• Environmental Engineering Research
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• 제20권4호
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• pp.347-355
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• 2015

The growth kinetics of phototrophic microorganisms can be controlled by the light irradiance, the concentration of an inorganic nutrient, or both. A multi-component kinetic model is proposed and tested in novel batch experiments that allow the kinetic parameters for each factor to be estimated independently. For the cyanobacterium Synechocystis sp. PCC6803, the estimated parameters are maximum specific growth rate $({\mu}_{max})=2.8/d$, half-maximum-rate light irradiance $(K_L)=11W/m^2$, half-inhibition-rate light irradiance $(K_{L,I})=39W/m^2$, and half-maximum-rate concentration for inorganic carbon $(K_{S,Ci})=0.5mgC/L$, half-maximum-rate concentration for inorganic nitrogen $(K_{S,Ni})=1.4mgN/L$, and half-maximum-rate concentration for inorganic phosphorus $(K_{S,Pi})=0.06mgP/L$. Compared to other phototrophs having ${\mu}max$ estimates, PCC6803 is a fast-growing r-strategist relying on reaction rate. Its half-maximum-rate and half-inhibition rate values identify the ranges of light irradiance and nutrient concentrations that PCC6803 needs to achieve a high specific growth rate to be a sustainable bioenergy source. To gain the advantages of its high maximum specific growth rate, PCC6803 needs to have moderate light illumination ($7-62W/m^2$ for ${\mu}_{syn}{\geq}1/d$) and relatively high nutrient concentrations: $N_i{\geq}2.3 mgN/L$, $P_i{\geq}0.1mgP/L$, and $C_i{\geq}1.0mgC/L$.

• 생태와환경
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• 제42권1호
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• pp.67-74
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• 2009

To study the influence of the rotifer Brachionus calyciflorus on harmful algal bloom suppression, we focused on assessing the rotifer's abilities using several prey species : Microcystis aeruginosa, Synechocystis sp., Chlorella vulgaris and Coelastrum sp. of the warm-weather species and the cold-weather centric diatom Stephanodiscus hantzchii. Grazing effects and growth rates of rotifers B. calyciflorus were 94.5% and $1.29d^{-1}$, respectively, for Synechocystis sp., 87.4% and $0.60d^{-1}$, respectively, for M. aeruginosa, 95.2% and $0.65d^{-1}$, respectively, for C. $vulgaris^{TM}$, 78.6% and $0.45d^{-1}$, respectively, for C. vulgaris UTEX., 86.5% and $0.99d^{-1}$, respectively, for Coelastrum sp., and 82.6% and $0.40d^{-1}$, respectively, for S. hantzchii. Of these, although the growth of Synechocystis and Coelastrum was effectively suppressed by rotifer grazing, efficient suppression effects on Stephanodiscus blooms were unexpected. The present study revealed that reproduction of B. calyciflorus was greatly influenced by its food types in the initial stages and the efficiencies of bio-agents as sole food sources vary depending on the target algae and the agent.

• Journal of Plant Biology
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• 제38권1호
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• pp.87-93
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• 1995

