• Title/Summary/Keyword: useful microorganism

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Kitasatospora sp. MJM383 Strain Producing Two Antitumor Agents, Streptonigrin and Oxopropaline G

  • JIN YING-YU;YOON TAE-MI;KIM WON-KON;KIM KYOUNG-ROK;SONG JEA-KYOUNG;KIM JONG-GWAN;LIU JING;YANG YOUNG-YELL;KWON HYUNG-JIN;SUH JOO-WON
    • Journal of Microbiology and Biotechnology
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    • v.15 no.5
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    • pp.1140-1145
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    • 2005
  • MJM383, a rare actinomycete sp. strain originated from Chinese soils, was isolated through an antimicrobial screening system. The analysis of 16S rDNA sequences and biochemical characterization determined the strain to belong to genus Kitasatospora. Both NMR and ESI mass data of its purified bioactive compounds revealed Kitasatospora sp. MJM383 to produce two antitumor agents, streptonigrin and oxopropaline G, which have been known to be produced from Streptomyces species. This is the first report to demonstrate the presence of antitumor agents produced by genus Kitasatospora.

Evaluation on the implications of microbial survival to the performance of an urban stormwater tree-box filter

  • Geronimo, Franz Kevin;Reyes, Nash Jett;Choi, Hyeseon;Guerra, Heidi;Jeon, Minsu;Kim, Lee-Hyung
    • Proceedings of the Korea Water Resources Association Conference
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    • 2021.06a
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    • pp.128-128
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    • 2021
  • Most of the studies about stormwater low impact development technologies used generalized observations without fully understanding the mechanisms affecting the whole performance of the systems from catchment to the facility itself. At present, these LID technologies have been treated as black box due to fluctuating flow and environmental conditions affecting its operation and treatment performance. As such, the implications of microbial community to the overall performance of the tree-box filter were investigated in this study. Summer season was found to be the most suitable season for microorganism growth since more microorganism were found during this season. Least microorganism count was found in spring because of the plant growth during this season since plant penology influences the seasonal dynamics of soil microorganisms. Litterfall during fall season might have affected the microorganism count during winter since, during this season, the compositional variety of soil organic matter changes affecting growth of soil microbial communities. Microbial analyses of sediment samples collected in the system revealed that the most dominant microorganism phylum is Proteobacteria in all the seasons in both inlet and outlet comprising 37% to 47% of the total microorganism count. Proteobacteria was followed by Acidobacteria, Actinobacteria and Chloroflexi which comprises 6% to 20%, 9% to 20% and 2% to 27%, respectively of the total microorganism count for each season. These findings were useful in optimizing the design and performance of tree box filters considering physical, chemical and biological pollutant removal mechanisms.

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Analysis of Microbial Community Structure in River Ecosystem Using Quinone Profiles (Quinone profile를 이용한 하천생태계의 미생물군집구조 해석)

  • Lim, Byung-Ran;Lee, Kisay;Ahn, Kyu-Hong
    • Journal of Korean Society of Water and Wastewater
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    • v.20 no.5
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    • pp.685-690
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    • 2006
  • The differences in microbial community structures between planktonic microorganism and biofilm in rivers were investigated using respiratory quinone profiles. The compositions of microbial quinone for 4 tributaries of the Kyongan Stream located in/flowing through Yongin City, Gyeonggi-Do were analyzed. Ubiquinone(UQ)-8, UQ-9, menaquinone(MK)-6 and Plastoquinone(PQ)-9 were observed in all samples of planktonic microorganism and biofilm for the sites investigated, Most planktonic microorganism and biofilm had UQ-8(15 to 30%) and PQ-9(over 30%) as the dominant quinone type. These results indicated that oxygenic phototrophic microbes(cyanobacteria and/or eukaryotic phytoplankton) and UQ-8 containing proteobacteria constituted major microbial populations in the river. The quinone concentration in the river waters tested, which reflects the concentration of planktonic microorganisms, increases with increasing DOC. Further research into this is required. The microbial diversities of planktonic microorganism and biofilm calculated based on the composition of all quinones were in the range from 4.2 to 7.5, which was lower than those for activated sludge(ranging from 11 to 14.8) and soils(ranging from 13.4 to 16.8). The use of quinone profile appears to be a useful tool for the analysis of microbial community structure in river.

