Mistletoe, Viscum album L. TAKEHIKO FUKUNAGA,IKUKO KAJIKAWA,KOICHI NISHIYA,YOSHIKUNI WATANABE,KOICHI TAKEYA and HIDEJI ITOKAWA Structure 13C NMR ̼Æ×Ä£Äâͼ 9 . (4S,5S)-4-Benzyloxymethyl-5-hydroxymethyl-2,2-dimethyl-13-dioxolan C14H20O4 ÏàËƶÈ:58.3% Helvetica Chimica Acta 1981 64 687-702 Chirale elektrophile Synthesebausteine mit vier verschiedenen funktionellen Gruppen aus Weinsäure, 2, 3- und 3, 4-Epoxy-butandiolderivate in allen vier stereoisomeren Formen Ernst Hungerb¨¹hler, Dieter Seebach Structure 13C NMR ̼Æ×Ä£Äâͼ 10 . p-hydroxyacetophenone-4-O-¦Â-D-glucopyranoside C14H18O7 ÏàËƶÈ:58.3% Phytochemistry 1996 41 1593-1598 Phenolic and triterpenoid glycosides from Aster batangensis Yu Shao, Yun Long Li, Bing Nan Zhou Structure 13C NMR ̼Æ×Ä£Äâͼ 11 . vomifoliol 3'-O-¦Â-apiofuranosyl ÏàËƶÈ:58.3% Phytochemistry 1995 39 115-120 Secoiridoid and flavonoid glycosides from Gonocaryum calleryanum Tetsuo Kaneko, Mayumi Sakamoto, Kazuhiro Ohtani, Aiko Ito, Ryoji Kasai, Kazuo Yamasaki, William G. Padorina Structure 13C NMR ̼Æ×Ä£Äâͼ 12 . p-O-¦Â-D-glucosybenzoic acid ÏàËƶÈ:58.3% Phytochemistry 1988 27 809-813 Glucosylation of phenolic compounds by plant cell cultures Mamoru Tabata,Yasuko Umetani,Mitsuko Ooya,Shigeo Tanaka Structure 13C NMR ̼Æ×Ä£Äâͼ 13 . picein ÏàËƶÈ:58.3% Bioorganic & Medicinal Chemistry 2010 18 7052-7057 Chalcone glycosides isolated from aerial parts of Brassica rapa L. ¡®hidabeni¡¯ suppress antigen-stimulated degranulation in rat basophilic leukemia RBL-2H3 cells Tomohiro Itoh, Masayuki Ninomiya, Yoshinori Nozawa, Mamoru Koketsu Structure 13C NMR ̼Æ×Ä£Äâͼ 14 . 2-propen-1-yl 3,4-O-(1-methylethylidene)-¦Â-L-fucopyranoside C12H20O5 ÏàËƶÈ:58.3% Heterocycles 2012 84 637-655 Synthesis of Human Milk Oligosaccharides: 2'- and 3'-Fucosyllactose Claney L. Pereira and Frank E. McDonald* Structure 13C NMR ̼Æ×Ä£Äâͼ 15 . ((4R,5S)-5-((S)-1-hydroxyallyl)-2,2-dimethyl-1,3-dioxolan-4-yl)methyl pivalate C14H24O5 ÏàËƶÈ:58.3% Tetrahedron Letters 2012 53 132-136 Total synthesis of (+)-pericosine B and (+)-pericosine C and their enantiomers by using the Baylis¨CHillman reaction and ring-closing metathesis as key steps Y. Suman Reddy, P. Kadigachalam, Ranjan K. Basak, A.P. John Pal, Yashwant D. Vankar Structure 13C NMR ̼Æ×Ä£Äâͼ |
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