A. Krishna Kumaran scite author profile

Boll weevil (Anthonomus grandis) eggs contain two yolk proteins, YP47 and YP160. Using anti-YP160 antiserum as probe, a partial-length complementary DNA (cDNA) was isolated from a lambda gt11 adult female cDNA library. A second partial-length cDNA was isolated from a lambda gt10 adult female cDNA library by differential screening with male vs. female cDNAs. Northern blot analysis showed that each cloned cDNA hybridized to a 6-kb female-specific transcript. These cDNAs were used to probe a genomic library, and two overlapping genomic clones were obtained that span the boll weevil vitellogenin gene. The entire transcription unit was sequenced, and introns were mapped by a combination of primer extension experiments, S1 nuclease protection experiments, and polymerase chain reaction-mediated synthesis of two additional cDNA clones. Based on these data, the vitellogenin mRNA is 5511 nucleotides [plus a poly(A) tail of undetermined length] and specifies a provitellogenin of 1790 amino acids. The deduced protein has a Glu+Gln content of 16.3%, which is a relatively high value that is typical of most vitellogenins. Protein sequence similarities including Cys clusters conserved between boll weevil vitellogenin and Xenopus laevis A2 or Caenorhabditis elegans vit-5 vitellogenins indicated that the boll weevil protein is a member of the ancient nematode-vertebrate vitellogenin family. Moreover, the six introns in the boll weevil vitellogenin gene interrupt the coding region at positions closely or exactly corresponding to a subset of the positions of the 34 vertebrate vitellogenin introns, further supporting the argument for a common evolutionary relationship. This report represents the first complete nucleotide sequence and structural analysis of a nondipteran insect vitellogenin gene.

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Silk gland specific cDNAs from Galleria mellonella L.

Z̆urovec

Sehnal

Scheller

et al. 1992

Insect Biochemistry and Molecular Biology

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Changes in ecdysone content during postembryonic development of the wax moth, Galleria mellonella: The role of the ovary

Bollenbacher

Zvenko

Kumaran

et al. 1978

General and Comparative Endocrinology

112

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Nucleotide sequence, structure and developmental regulation of LHP82, a juvenile hormone-suppressible hexamerin gene from the waxmoth, Galleria mellonella

Memmel

Trewitt

Grzelak

et al. 1994

Insect Biochemistry and Molecular Biology

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Tissue-specific and substrate-specific detection of aldehyde and pyridoxal oxidase in larval and imaginal tissues of Drosophila melanogaster

et al. 1982

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The substrate specificities of aldehyde and pyridoxal oxidases in Drosophila melanogaster have been determined with a variety of aliphatic and aromatic aldehydes. This analysis has led to the discovery that 2,4,5-trimethoxybenzaldehyde is a specific substrate for pyridoxal oxidase, as based on the histochemical distribution of oxidase activity, the absence of enzymatic activity in the lpo strains, and the dosage dependence on the number of 1po+ genes present. The tissue-specific localization of aldehyde oxidase (AO) and pyridoxal oxidase (PO) in the larval and adult structures showed that AO was present in all the major internal organs of the larvae and adults, including brain, imaginal discs, Malpighian tubules, digestive system, and reproductive structures. Pyridoxal oxidase is present in many of the same structures which possess AO, but is missing from the cardia, crop, imaginal discs, ovarian follicle cells, paragonia, pericardial cells, and wreath cells. The only structure which possesses PO but lacks AO is the larval salivary gland. These histochemical differences in AO and PO distribution were also confirmed by enzymatic analysis of the activities present in homogenates of ovaries, paragonia, and salivary glands. The general pattern of enzyme expression appears to be established during embryogenesis and maintained throughout the life of the individual.

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