Novel chitinase genes from metagenomic DNA prepared from marine sediments in southwest Japan.

Chitinase degrades chitin which comprises an important source of carbon and nitrogen in the marine environment. The aim of this study was to evaluate the population of chitinases in the marine sediments in southwest Japan. We collected marine sediments from eutrophic inner bay and offshore. Chitin-degrading bacteria were enriched from both sediments. Metagenomic DNA was isolated from the enriched chitin-degrading bacterial cell culture. At the same time, 25 chitin-degrading bacteria were isolated from the enriched culture. Partial fragments of chitinase genes were successfully amplified with degenerate primers designed for the glycoside hydrolase 18 family. We analyzed chitinase gene sequences of about 500 clones from metagenomic DNA prepared from chitin-degrading bacteria. Based on translated amino acid sequences, chitinases were grouped into five groups. Chitinases in groups II and III was most abundant and close to chitinase genes of several species of proteobacteria. On the other hand, chitinases in groups I, IV and V were unique and distinct from the known chitinases. These results indicate that the marine sediments used in this study contain diversity of chitinase genes.

[1]  J. Jansson,et al.  Chitinase genes revealed and compared in bacterial isolates, DNA extracts and a metagenomic library from a phytopathogen-suppressive soil. , 2010, FEMS microbiology ecology.

[2]  J. Stenlid,et al.  Evolution of Family 18 Glycoside Hydrolases: Diversity, Domain Structures and Phylogenetic Relationships , 2008, Journal of Molecular Microbiology and Biotechnology.

[3]  Hiroyuki Kimura,et al.  Planktonic Bacterial Population Dynamics with Environmental Changes in Coastal Areas of Suruga Bay , 2007 .

[4]  J. Tiedje,et al.  Naïve Bayesian Classifier for Rapid Assignment of rRNA Sequences into the New Bacterial Taxonomy , 2007, Applied and Environmental Microbiology.

[5]  J. Kristjánsson,et al.  Investigation of the Microbial Ecology of Intertidal Hot Springs by Using Diversity Analysis of 16S rRNA and Chitinase Genes , 2005, Applied and Environmental Microbiology.

[6]  J. Hollibaugh,et al.  Chitinase Gene Sequences Retrieved from Diverse Aquatic Habitats Reveal Environment-Specific Distributions , 2004, Applied and Environmental Microbiology.

[7]  K. Shockley,et al.  Growth of Hyperthermophilic Archaeon Pyrococcus furiosus on Chitin Involves Two Family 18 Chitinases , 2003, Applied and Environmental Microbiology.

[8]  T. Kubota,et al.  Characterization of Chitinase Genes from an Alkaliphilic Actinomycete, Nocardiopsis prasina OPC-131 , 2003, Applied and Environmental Microbiology.

[9]  J. Prosser,et al.  Molecular Analysis of a Bacterial Chitinolytic Community in an Upland Pasture , 2002, Applied and Environmental Microbiology.

[10]  H. Cauchie Chitin production by arthropods in the hydrosphere , 2002, Hydrobiologia.

[11]  J. Thompson,et al.  CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice. , 1994, Nucleic acids research.