A novel putative insect chitinase with multiple catalytic domains: hormonal regulation during metamorphosis

6533b820fe1ef96bd12790e9

RESEARCH PRODUCT

A novel putative insect chitinase with multiple catalytic domains: hormonal regulation during metamorphosis

Stéphane Fraichard Véronique Royer Hervé Bouhin

subject

Insecta Messenger/metabolism Biochemistry chemistry.chemical_compound Catalytic Domain Hormone metabolism Northern Cloning Molecular Cycloheximide Tenebrio Peptide sequence Phylogeny chemistry.chemical_classification Protein Synthesis Inhibitors Differential display Blotting Chitinases Metamorphosis Biological Amino acid Insects Biochemistry Protein Synthesis Inhibitors/pharmacology Insect Proteins Research Article Protein Structure DNA Complementary Sequence analysis Chitinase/*chemistry/genetics/*metabolism Molecular Sequence Data Tenebrio/metabolism Methoprene Biology Complementary/metabolism Animals Hormones/*metabolism RNA Messenger Amino Acid Sequence Molecular Biology Gene Library Insect Proteins/*chemistry/genetics/*metabolism Metamorphosis Gene Expression Profiling Molecular Cell Biology DNA Methoprene/pharmacology Blotting Northern Methoprene Biological Hormones Protein Structure Tertiary chemistry Chitinase Juvenile hormone biology.protein RNA Cycloheximide/pharmacology Epidermis Tertiary Cloning Epidermis/metabolism

description

0264-6021 (Print) Journal Article Research Support, Non-U.S. Gov't; We have used differential display to identify genes that are regulated by juvenile hormone in the epidermis of the beetle Tenebrio molitor. One of the genes encodes T. molitor chitinase 5 (TmChit5), a chitinase possessing an unusual structure. Sequence analysis of TmChit5 identified five 'chitinase units' of approx. 480 amino acids with similarity to chitinase family 18. These units are separated by less conserved regions containing putative PEST (rich in proline, glutamic acid, serine and threonine) sequences, putative chitin-binding domains and mucin domains. Northern-blot analysis identified a single transcript of approx. 9 kb, whose abundance correlated with that of 20-hydroxyecdysone during metamorphosis. Injection of pupae with 20-hydroxyecdysone alone, or in combination with cycloheximide, indicated that TmChit5 expression is directly induced by the hormone. Further experiments indicated that methoprene (a juvenile hormone analogue) indirectly induced TmChit5 mRNA expression. On the basis of the present results and previous studies, we propose a molecular mechanism for cuticle digestion during the moulting process.

year	journal	country	edition	language
2002-09-15

https://hal.science/hal-00451462