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Kamata et al..
Efficient stereo- and regioselective hydroxylation of alkanes catalysed by a bulky polyoxometalate
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Nature Chemistry, 2010
[DOI: 10.1038/nchem.648]
Bhandari P; Gargano JW; Goddeeris MM; Grotewiel MS.
Behavioral responses to odorants in drosophila require nervous system expression of the beta integrin gene myospheroid.
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Chemical senses
[PubMed: 16763085]
[DOI: 10.1093/chemse/bjl002]
Kutsukake M; Komatsu A; Yamamoto D; Ishiwa-Chigusa S.
A tyramine receptor gene mutation causes a defective olfactory behavior in Drosophila melanogaster.
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Gene
[PubMed: 10713442]
ELLIOTT TH; TAO RC; WILLIAMS RT.
THE METABOLISM OF METHYLCYCLOHEXANE.
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The Biochemical journal
Linley JR.
Laboratory tests of the effects of p-cresol and 4-methylcyclohexanol on oviposition by three species of Toxorhynchites mosquitoes.
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Medical and veterinary entomology
Bentley MD; McDaniel IN; Davis EE.
Studies of 4-methylcyclohexanol: an Aedes triseriatus (Diptera: Culicidae) oviposition attractant.
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Journal of medical entomology
ELLIOTT TH; TAO RC; WILLIAMS RT.
STEREOCHEMICAL ASPECTS OF THE METABOLISM OF THE ISOMERIC METHYLCYCLOHEXANOLS AND METHYLCYCLOHEXANONES.
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The Biochemical journal
Hiroi M; Ohkura M; Nakai J; Masuda N; Hashimoto K; Inoue K; Fiala A; Tabata T.
Principal component analysis of odor coding at the level of third-order olfactory neurons in Drosophila.
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Genes to cells : devoted to molecular & cellular mechanisms
[DOI: 10.1111/gtc.12094]
Zhou X; Yuan C; Guo A.
Drosophila olfactory response rhythms require clock genes but not pigment dispersing factor or lateral neurons.
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Journal of biological rhythms
[DOI: 10.1177/0748730405274451]
Guo J; Guo A.
Crossmodal interactions between olfactory and visual learning in Drosophila.
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Science (New York, N.Y.)
[DOI: 10.1126/science.1111280]
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