Methyl palmitate: a novel product of the Medfly ( Ceratitiscapitata) corpus allatum

The corpus allatum (CA) of adult female Ceratitis capitata produces methyl palmitate (MP) in vitro, in addition to JHB 3 and JH III. Biosynthesized MP migrates on TLC and co-elutes from RP-18 HPLC with synthetic MP. Its identity is verified herein by GCMS. MP production is up-regulated twofold by me...

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Bibliographic Details
Published in:Insect biochemistry and molecular biology 2003-12, Vol.33 (12), p.1299-1306
Main Authors: Moshitzky, P., Miloslavski, I., Aizenshtat, Z., Applebaum, S.W.
Format: Article
Language:English
Subjects:
Animals
Ceratitis capitata
Ceratitis capitata - metabolism
Ceratitiscapitata
Chromatography, Thin Layer
Corpora Allata - metabolism
Corpus allatum
Fatty Acids, Monounsaturated - antagonists & inhibitors
Fatty Acids, Monounsaturated - metabolism
Fatty Acids, Unsaturated - pharmacology
Female
Fosfomycin - analogs & derivatives
Fosfomycin - pharmacology
Gas Chromatography-Mass Spectrometry
Gene Expression Regulation - drug effects
Juvenile hormone
Linoleic Acid - pharmacology
Lovastatin - analogs & derivatives
Lovastatin - pharmacology
Medfly
Methyl palmitate
Palmitates - antagonists & inhibitors
Palmitates - chemistry
Palmitates - isolation & purification
Palmitates - metabolism
Phytol - pharmacology
Reproductive regulation
Sesquiterpenes - antagonists & inhibitors
Sesquiterpenes - metabolism
Sexual Behavior, Animal - physiology
Tephritidae
Tritium
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Summary:The corpus allatum (CA) of adult female Ceratitis capitata produces methyl palmitate (MP) in vitro, in addition to JHB 3 and JH III. Biosynthesized MP migrates on TLC and co-elutes from RP-18 HPLC with synthetic MP. Its identity is verified herein by GCMS. MP production is up-regulated twofold by mevastatin, an inhibitor of mevalonic acid-dependent isoprene biosynthesis. Fosmidomycin, an inhibitor of mevalonic acid-independent isoprene synthesis in graminaceous plants, up-regulates MP synthesis by about fourfold. However, it does not depress JHB 3 biosynthesis concurrently. This suggests that the initial enzyme(s) in the conversion of 1-deoxy-xylulose 5-phosphate to isoprene is presumably present in C. capitata, but is inhibited by fosmidomycin, and this inhibition diverts precursors to MP synthesis. Phytol, an acyclic diterpene, might be suppressing isoprene biosynthesis by CA, thereby resulting in a fourfold increase in the MP biosynthesis. Linolenic acid is an end-product and its presence in incubation media up-regulates MP biosynthesis by twofold, presumably due to the feedback diversion to biosynthesis of C 16:0 and its methyl ester. Biosynthesis of MP is markedly depressed after mating, while otherwise maintained at significantly higher levels in virgin females. MP biosynthesis is significantly reduced in virgin females by direct axonal control but is less consistent after mating.
ISSN:0965-1748
1879-0240
DOI:10.1016/j.ibmb.2003.06.008