The use of beneficial microorganisms to improve turfgrass quality and usability (유용미생물의 시용이 잔디의 질과 이용성에 미치는 영향)

  • 황연성;최준수
    • Asian Journal of Turfgrass Science
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    • v.13 no.4
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    • pp.201-212
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    • 1999
  • In use of pesticides in golf courses has been increased steadily. Environmental concern as well as decrease in efficiency led the turfgrass management into an alternate approach of using beneficial microorganism to deal with turfgrass pests. This study was focused on the use of such microorganisms for improving cultural environment and minimizing the use of pesticides. Microorganisms antagonistic to turfgrass diseases were applied to zoysiagrass fairways and creeping bentgrass greens in Yusung country club. Tharch accumulation, disease occurrence, and other cultural environments were compared among the combinations of microorganisms and suppliemental N applications. The application of microorganisms antagonistic to turfgrass diseases improved turf resiliency. Thatch thickness was 3.03cm in the control plot but it was 2.11cm in plots treated by microorganisms, indicating significant effects of microorganism application on reduction of thatch accumulation. Number of microorganism that can decompose of cellulose was higher at the plots treated with useful microbial products and it was considered that existence of higher population of microorganisms resulted in reduction of thatch accumulation. In the evaluation of relationship between thatch accumulation and disease occurrence, greater thatch accumulation was observed at the golf courses which have been frequently infested by large patch. However, the rate of thatch accumulation varied among surveyed golf courses regardless of the year of turf establishment. Therefore, management practice which can be effective for reduction of thatch could result in large patch suppression. The application of microorganisms on the established turfgrasses reduced the occurrence rate of pythium blight and yellow path diseases, whereas occurrence of brown patch and dollar spot increased.

Microorganism lipid droplets and biofuel development

  • Liu, Yingmei;Zhang, Congyan;Shen, Xipeng;Zhang, Xuelin;Cichello, Simon;Guan, Hongbin;Liu, Pingsheng
    • BMB Reports
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    • v.46 no.12
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    • pp.575-581
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    • 2013
  • Lipid droplet (LD) is a cellular organelle that stores neutral lipids as a source of energy and carbon. However, recent research has emerged that the organelle is involved in lipid synthesis, transportation, and metabolism, as well as mediating cellular protein storage and degradation. With the exception of multi-cellular organisms, some unicellular microorganisms have been observed to contain LDs. The organelle has been isolated and characterized from numerous organisms. Triacylglycerol (TAG) accumulation in LDs can be in excess of 50% of the dry weight in some microorganisms, and a maximum of 87% in some instances. These microorganisms include eukaryotes such as yeast and green algae as well as prokaryotes such as bacteria. Some organisms obtain carbon from $CO_2$ via photosynthesis, while the majority utilizes carbon from various types of biomass. Therefore, high TAG content generated by utilizing waste or cheap biomass, coupled with an efficient conversion rate, present these organisms as bio-tech 'factories' to produce biodiesel. This review summarizes LD research in these organisms and provides useful information for further LD biological research and microorganism biodiesel development.

Microbial Symbiosis in Marine Sponges

  • Lee, Yoo-Kyung;Lee, Jung-Hyum;Lee, Hong-Kum
    • Journal of Microbiology
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    • v.39 no.4
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    • pp.254-264
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    • 2001
  • Sponges are host organisms for various symbiotic microorganisms such as archaea, bacteria, cyano-bacteria and microalgae. Sponges are also sources of a wide variety of useful natural products like cyto-toxins. antifouling agents, antibiotics, and anti-inflammatory and antiviral compounds, Symbiotic microorganisms is sponges can be sources of various natural products, because metabolites previously ascribed to sponges have recently been demonstrated to be biosynthesized by symbionts. If a symbiotic microorganisms from which some natural products are derived can be cultured, the microorganism could be used in a mass production of the bioactive comopounds. We summarize recent research on iso-lation and cultivation of sponge-symbiotic microorganisms and the symbiotic relationship.

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Induction of Quinone Reductase Activity in Hepatoma Cells by Paprika (Capsicum annuum L.) (파프리카 추출물이 quinone reductase 유도활성에 미치는 영향)

  • Yu, Mi-Hee;Lee, Hyo-Jung;Im, Hyo-Gwon;Lee, Syng-Ook;Lee, In-Seon
    • Korean Journal of Food Science and Technology
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    • v.38 no.5
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    • pp.707-711
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    • 2006
  • Phase 2 enzymes are transcriptionally induced by a wide variety of chemical agents and natural products, and their induction plays a critical role in protection against chemical carcinogens and other toxic xenobiotics. The activity of the methanol extract and fractions of paprika (Capsicum annuum L.) was examined in murine Hepa1c1c7 cells for the induction of nicotinamide adenine dinucleotide (phosphate) NAD(P)H/quinone reductase (QR). The ethyl acetate (EtOAc) fraction induced QR activity in a dose-dependent manner in the concentration range of 10 to $500\;{\mu}g/mL$ with a maximum of a 3.3-fold increase in induction. The EtOAc fraction also showed high QR induction potency in Ah-receptor-defective mutant of Hepa 1c1c7 cells ($BP^rcl$ cells), which indicates that this fraction is a monofunctional inducer of QR. These results suggest that useful cancer chemopreventive materials could be isolated from EtOAc fraction of Paprika.

