• Journal of Microbiology and Biotechnology
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• 제16권5호
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• pp.795-798
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• 2006

The phosphoenolpyruvate-dependent carbohydrate phosphotransferase system (PTS) is responsible for the simultaneous transfer and phosphorylation of various carbon sources in Escherichia coli. The ptsG gene encoding the enzyme $IICB^{Glc}$, the membrane component of the glucose-specific PTS, is repressed by Mlc and activated by the CRP cAMP complex; various other factors, such as Fis, FruR, and ArcA, are also known to be involved in ptsG regulation. