ID Name Structure References (top 5) Molecular Target(s)
1ID:4938
PAEONIFLORIGENONE

Freqency:
in 1 ingredients:

  • 135
  • in 47 recipes:

  • 44
  • 47
  • 48
  • 55
  • 69
  • 79
  • 96
  • 101
  • 102
  • 109
  • 110
  • 116
  • 126
  • 172
  • 181
  • 182
  • 190
  • 206
  • 231
  • 256
  • 258
  • 260
  • 275
  • 278
  • 279
  • 297
  • 303
  • 319
  • 327
  • 338
  • 340
  • 341
  • 343
  • 363
  • 381
  • 382
  • 393
  • 405
  • 440
  • 441
  • 467
  • 472
  • 473
  • 476
  • 484
  • 523
  • 527

  • Properties
    C17H18O6    318.32





    1:  Lin HC, Ding HY, Wu YC.
    Two novel compounds from Paeonia suffructicosa.
    J Nat Prod.    impact factor:   1.652
    1998;  61(3): 343-6

    2:  Kimura M, Kimura I, Takahashi K, Muroi M, Yoshizaki M, Kanaoka M, Kitagawa I.
    Blocking effects of blended paeoniflorin or its related compounds with glycyrrhizin on neuromuscular junctions in frog and mouse.
    Jpn J Pharmacol.    impact factor:   1.317
    1984;  36(3): 275-82

    3:  Kimura M, Kimura I, Nojima H, Takahashi K, Hayashi T, Shimizu M, Morita N.
    Blocking effects of a new component, paeoniflorigenone, in paeony root on neuromuscular junctions of frogs and mice.
    Jpn J Pharmacol.    impact factor:   1.317
    1984;  35(1): 61-6

    4:  Papandreou V, Magiatis P, Kalpoutzakis E, Skaltsounis AL, Harvala C.
    Paeonicluside, a new salicylic glycoside from the Greek endemic species Paeonia clusii.
    Z Naturforsch [C].    impact factor:   .709
    2002;  57(3-4): 235-8

    5:  Ikeda N, Fukuda T, Jyo H, Shimada Y, Murakami N.
    [Quality evaluation on Paeoniae radix. I. Quantitative analysis of monoterpene glycosides constituents of Paeoniae radix by means of high performance liquid chromatography. Comparative characterization of the external figures, processing method and the cultivated areas]
    Yakugaku Zasshi.    impact factor:   .238
    1996;  116(2): 138-47

     
    Time used: 109 milliseconds.

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