ID Name Structure References (top 5) Molecular Target(s)
1ID:1432
P-CYMENE


NSC#:4162
Aldrich#:30039
Aldrich#:30040
Aldrich#:C121452

Freqency:
in 6 ingredients:

  • 177
  • 359
  • 584
  • 624
  • 702
  • 726
  • in 17 recipes:

  • 10
  • 43
  • 48
  • 89
  • 109
  • 111
  • 202
  • 215
  • 219
  • 223
  • 233
  • 274
  • 279
  • 309
  • 369
  • 489
  • 507

  • Properties
    C10H14    134.22





    1:  Chen H, Parkinson JA, Morris RE, Sadler PJ.
    Highly Selective Binding of Organometallic Ruthenium Ethylenediamine Complexes to Nucleic Acids: Novel Recognition Mechanisms.
    J Am Chem Soc.    impact factor:   5.537
    2003;  125(1): 173-186

    2:  Hylemon PB, Harder J.
    Biotransformation of monoterpenes, bile acids, and other isoprenoids in anaerobic ecosystems.
    FEMS Microbiol Rev.    impact factor:   4.209
    1998;  22(5): 475-88

    3:  Giraudet P, Berthommier F, Chaput M.
    Mitral cell temporal response patterns evoked by odor mixtures in the rat olfactory bulb.
    J Neurophysiol.    impact factor:   3.935
    2002;  88(2): 829-38

    4:  Yonemori M, Nishijo H, Uwano T, Tamura R, Furuta I, Kawasaki M, Takashima Y, Ono T.
    Orbital cortex neuronal responses during an odor-based conditioned associative task in rats.
    Neuroscience.    impact factor:   3.924
    2000;  95(3): 691-703

    5:  Eaton RW.
    p-Cymene catabolic pathway in Pseudomonas putida F1: cloning and characterization of DNA encoding conversion of p-cymene to p-cumate.
    J Bacteriol.    impact factor:   3.712
    1997;  179(10): 3171-80

     
    Time used: 109 milliseconds.

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