Your search keyword '"Megumi Fujita"' showing total 2 results

1. Isolation and characterization of a heavy metal- and antibiotic-tolerant novel bacterial strain from a contaminated culture plate of Chlamydomonas reinhardtii, a green micro-alga. [version 2; peer review: 2 approved]

Author

Mautusi Mitra, Kevin Manoap-Anh-Khoa Nguyen, Taylor Wayland Box, Taylor Lynne Berry, and Megumi Fujita

Subjects

Medicine, Science

Abstract

Background: Chlamydomonas reinhardtii, a green micro-alga, is normally cultured in laboratories in Tris-Acetate Phosphate (TAP), a medium which contains acetate as the sole carbon source. Acetate in TAP can lead to occasional bacterial and fungal contamination. We isolated a yellow-pigmented bacterium from a Chlamydomonas TAP plate. It was named Clip185 based on the Chlamydomonas strain plate it was isolated from. In this article we present our work on the isolation, taxonomic identification and physiological and biochemical characterizations of Clip185. Methods: We measured sensitivities of Clip185 to five antibiotics and performed standard microbiological tests to characterize it. We partially sequenced the 16S rRNA gene of Clip185. We identified the yellow pigment of Clip185 by spectrophotometric analyses. We tested tolerance of Clip185 to six heavy metals by monitoring its growth on Lysogeny Broth (LB) media plates containing 0.5 mM -10 mM concentrations of six different heavy metals. Results: Clip185 is an aerobic, gram-positive rod, oxidase-negative, mesophilic, alpha-hemolytic bacterium. It can ferment glucose, sucrose and mannitol. It is starch hydrolysis-positive. It is very sensitive to vancomycin but resistant to penicillin and other bacterial cell membrane- and protein synthesis-disrupting antibiotics. Clip185 produces a C50 carotenoid, decaprenoxanthin, which is a powerful anti-oxidant with a commercial demand. Decaprenoxanthin production is induced in Clip185 under light. NCBI-BLAST analyses of the partial 16S rRNA gene sequence of Clip185 revealed a 99% sequence identity to that of Microbacterium binotii strain PK1-12M and Microbacterium sp. strain MDP6. Clip185 is able to tolerate toxic concentrations of six heavy metals. Conclusions: Our results show that Clip185 belongs to the genus Microbacterium. In the future, whole genome sequencing of Clip185 will clarify if Clip185 is a new Microbacterium species or a novel strain of Microbacterium binotii, and will reveal its genes involved in antibiotic-resistance, heavy-metal tolerance and regulation of decaprenoxanthin biosynthesis.

Published

2021

2. Isolation and characterization of a heavy metal- and antibiotic-tolerant novel bacterial strain from a contaminated culture plate of Chlamydomonas reinhardtii, a green micro-alga

Author

Taylor Wayland Box, Taylor Lynne Berry, Megumi Fujita, Mautusi Mitra, and Kevin Manoap-Anh-Khoa Nguyen

Subjects

General Immunology and Microbiology, biology, Strain (chemistry), viruses, Chlamydomonas, Microbacterium, virus diseases, Chlamydomonas reinhardtii, General Medicine, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, medicine.disease_cause, digestive system diseases, General Biochemistry, Genetics and Molecular Biology, Bacterial cell structure, chemistry.chemical_compound, chemistry, Biochemistry, Lysogeny broth, medicine, Microbacterium binotii, General Pharmacology, Toxicology and Pharmaceutics, Bacteria

Abstract

Background: Chlamydomonas reinhardtii, a green micro-alga, is normally cultured in laboratories in Tris-Acetate Phosphate (TAP), a medium which contains acetate as the sole carbon source. Acetate in TAP can lead to occasional bacterial and fungal contamination. We isolated a yellow-pigmented bacterium from a Chlamydomonas TAP plate. It was named Clip185 based on the Chlamydomonas strain plate it was isolated from. In this article we present our work on the isolation, taxonomic identification and physiological and biochemical characterizations of Clip185. Methods: We measured sensitivities of Clip185 to five antibiotics and performed standard microbiological tests to characterize it. We partially sequenced the 16S rRNA gene of Clip185. We identified the yellow pigment of Clip185 by spectrophotometric analyses. We tested tolerance of Clip185 to six heavy metals by monitoring its growth on Lysogeny Broth (LB) media plates containing 0.5 mM -10 mM concentrations of six different heavy metals. Results: Clip185 is an aerobic, gram-positive rod, oxidase-negative, mesophilic, alpha-hemolytic bacterium. It can ferment glucose, sucrose and mannitol. It is starch hydrolysis-positive. It is very sensitive to vancomycin but resistant to penicillin and other bacterial cell membrane- and protein synthesis-disrupting antibiotics. Clip185 produces a C50 carotenoid, decaprenoxanthin, which is a powerful anti-oxidant with a commercial demand. Decaprenoxanthin production is induced in Clip185 under light. NCBI-BLAST analyses of the partial 16S rRNA gene sequence of Clip185 revealed a 99% sequence identity to that of Microbacterium binotii strain PK1-12M and Microbacterium sp. strain MDP6. Clip185 is able to tolerate toxic concentrations of six heavy metals. Conclusions: Our results show that Clip185 belongs to the genus Microbacterium. In the future, whole genome sequencing of Clip185 will clarify if Clip185 is a new Microbacterium species or a novel strain of Microbacterium binotii, and will reveal its genes involved in antibiotic-resistance, heavy-metal tolerance and regulation of decaprenoxanthin biosynthesis.

Published

2021