ID Name Structure References (top 5) Molecular Target(s)
1ID:2
ABIETIC ACID


NSC#:13163
NSC#:25149
NSC#:58970
NSC#:154789
NSC#:224312
NSC#:224316
NSC#:226139
Aldrich#:00010
Aldrich#:165026
Aldrich#:A9424

Freqency:
in 2 ingredients:

  • 760
  • 803
  • in 18 recipes:

  • 4
  • 37
  • 100
  • 141
  • 174
  • 208
  • 236
  • 268
  • 285
  • 335
  • 339
  • 352
  • 380
  • 405
  • 422
  • 461
  • 469
  • 470

  • Properties
    C20H30O2    302.45





    1:  Vogel BS, Wildung MR, Vogel G, Croteau R.
    Abietadiene synthase from grand fir (Abies grandis). cDNA isolation, characterization, and bacterial expression of a bifunctional diterpene cyclase involved in resin acid biosynthesis.
    J Biol Chem.    impact factor:   7.666
    1996;  271(38): 23262-8

    2:  Imaizumi Y, Sakamoto K, Yamada A, Hotta A, Ohya S, Muraki K, Uchiyama M, Ohwada T.
    Molecular basis of pimarane compounds as novel activators of large-conductance Ca(2+)-activated K(+) channel alpha-subunit.
    Mol Pharmacol.    impact factor:   5.465
    2002;  62(4): 836-46

    3:  Peters RJ, Flory JE, Jetter R, Ravn MM, Lee HJ, Coates RM, Croteau RB.
    Abietadiene synthase from grand fir (Abies grandis): characterization and mechanism of action of the "pseudomature" recombinant enzyme.
    Biochemistry.    impact factor:   4.493
    2000;  39(50): 15592-602

    4:  Funk C, Lewinsohn E, Vogel BS, Steele CL, Croteau R.
    Regulation of Oleoresinosis in Grand Fir (Abies grandis) (Coordinate Induction of Monoterpene and Diterpene Cyclases and Two Cytochrome P450-Dependent Diterpenoid Hydroxylases by Stem Wounding).
    Plant Physiol.    impact factor:   4.434
    1994;  106(3): 999-1005

    5:  Cross BE, Myers PL.
    The bacterial transformation of abietic acid.
    Biochem J.    impact factor:   4.349
    1968;  108(2): 303-10

    ARG
    MET
    P450
    STEP
     
    Time used: 172 milliseconds.

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