• 한국물환경학회지
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• 제20권6호
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• pp.692-697
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• 2004

Biological phosphorus removal is characterized by complex interactions between different intracellular components of energy as PHA. Therefore, fundamental understanding of the behavior of the intracellular components and their influence on the removal of phosphorus is essential before control strategies to stabilize the proper process. The purpose of this study is to investigate relationship between release of phosphorus and synthesis of intracellular storage polymer. Mass of stored intracellular storage polymer was 21.2 mg PHA/L, 28.8 mg PHA/g MLSS. And phosphorus release/intracellular storage polymer synthesis rate was 1.8545 mg stored polymer/mg Phosphate. In the aerobic phase, mass of PAOs synthesis is 49.37 mg PAOs/L. And PAOs fraction was 6.7-6.9%. Thus intracellular storage polymer synthesis by PAOs is calculated as 493mg PHA/g PAOs.

• Journal of Microbiology and Biotechnology
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• 제15권5호
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• pp.1120-1124
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• 2005

Pseudomonas putida KCTC 1639 was newly identified as a potential producer of biodegradable medium chain length polyhydroxyalkanoates. It exhibited a carbon assimilation pattern quite different from other known P. putida strains, but a more similar pattern with P. oleovorans, which assimilates the carbon sources mainly through ${\beta}$-oxidation rather than the fatty acid biosynthesis pathway. The PHA synthesis gene cluster from P. putida KCTC1639 was composed of two gene loci; the PHA synthase gene locus and granule-associated gene locus, which were cloned and deposited in the GenBank under accession numbers AY286491 and AY750858 as a new nucleotide sequence, respectively. The molecular structure and amino acid homology of the new gene cluster were compared with those from Pseudomonas species, including other P. putida strains and P. oleovorans, and a higher than $90\%$ homology was observed.

• KSBB Journal
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• 제25권3호
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• pp.239-243
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• 2010

식물성 오일 또는 glycerol로부터 Ralstonia eutropha 여섯 균주의 polyhydroxyalkanoates (PHA) 합성 특성을 조사하였다. 탄소원으로 soybean oil, olive oil, 또는 glycerol 만을 공급시 poly(3-hydroxybutyrate) homopolymer가 생성되었으며, $\gamma$-butyrolactone 또는 pentanoic acid를 함께 공급시 poly(3-hydroxybutyrate-co-4-hydroxybutyrate) 또는 poly(3-hydroxybutyrate-co-3-hydroxyvalerate) copolymer가 각각 합성되었다. 최종 균체농도 및 PHA 함량면에서 최적인 균주는 R. eutropha KCTC 2662로 결정되었으며, 최적 기질인 soybean oil 20 g/L로부터 72 h에 균체농도 1.7~9.2 g/L, PHA 함량 70~92 wt%를 얻을 수 있었다.

• Journal of Microbiology and Biotechnology
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• 제7권6호
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• pp.391-396
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• 1997

Two series of carbon sources, linear primary $C_1$~$C_9$ alcohols and linear $C_2$~$C_{10}$ monocarboxylic acids were tested for PHA synthesis in Paracoccus denitrificans. The results showed that the growth-associated synthesis of PHA could be referred only to the carbon sources with odd number of carbon except methanol. For all carbon sources with even number of carbon, nitrogen limitation was required to induce PHA synthesis in P. denitrificans. Poly(3-hydroxyvalerate)[P(3HV)] homopolymer was synthesized from $C_5$, $C_7$, and $C_9$ while growing in the presence of nitrogen, but the nitrogen depletion in the later growth period incorporated 3-hydroxybutyrate(3HB) unit into the polymer chain. The optimum C/N ratio for P(3HV) homopolymer production was found to be 10 when the strain was grown on 10 ml/l of valeric acid for 96 h. P. denitrificans synthesized P(3HB-co-3HV) copolymers from n-hexanoic and n-octanoic acid. The microstructural characterics of the P(3HB-co-3HV) copolymer from n-propanol was investigated using $^13C$-nuclear magnetic resonance spectroscopy, showing a structural heterogeneity.

