2009
DOI: 10.1016/j.cbpb.2009.08.008
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Quercetin-metabolizing CYP6AS enzymes of the pollinator Apis mellifera (Hymenoptera: Apidae)

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Cited by 129 publications
(122 citation statements)
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“…Honey bees metabolize phytochemicals found in honey and pollen as well as acaricides used in-hive for management of Varroa destructor, an ectoparasitic mite of honey bees, via a number of CYP6 and CYP9 family members. Quercetin, a flavonoid constituent of honey and pollen, is metabolized by three enzymes in the CYP6AS subfamily and two enzymes in the CYP9Q subfamily (15,16), whereas the acaricides coumaphos and τ-fluvalinate are detoxified by three enzymes in the CYP9Q subfamily (16). Regulation of these detoxification genes in A. mellifera differs in some respects from P450 regulation in other insects (17) in that CYP6AS3, which metabolizes quercetin, is not inducible by its substrate or by phenobarbital, a classic experimental inducer of insect P450 transcription.…”
Section: Abaecin | Cytochrome P450mentioning
confidence: 99%
“…Honey bees metabolize phytochemicals found in honey and pollen as well as acaricides used in-hive for management of Varroa destructor, an ectoparasitic mite of honey bees, via a number of CYP6 and CYP9 family members. Quercetin, a flavonoid constituent of honey and pollen, is metabolized by three enzymes in the CYP6AS subfamily and two enzymes in the CYP9Q subfamily (15,16), whereas the acaricides coumaphos and τ-fluvalinate are detoxified by three enzymes in the CYP9Q subfamily (16). Regulation of these detoxification genes in A. mellifera differs in some respects from P450 regulation in other insects (17) in that CYP6AS3, which metabolizes quercetin, is not inducible by its substrate or by phenobarbital, a classic experimental inducer of insect P450 transcription.…”
Section: Abaecin | Cytochrome P450mentioning
confidence: 99%
“…However, an expansion is observed in the CYP6AS subfamily (Mao et al 2009) and a similar expansion in the CYP6 family in lepidopteran genomes is related to the xenobiotic detoxification ability of these insects (Li et al, 2003). The dominance and redundancy of the CYP6AS family in the honeybee genome may in part be responsible for the ability of bees to detoxify both natural (Mao et al, 2009) and synthetic (Mao et al, 2011;Suchail et al, 2003) xenobiotics present in their diet. An alternative -but not mutually exclusive -explanation for the resistance to pesticides suggested by our results could be the higher genetic variability of African honeybee populations.…”
Section: Discussionmentioning
confidence: 99%
“…Compared to other insect genomes, the honeybee genome encompasses far fewer xenobiotic-metabolising P450 genes (Claudianos et al, 2006). However, an expansion is observed in the CYP6AS subfamily (Mao et al 2009) and a similar expansion in the CYP6 family in lepidopteran genomes is related to the xenobiotic detoxification ability of these insects (Li et al, 2003). The dominance and redundancy of the CYP6AS family in the honeybee genome may in part be responsible for the ability of bees to detoxify both natural (Mao et al, 2009) and synthetic (Mao et al, 2011;Suchail et al, 2003) xenobiotics present in their diet.…”
Section: Discussionmentioning
confidence: 99%
“…s a pollinator, the western honey bee Apis mellifera consumes nectar and pollen (albeit in processed form as honey and beebread), and in doing so generally encounters dietary phytochemicals in substantially lower concentrations than do insect herbivores that consume chemically well-defended foliage (1). The polylectic foraging behavior of A. mellifera (2), however, exposes the honey bee to a potentially broad diversity of phytochemicals and its habit of concentrating nectar to make honey suggests that honey bees encounter phytochemicals at higher concentrations than do most nectar-feeding pollinators that do not process their food (3)(4)(5)(6).…”
mentioning
confidence: 99%