Spiroethers of German chamomile inhibit production of aflatoxin G 1 and trichothecene mycotoxin by inhibiting cytochrome P450 monooxygenases involved in their biosynthesis

FEMS Microbiology Letters

Volumn 284, Issue 2, 2008, Pages 184-190

  Yoshinari, Tomoya ^a   Yaguchi, Atsushi ^a   Takahashi Ando, Naoko ^b   Kimura, Makoto ^b   Takahashi, Haruo ^c   Nakajima, Takashi ^d   Sugita Konishi, Yoshiko ^e   Nagasawa, Hiromichi ^a   Sakuda, Shohei ^a  

^a UNIVERSITY OF TOKYO   (Japan)

^b Japan Science and Technology Agency   (Japan)

^c CHIBA PREFECTURAL UNIVERSITY OF HEALTH SCIENCES   (Japan)

^d NATIONAL AGRICULTURAL RESEARCH CENTER FOR KYUSHU OKINAWA REGION   (Japan)

^e NATIONAL INSTITUTE OF HEALTH SCIENCES   (Japan)

Author keywords

Aflatoxin; CypA; Deoxynivalenol; German chamomile; Spiroether; Tri4

Indexed keywords

AFLATOXIN G1; CHAMOMILE; CYTOCHROME P450; ETHER; MYCOTOXIN; TRICHOTHECENE; UNSPECIFIC MONOOXYGENASE;

ARTICLE; ASPERGILLUS PARASITICUS; CONTROLLED STUDY; ENZYME ACTIVITY; ENZYME SYNTHESIS; FUSARIUM GRAMINEARUM; IC 50; NONHUMAN; PRIORITY JOURNAL;

AFLATOXIN B1; AFLATOXINS; ASPERGILLUS; CYTOCHROME P-450 ENZYME SYSTEM; ETHERS; FUSARIUM; HYDROXYLATION; MATRICARIA; OILS, VOLATILE; SPIRO COMPOUNDS; STERIGMATOCYSTIN; TRICHOTHECENES;

ASPERGILLUS PARASITICUS; GIBBERELLA ZEAE;

EID: 44949162014     PISSN: 03781097     EISSN: 15746968     Source Type: Journal    
DOI: 10.1111/j.1574-6968.2008.01195.x     Document Type: Article

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