• Korean Chemical Engineering Research
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• 제55권3호
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• pp.363-368
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• 2017

메탄올자화균이란 일탄소 화합물인 메탄올을 주탄소원 및 에너지원으로 이용할 수 있는 미생물을 말한다. Methylobacterium extorquens AM1은 serine cycle을 탄소대사경로로 이용하는 메탄올자화균 중에서도 가장 많이 연구가 진행된 균주이다. M. extorquens AM1의 poly 3-hydroxybutyrate (PHB) cycle은 EMCP (ethylmalonyl-CoA pathway), glyoxylate regeneration cycle, TCA cycle과 연결되어 있으며 EMCP 유래 유기산 또는 TCA 유기산을 생산하기 위해서는 PHB cycle로 흐르는 carbon flux의 차단이 필요하다. 이를 위해서 PHB 합성과 acetyl-CoA flux의 조절유전자로 알려져 있는 PhaR 유전자를 markerless gene deletion 방법을 이용해서 M. extorquens AM1에서 knockout했다. 결과적으로, knockout 균주인 ${\Delta}phaR$에서 야생종 대비 확연히 PHB granule이 줄어든 것이 확인되었다. Lag phase가 약 12 h 늦어졌지만, ${\Delta}phaR$은 야생종과 비슷한 세포성장과 메탄올소비 경향을 보임을 확인하였다.

• Elastomers and Composites
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• 제50권2호
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• pp.138-145
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• 2015

A series of wholly aromatic poly(hydroxyamide)s(PHAs), containing varying amounts of 2,6-dimethylphenoxy group and quinoxaline ring in the main chain, were synthesized by a direct polycondensation method. The inherent viscosities of the PHAs in either DMAc or DMAc/LiCl solution at $35^{\circ}C$ were found to be in the range of 1.02~1.90 dL/g. In the solubility study, we observed that PHA 1, PHA 2, and PHA 3 were dissolved in aprotic solvents such as DMAc, NMP, DMF, and DMSO with LiCl on heating; however, PHA 4, PHA 5, and PHA 6 could be dissolved in aprotic solvents on heating without LiCl. For poly(benzoxazole)s(PBOs), the 10% and maximum weight loss temperatures were in the range of $582{\sim}622^{\circ}C$ and $630{\sim}659^{\circ}C$, respectively. Residues of PBOs at $900^{\circ}C$ were found to be relatively high, which were in the range of 65.3~70.8%.

• Journal of Microbiology and Biotechnology
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• 제24권1호
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• pp.59-69
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• 2014

One of the major challenges in metabolic engineering for enhanced synthesis of value-added chemicals is to design and develop new strains that can be translated into well-controlled fermentation processes using bioreactors. The aim of this study was to assess the influence of various fed-batch strategies in the performance of metabolically engineered Pseudomonas putida strains, ${\Delta}gcd$ and ${\Delta}gcd-pgl$, for improving production of medium-chain-length polyhydroxyalkanoates (mcl-PHAs) using glucose as the only carbon source. First we developed a fed-batch process that comprised an initial phase of biomass accumulation based on an exponential feeding carbon-limited strategy. For the mcl-PHA accumulation stage, three induction techniques were tested under nitrogen limitation. The substrate-pulse feeding was more efficient than the constant-feeding approach to promote the accumulation of the desirable product. Nonetheless, the most efficient approach for maximum PHA synthesis was the application of a dissolved-oxygen-stat feeding strategy (DO-stat), where P. putida ${\Delta}gcd$ mutant strain showed a final PHA content and specific PHA productivity of 67% and $0.83g{\cdot}l^{-1}{\cdot}h^{-1}$, respectively. To our knowledge, this mcl-PHA titer is the highest value that has been ever reported using glucose as the sole carbon and energy source. Our results also highlighted the effect of different fed-batch strategies upon the extent of realization of the intended metabolic modification of the mutant strains.

• 한국산학기술학회논문지
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• 제14권11호
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• pp.6029-6038
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• 2013

