Journal Title
Title of Journal: Mycol Progress
|
Abbravation: Mycological Progress
|
Publisher
Springer-Verlag
|
|
|
|
|
|
Authors: Maria Cecilia Gortari Roque Alberto Hours
Publish Date: 2008/09/26
Volume: 7, Issue: 4, Pages: 221-238
Abstract
Chitin the most abundant aminopolysaccharide in nature is a rigid and resistant structural component that contributes to the mechanical strength of chitincontaining organisms Chemically it is a linear cationic heteropolysaccharide composed of NacetylDglucosamine and Dglucosamine units The enzymatic degradation of chitin is performed by a chitinolytic system with synergistic and consecutive action Diverse organisms containing chitin or not produce a great variety of chitinolytic enzymes with different specificities and catalytic properties Their physiological roles involve nutrition parasitism chitin recycling morphogenesis and/or defense Microorganisms as the main environmental chitin degraders constitute a very important natural source of chitinolytic enzymes Nowadays the most used method for pest and plant diseases control is the utilization of chemical agents causative of significant environmental pollution Social concern has generated the search for alternative control systems ie biological control which contribute to the generation of sustainable agricultural development Interactions among the different organisms are the natural bases of biological control Interest in chitinolytic enzymes in the field of biological control has arisen due to their possible involvement in antagonistic activity against pathogenic chitincontaining organisms The absence of chitin in plants and vertebrate animals allows the consideration of safe and selective “target” molecules for control of chitincontaining pathogenic organisms Fungi show appropriate characteristics as potential biological control agents of insects fungi and nematodes due to the production of fungal enzymes with antagonistic action The antagonistic interactions between fungi and plant nematode parasites are among the most studied experimental models because of the high economic relevance Fungi which target nematodes are known as nematophagous fungi The nematode egg is the only structural element where the presence of chitin has been demonstrated In spite of being one of the most resistant biological structures eggs are susceptible to being attacked by eggparasitic fungi A combination of physical and chemical phenomena result in their complete destruction The contribution of fungal chitinases to the in vitro rupture of the eggshell confirms their role as a pathogenic factor Chitinases have been produced by traditional fermentation methods which have been improved by optimizing the culture conditions for industrial processes Although wildtype microorganisms constitute an alternative source of chitinolytic enzymes the advances in molecular biology are allowing the genetic transformation of fungi to obtain strains with high capability as biocontrol agents Simultaneously a better understanding of rhizosphere interactions additional to the discovery of new molecular biology tools will allow the choosing of better alternatives for the biological control of nematodes in order to achieve an integrated management of the soil ecosystem
Keywords:
.
|
Other Papers In This Journal:
|