Screening for Ames mutagenicity of food flavor chemicals by (quantitative) structure-activity relationship

被引:0
|
作者
Masamitsu Honma
Airi Kitazawa
Toshio Kasamatsu
Kei-ichi Sugiyama
机构
[1] National Institute of Health Sciences,Division of Genetics and Mutagenesis
来源
Genes and Environment | / 42卷
关键词
Food flavors; Mutagenicity; Ames test; (quantitative) structure-activity relationship ((Q)SAR);
D O I
暂无
中图分类号
学科分类号
摘要
引用
下载
收藏
相关论文
共 50 条
  • [1] Screening for Ames mutagenicity of food flavor chemicals by (quantitative) structure-activity relationship
    Honma, Masamitsu
    Kitazawa, Airi
    Kasamatsu, Toshio
    Sugiyama, Kei-ichi
    GENES AND ENVIRONMENT, 2020, 42 (01)
  • [2] Development of a new quantitative structure-activity relationship model for predicting Ames mutagenicity of food flavor chemicals using StarDrop™ auto-Modeller™
    Kasamatsu, Toshio
    Kitazawa, Airi
    Tajima, Sumie
    Kaneko, Masahiro
    Sugiyama, Kei-ichi
    Yamada, Masami
    Yasui, Manabu
    Masumura, Kenichi
    Horibata, Katsuyoshi
    Honma, Masamitsu
    GENES AND ENVIRONMENT, 2021, 43 (01)
  • [3] Development of a new quantitative structure–activity relationship model for predicting Ames mutagenicity of food flavor chemicals using StarDrop™ auto-Modeller™
    Toshio Kasamatsu
    Airi Kitazawa
    Sumie Tajima
    Masahiro Kaneko
    Kei-ichi Sugiyama
    Masami Yamada
    Manabu Yasui
    Kenichi Masumura
    Katsuyoshi Horibata
    Masamitsu Honma
    Genes and Environment, 43
  • [4] New Quantitative Structure-Activity Relationship Models Improve Predictability of Ames Mutagenicity for Aromatic Azo Compounds
    Manganelli, Serena
    Benfenati, Emilio
    Manganaro, Alberto
    Kulkarni, Sunil
    Barton-Maclaren, Tara S.
    Honma, Masamitsu
    TOXICOLOGICAL SCIENCES, 2016, 153 (02) : 316 - 326
  • [5] Improvement of quantitative structure-activity relationship (QSAR) tools for predicting Ames mutagenicity: outcomes of the Ames/QSAR International Challenge Project
    Honma, Masamitsu
    Kitazawa, Airi
    Cayley, Alex
    Williams, Richard V.
    Barber, Chris
    Hanser, Thierry
    Saiakhov, Roustem
    Chakravarti, Suman
    Myatt, Glenn J.
    Cross, Kevin P.
    Benfenati, Emilio
    Raitano, Giuseppa
    Mekenyan, Ovanes
    Petkov, Petko
    Bossa, Cecilia
    Benigni, Romualdo
    Battistelli, Chiara Laura
    Giuliani, Alessandro
    Tcheremenskaia, Olga
    DeMeo, Christine
    Norinder, Ulf
    Koga, Hiromi
    Jose, Ciloy
    Jeliazkova, Nina
    Kochev, Nikolay
    Paskaleva, Vesselina
    Yang, Chihae
    Daga, Pankaj R.
    Clark, Robert D.
    Rathman, James
    MUTAGENESIS, 2019, 34 (01) : 3 - 16
  • [6] An assessment of mutagenicity of chemical substances by (quantitative) structure-activity relationship
    Honma, Masamitsu
    GENES AND ENVIRONMENT, 2020, 42 (01)
  • [7] Quantitative structure-activity relationship modeling of dermatomyositis activity of drug chemicals
    Kamenska, Verginia
    Dourmishev, Lyubomir
    Dourmishev, Assen
    Vasilev, Rusi
    Mekenyan, Ovanes
    ARZNEIMITTEL-FORSCHUNG-DRUG RESEARCH, 2006, 56 (12): : 856 - 865
  • [8] Quantitative Structure-Activity Relationship Models for Ready Biodegradability of Chemicals
    Mansouri, Kamel
    Ringsted, Tine
    Ballabio, Davide
    Todeschini, Roberto
    Consonni, Viviana
    JOURNAL OF CHEMICAL INFORMATION AND MODELING, 2013, 53 (04) : 867 - 878
  • [9] Screening of 397 chemicals and development of a quantitative structure-activity relationship model for androgen receptor antagonism
    Vinggaard, Anne Marie
    Niemela, Jay
    Wedebye, Eva Bay
    Jensen, Gunde Egeskov
    CHEMICAL RESEARCH IN TOXICOLOGY, 2008, 21 (04) : 813 - 823
  • [10] Quantitative structure-activity relationship of flavonoids for inhibition of heterocyclic amine mutagenicity
    Hatch, FT
    Lightstone, FC
    Colvin, ME
    ENVIRONMENTAL AND MOLECULAR MUTAGENESIS, 2000, 35 (04) : 279 - 299
12345