ID Name Structure References (top 5) Molecular Target(s)
1ID:2289
EUGENOL


NSC#:8895
NSC#:209525
Aldrich#:46100
Aldrich#:46129
Aldrich#:E51791
Aldrich#:E5504

Freqency:
in 7 ingredients:

  • 114
  • 142
  • 301
  • 456
  • 558
  • 690
  • 898
  • in 59 recipes:

  • 4
  • 19
  • 23
  • 37
  • 44
  • 72
  • 80
  • 100
  • 102
  • 111
  • 157
  • 166
  • 174
  • 181
  • 184
  • 200
  • 208
  • 223
  • 229
  • 231
  • 233
  • 236
  • 238
  • 242
  • 247
  • 255
  • 257
  • 259
  • 262
  • 268
  • 285
  • 289
  • 308
  • 322
  • 333
  • 339
  • 341
  • 342
  • 352
  • 355
  • 361
  • 380
  • 381
  • 382
  • 409
  • 412
  • 446
  • 461
  • 465
  • 469
  • 470
  • 472
  • 474
  • 475
  • 484
  • 497
  • 500
  • 502
  • 519

  • Properties
    C10H12O2    164.2





    1:  Gang DR, Lavid N, Zubieta C, Chen F, Beuerle T, Lewinsohn E, Noel JP, Pichersky E.
    Characterization of phenylpropene O-methyltransferases from sweet basil: facile change of substrate specificity and convergent evolution within a plant O-methyltransferase family.
    Plant Cell.    impact factor:   10.463
    2002;  14(2): 505-19

    2:  Fujisawa S, Atsumi T, Satoh K, Sakagami H.
    Interaction between 2-Ethoxybenzoic Acid (EBA) and Eugenol, and Related Changes in Cytotoxicity.
    J Dent Res.    impact factor:   4.556
    2003;  82(1): 43-7

    3:  Lavid N, Wang J, Shalit M, Guterman I, Bar E, Beuerle T, Menda N, Shafir S, Zamir D, Adam Z, Vainstein A, Weiss D, Pichersky E, Lewinsohn E.
    O-methyltransferases involved in the biosynthesis of volatile phenolic derivatives in rose petals.
    Plant Physiol.    impact factor:   4.434
    2002;  129(4): 1899-907

    4:  Gang DR, Beuerle T, Ullmann P, Werck-Reichhart D, Pichersky E.
    Differential Production of meta Hydroxylated Phenylpropanoids in Sweet Basil Peltate Glandular Trichomes and Leaves Is Controlled by the Activities of Specific Acyltransferases and Hydroxylases.
    Plant Physiol.    impact factor:   4.434
    2002;  130(3): 1536-44

    5:  Overhage J, Steinbuchel A, Priefert H.
    Biotransformation of eugenol to ferulic acid by a recombinant strain of Ralstonia eutropha H16.
    Appl Environ Microbiol.    impact factor:   3.541
    2002;  68(9): 4315-21

     
    Time used: 125 milliseconds.

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