Abstract
CYP6AB3v1, a cytochrome P450 monooxygenase in Depressaria pastinacella (parsnip webworm), is highly specialized for metabolizing imperatorin, a toxic furanocoumarin in the apiaceous host plants of this insect. Cloning and heterologous expression of CYP6AB3v2, an allelic variant identified in D. pastinacella, reveals that it metabolizes imperatorin at a rate (V(max) of 10.02 pmol/min/pmol of cytochrome P450 monooxygenase (P450)) significantly higher than CYP6AB3v1 (V(max) of 2.41 pmol/min/pmol) when supplemented with even low levels of cytochrome P450 reductase. Comparisons of the NADPH consumption rates for these variants indicate that CYP6AB3v2 utilizes this electron source at a faster rate than does CYP6AB3v1. Molecular modeling of the five amino acid differences between these variants and their potential interactions with P450 reductase suggests that replacement of Val(92) on the proximal face of CYP6AB3v1 with Ala(92) in CYP6AB3v2 affects interactions with P450 reductase so as to enhance its catalytic activity. Allelic variation at this locus potentially allows D. pastinacella to adapt to both intraspecific and interspecific variation in imperatorin concentrations in its host plants.
Highlights
Much of what is known of allelic variation in insect P450s results from studies of insecticide resistance
Perhaps the best evidence of such allelic variation is the existence of three amino acid variations in CYP6A2 (R335S, L336V, V476L) in the DDT-resistant RDDTR strain of Drosophila melanogaster; these substitutions occur near the CYP6A2 active site and increase catalytic efficiency of the CYP6A2 enzyme against DDT, 7-ethoxycoumarin, and 7-benzoyloxycoumarin [5]
Regulatory changes leading to overexpression may be common in P450-mediated insecticide resistance, allelic variations in coding sequences that affect the relative efficiency of substrate metabolism may be of adaptive value in herbivorous insects, those with a narrow range of chemically similar host plants
Summary
Much of what is known of allelic variation in insect P450s results from studies of insecticide resistance. The CYP6AB3v1 protein heterologously expressed in Sf9 cells is highly specialized for metabolizing imperatorin with Vmax and Km of 2.41 pmol/min/pmol of P450 and 94.28 M, respectively [21].
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