Evaluation of Petroleum Oil Degrading Mixed Microorganism Agent for the Bioremediation of Petroleum Oil Spilled in Marine Environments (해양유류오염정화를 위한 유류분해 미생물제제의 평가)

  • Sohn, Jae-Hak
    • Journal of Life Science
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    • v.21 no.11
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    • pp.1599-1606
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    • 2011
  • To evaluate the effects of microorganism agents on oil biodegradation, treatability and microcosm studies were conducted. Petroleum oil degrading bacteria were isolated from enriched cultures of oil-contaminated sediment samples using a mineral salts medium (MSM) containing 0.5% Arabian heavy crude oil as the sole carbon source. After a 5 day-incubation period using MSM, mixed microorganisms of three species (strains BS1, BS2 and BS4) degraded 48.4% of aliphatic hydrocarbons and 30.5% of aromatic hydrocarbons. Treatability and microcosm tests were performed in the three different treatment conditions (AO: Arabian heavy crude oil, AO+IN: Arabian heavy crude oil+inorganic nutrient, AO+IN+MM: Arabian heavy crude oil+inorganic nutrient+mixed microorganism agents). Among these, significantly enhanced biodegradation of aliphatic hydrocarbons were observed in AO+IN and AO+IN+MM conditions, without showing any different biodegradation rates in either condition. However, the degradation rates of aromatic hydrocarbons in an AO+IN+MM condition were increased by 50% in the treatability test and by 13% in the microcosm test compared to those in an AO+IN condition. Taken together, it can be concluded that mixed microorganism agents enhance the biodegradation of aliphatic and aromatic hydrocarbons in laboratory, a treatability test, and a microcosm test. This agent could especially be a useful tool in the application of bioremediation for removal of aromatic hydrocarbons.

Development of W/O/W Multiple Emulsion Formulation Containing Burkholderia gladioli

  • KIM, HWA-JIN;CHO, YOUNG-HEE;BAE, EUN-KYUNG;SHIN, TAEK-SU;CHOI, SUNG-WON;CHOI, KEE-HYUN;PARK, JI-YONG
    • Journal of Microbiology and Biotechnology
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    • v.15 no.1
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    • pp.29-34
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    • 2005
  • W/O/W (water-in-oil-in-water) type multiple emulsion was applied to improve the storage stability of an antagonistic microorganism, Burkholderia gladioli. Encapsulation of microorganism into a W/O/W emulsion was conducted by using a two-step emulsification method. W/O/W emulsion was prepared by the incorporation of B. gladioli into rapeseed oil and the addition of polyglycerin polyriconolate (PGPR) and castor oil polyoxyethylene (COG 25) as the primary and secondary emulsifier, respectively. Microcrystalline cellulose was used as an emulsion stabilizer. To evaluate the usefulness of W/O/W emulsion formulation as a microbial pesticide for controlling the bacterial wilt pathogen (Ralstonia solanacearum), the storage stability and antagonistic activity of emulsion formulation were tested in vitro. The storage stability test revealed that the viability of formulated cells in emulsion was higher than that of unformulated cells in culture broth. At $4^{\circ}C$, the viabilities of formulated cells and unformulated cells at the end of 20 weeks decreased to about 2 and 5 log cycles, respectively. At $37^{\circ}C$, the viability of formulated cells decreased to only 2 log cycles at the end of storage. On the other hand, the viable cells in culture broth were not detected after 13 weeks. In activity test, formulated cells in emulsion were more effective in inhibiting the growth of pathogen than unformulated cells in culture broth. Unformulated cells completely lost their antagonistic activity during storage under similar conditions. The W/O/W multiple emulsion formulation was shown to be useful as the novel liquid formulation for biological control.

Releasing a Genetically Engineered Microorganism for Bioremediation

  • Sayler, Gary;Burlage, Robert;Cox, Chris;Nivens, David;Ripp, Steven;Ahn, Yeonghee;Easter, Jim;Wrner, Claudia;Jarrell, John
    • Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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    • 2000.11a
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    • pp.153-162
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    • 2000
  • A field study was performed to test effectiveness of a bloluminescent genetically engineered microorganism (GEM) for bioremediation process monitoring and control. The study employed Pseudomonas fluorescens HK44 that was the first strain approved for field application in the U.S. for bioremediation purposes. HK44 contains lux gene fused within a naphthalene degradative pathway, allowing this GEM to bioluminesce as it degrades naphthalene as well as substituted naphthalenes and other polycyclic aromatic hydrocarbons (PAHs) , Results showed that HK44 was maintained in both PAH-contarninated and uncontaminated soils even 660 days after inoculation. HK44 was able to produce bioluminescence in response to PAHs in soil. Although effectiveness of chemical remediation was not assessed due to heterogeneous distribution of contaminants, decreased concentration of naphthalene was shown in the soils, Taken together, HK44 was useful for in situ bioremediation process monitoring and control. This work is so far the only field release of a GEM for bioremediation purposes.

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