최근에 Synechocystis sp. PCC 6803 중에 한 균주가 고체 한천 배지상에서 일정한 조명(300-1000 lux) 방향을 따라 활주 운동하는 것을 관찰하여 이 종을 S. 6803 PTX라고 명명하고 이의 주광성 운동에 대한 생리학적 특징을 이해하기 위하여 몇 가지 대사 억제제와 신호 전달 차단제의 주광성 운동에 미치는 효과를 조사하였다. DCMU는 광계 II로부터 광계 I의 일차 전자 수용체인 플라스토퀴논으로의 비순환성 광합성 전자전달을 억제하는 억제자로서 $100\;\mu\textrm{M}$의 농도에서는 주광성 운동을 억제하지 못하였다. 그러나 호흡에 의한 전자전달 억제제인 sodium azide를 처리하였을 경우에는 S. 6803 PTX에서 심하게 장해를 받았다. 이러한 관찰 결과는 주광성 운동의 주동력원이 광인산화 과정보다는 호흡에 의한 산화적인 인산화과정에 주로 연관되어 있음을 보여주었다. 또한, 세포를 CCCP나 DNP와 같은 막상의 uncoupler를 처리하였을 때, 세포내 ATP 농도를 저하시키거나 세포질막에 수소 이온의 전기화학구배($\Delta\mu_{H}+$)를 제거시키나, 이러한 화합물들은 주광성 운동에 뚜렷한 영향은 주지 못하였다. 이러한 결과와는 달리, H+-F0F1 ATPase에 민감하게 억제 작용을 나타내는 DCCD나 NBD의 처리는 세포내 ATP만 고갈시키고 막상에서 $\Delta\mu_{H}+$는 그대로 유지시키는 작용을 하는데, 이러한 DCCD나 NBD는 주광성 운동에 대해서는 심하게 억제 현상을 나타내었다. 또한, 특이성 calcium ionophore 중의 하나인 A23187의 처리는 양성 주광성에 심하게 장해를 주었다. 아마도 Ca2+ 유동은 주광운동 방향성의 신호전달 과정에 중요하게 관련되어 있는 것으로 나타났다. 마지막으로 S-adenosyl methionine과 같은 메틸 공여체의 고갈이 S. 6803 PTX 균주의 주광성 반응에 영향을 주는지를 알아보기 위하여 에티오닌을 BG11을 한천 배지에 첨가하였다. 이 생물종의 광운동은 에티오닌의 농도가 증가됨에 따라 일정하게 억제되다가 0.5mM에서 주광성 운동을 완전히 억제시켰다. 이것은 광수용 기작이 Escherichia coil나 Salmonella typhimurium에서 발견된 메틸기 수용 주화성 단백질과 같은 메틸화/탈메틸화 과정에 의하여 조절될 가능성을 보여주고 있음을 의미한다.

• 한국광과학회:학술대회논문집
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• 한국광과학회 1999년도 학술대회지
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• pp.108-108
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• 1999

• 한국광과학회:학술대회논문집
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• 한국광과학회 2003년도 학술대회지
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• pp.73-76
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• 2003

• 한국환경생물학회:학술대회논문집
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• 한국환경생물학회 2005년도 추계학술대회 초록집
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• pp.94-94
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• 2005

• Journal of Microbiology and Biotechnology
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• 제18권8호
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• pp.1386-1392
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• 2008

A gene (sll0158) putatively encoding a glycogen branching enzyme (GBE, E.C. 2.4.1.18) was cloned from Synechocystis sp. PCC6803, and the recombinant protein expressed and characterized. The PCR-amplified putative GBE gene was ligated into a pET-21a plasmid vector harboring a T7 promoter, and the recombinant DNA transformed into a host cell, E. coli BL21(DE3). The IPTG-induced enzymes were then extracted and purified using Ni-NTA affinity chromatography. The putative GBE gene was found to be composed of 2,310 nucleotides and encoded 770 amino acids, corresponding to approx. 90.7 kDa, as confirmed by SDS-PAGE and MALDI-TOF-MS analyses. The optimal conditions for GBE activity were investigated by measuring the absorbance change in iodine affinity, and shown to be pH 8.0 and $30^{\circ}C$ in a 50 mM glycine-NaOH buffer. The action pattern of the GBE on amylose, an $\alpha$-(1,4)-linked linear glucan, was analyzed using high-performance anion-exchange chromatography (HPAEC) after isoamylolysis. As a result, the GBE displayed $\alpha$-glucosyl transferring activity by cleaving the $\alpha$-(1,4)-linkages and transferring the cleaved maltoglycosyl moiety to form new $\alpha$-(1,6)-branch linkages. A time-course study of the GBE reaction was carried out with biosynthetic amylose (BSAM; $M_p{\cong}$8,000), and the changes in the branch-chain length distribution were evaluated. When increasing the reaction time up to 48 h, the weight- and number-average DP ($DP_w$ and $DP_n$) decreased from 19.6 to 8.7 and from 17.6 to 7.8, respectively. The molecular size ($M_p$, peak $M_w{\cong}2.45-2.75{\times}10^5$) of the GBE-reacted product from BSAM reached the size of amylose (AM) in botanical starch, yet the product was highly soluble and stable in water, unlike AM molecules. Thus, GBE-generated products can provide new food and non-food applications, owing to their unique physical properties.

• 한국약용작물학회:학술대회논문집
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• 한국약용작물학회 2008년도 추계학술발표회
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• pp.487-488
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• 2008

• 한국미생물학회:학술대회논문집
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• 한국미생물학회 2001년도 추계학술대회
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• pp.112-112
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• 2001

• 한국광과학회:학술대회논문집
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• 한국광과학회 2001년도 학술대회지
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• pp.35-35
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• 2001