The growth characterization and enzyme productivity of halotolerant microorganisms isolated from the Nakdong River estuary wetland in Korea were investigated in this study. The isolation of halotolerant microorganisms was carried out through their cultivation at 37oC for several days using a marine agar medium. After a single-colony isolation, 16 pure colonies were obtained, and phylogenetic analysis was done using 16S-based ID service in the EzBioCloud database. The isolated strains were divided into 3 phyla, 5 families, 7 genera, and 13 species. Possible industrial applications of the strains were confirmed upon testing for amylolytic, lipolytic, and proteolytic activity to confirm the possible production of hydrolytic enzymes, growth at a pH range of 5 to 9, and various salt concentrations being tested. Thirteen strains possessed at least one enzyme activity, and 5 strains possessed 2 enzyme activities. Eight strains could tolerate up to 10% NaCl concentration. This result indicated that isolated strains had shown the possible application in food and cosmetic industries. Therefore, this study would contribute to securing domestic biological resources and improving hydrolytic enzyme activity using these strains.

Abstract
Introduction
Materials and Methods
    Isolation and cultivation of halotolerant bacteria
    Phylogenetic analysis of 16S rDNA sequence
    Hydrolytic enzyme activity analysis
    Auxin detection analysis
Results and Discussion
    Isolation of halotolerant bacteria
    Phylogenetic analysis of 16S rDNA sequence
    Hydrolytic enzyme and auxin activity analysis
Summary
References

• Yong-Jik Lee(Major in Food Biotechnology and Research Center for Extremophiles & Marine Microbiology, Silla University)
• Dariimaa Ganbat(Major in Food Biotechnology and Research Center for Extremophiles & Marine Microbiology, Silla University)
• Ga Eul Jeong(Major in Food Biotechnology and Research Center for Extremophiles & Marine Microbiology, Silla University)
• YuJeong Yeom(Major in Food Biotechnology and Research Center for Extremophiles & Marine Microbiology, Silla University)
• Bo Gyeong Choi(Major in Food Biotechnology and Research Center for Extremophiles & Marine Microbiology, Silla University)
• Gi-Seob Hong(Major in Food Biotechnology and Research Center for Extremophiles & Marine Microbiology, Silla University)
• Mi-Hwa Park(Department of Food and Nutrition, College of Medical and Life Science, Silla University)
• You-Jung Jung(Biological & Genetic Resources Assessment division, National Institute of Biological Resources)
• Kee-Sun Shin(Industrial Bio-materials Research Center, Korea Research Institute of Bioscience and Biotechnology (KRIBB))
• Sang-Jae Lee(Major in Food Biotechnology and Research Center for Extremophiles & Marine Microbiology, Silla University) Corresponding author