Add to ORKGBoth chitin degradation by chitinases and the hormonal control of chitin biosynthesis can interfere with the development of fungi in the invaded insect cuticle. As far as prospective research in applied biology is concerned, it may be suggested that a better knowledge of the biochemistry of chitin biosynthesis in insects would allow a fruitful comparison with that a fungi. The influence of insect molting hrmones on the chitin synthesizing system of fungi could also open interesting developments. Finally, a better knowledge of the mechanisms allowing the penetration of fungal filaments through the cuticle is of course needed : the exceptional resistance of the chitinprotein complex of the exocuticle to enzymatic breakdown by the molting flui...
Chitin is a major component of the cuticle of arthropods. However, the synthesis of chitin is poorly...
It is already known that chitin in a single organism can exhibit huge differences depending on the f...
Chitin is the second most plenteous polysaccharide in nature after cellulose, present in cell walls ...
In this thesis the regulation of chitin synthases by proteolytic activation has been analyzed in yea...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Entomopathogenic fungi produce a variety of destructive enzymes and metabolites to overcome the uniq...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Chitin, the most abundant aminopolysaccharide in nature, is a rigid and resistant structural compone...
For a long time, fungi have been characterized by their ability to secrete enzymes, mostly hydrolyti...
It is already known that chitin in a single organism can exhibit huge differences depending on the f...
Chitin is a major component of the cuticle of arthropods. However, the synthesis of chitin is poorly...
It is already known that chitin in a single organism can exhibit huge differences depending on the f...
Chitin is the second most plenteous polysaccharide in nature after cellulose, present in cell walls ...
In this thesis the regulation of chitin synthases by proteolytic activation has been analyzed in yea...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Entomopathogenic fungi produce a variety of destructive enzymes and metabolites to overcome the uniq...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Cuticular chitin degradation is extremely important for insect growth and development, which has not...
Chitin, the most abundant aminopolysaccharide in nature, is a rigid and resistant structural compone...
For a long time, fungi have been characterized by their ability to secrete enzymes, mostly hydrolyti...
It is already known that chitin in a single organism can exhibit huge differences depending on the f...
Chitin is a major component of the cuticle of arthropods. However, the synthesis of chitin is poorly...
It is already known that chitin in a single organism can exhibit huge differences depending on the f...
Chitin is the second most plenteous polysaccharide in nature after cellulose, present in cell walls ...