본 연구에서는 높은 용융점과 유리 전이 온도를 갖는 PBO의 구조 변화를 통해 가공성을 향상시키고자 한다. 일련의 방향족 poly(o-hydroxyamide)s(PHAs)가 3,3'-dihydroxybenzidine과 2,2-bis(3-amino-4-hydroxyphenyl) hexafluoropropane을 포함하는 두 타입의 bis(o-amino-phenol)s과 diimide 단위를 갖는 이염기산들과의 직접 중축합에 의해서 합성되었다. PHAs의 특성은 FT-IR, $^1H$-NMR, DSC, TGA 등을 이용하여 조사하였다. PHAs 고유 점도는 $35^{\circ}C$ 의 DMAc 용액에서 측정하였으며 0.34~0.75 dL/g의 값을 보였다. o-phenylene 단위가 도입된 PHA 1과 6F-PHA 1은 NMP 등 비양자성 용매에 잘 용해되었지만, p-phenylene 단위가 도입된 PHA 3은 LiCl의 첨가에도 완전히 용해되지 않았다. 6F-PHAs은 6F-PHA 3을 제외하고 실온에서 비양자성 용매에 잘 용해되었고, PHAs 보다 더 좋은 용해도를 보였다. PBOs은 황산에 부분적으로 용해될 뿐 다른 용매에는 전혀 용해되지 않았다. DSC에 의해 측정된 PBOs의 유리전이온도(Tg)는 비교적 높은 306~$311^{\circ}C$의 범위를 보였다. PHA 3과 6F-PHA 3의 최대분해온도와 Char 수득률은 $658^{\circ}C$와 $653^{\circ}C$, 62.6%와 62.1%로 가장 높은 값들을 보였다.

• Journal of Microbiology and Biotechnology
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• 제18권12호
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• pp.1958-1965
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• 2008

A denitrifying polyphosphate-accumulating bacterium (YKP-9) was isolated from activated sludge of a 5-stage biological nutrient removal process with step feed system. This organism was a Gram-negative, coccus-shaped, facultative aerobic chemoorganotroph. It had a respiratory type of metabolism with oxygen, nitrate, and nitrite as terminal electron acceptors. The 16S rRNA gene sequence of strain YKP-9 was most similar to the 16S rRNA gene sequence of Paracoccus sp. OL18 (AY312056) (similarity level, 97%). Denitrifying polyphosphate accumulation by strain YKP-9 was examined under anaerobic-anoxic and anaerobic-oxic batch conditions. It was able to use external carbon sources for polyhydroxyalkanoates(PHA) synthesis and to release phosphate under anaerobic condition. It accumulated polyphosphate and grew a little on energy provided by external carbon sources under anoxic condition, but did neither accumulate polyphosphate nor grow in the absence of external carbon sources under anoxic condition. Cells with intracellular PHA cannot accumulate polyphosphate in the absence of external carbon sources under anoxic condition. Under oxic condition, it grew but could not accumulate polyphosphate with external carbon sources. Based on the results from this study, strain YKP-9 is a new-type denitrifying polyphosphate-accumulating bacterium that accumulates polyphosphate only under anoxic condition, with nitrate and nitrite as the electron acceptors in the presence of external carbon sources.

• Journal of Microbiology and Biotechnology
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• 제29권1호
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• pp.79-90
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• 2019

Lichens are generally known as self-sufficient, symbiotic life-forms between fungi and algae/cyanobacteria, and they also provide shelter for a wide range of beneficial bacteria. Currently, bacterial-derived biodegradable polyhydroxyalkanoate (PHA) is grabbing the attention of many researchers as a promising alternative to non-degradable plastics. This study was conducted to develop a new method of PHA production using unexplored lichen-associated bacteria, which can simultaneously degrade two ubiquitous industrial toxins, anthracene and naphthalene. Here, 49 lichen-associated bacteria were isolated and tested for PHA synthesis. During the GC-MS analysis, a potential strain of EL19 was found to be a 3-hydroxyhexanoate (3-HHx) accumulator and identified as Pseudomonas sp. based on the 16S rRNA sequencing. GC analysis revealed that EL19 was capable of accumulating 30.62% and 19.63% of 3-HHx from naphthalene and anthracene, respectively, resulting in significant degradation of 98% and 96% of naphthalene and anthracene, respectively, within seven days. Moreover, the highly expressed phaC gene verified the genetic basis of $PHA_{mcl}$ production under nitrogen starvation conditions. Thus, this study strongly supports the hypothesis that lichen-associated bacteria can detoxify naphthalene and anthracene, store energy for extreme conditions, and probably help the associated lichen to live in extreme conditions. So far, this is the first investigation of lichen-associated bacteria that might utilize harmful toxins as feasible supplements and convert anthracene and naphthalene into eco-friendly 3-HHx. Implementation of the developed method would reduce the production cost of $PHA_{mcl}$ while removing harmful waste products from the environment.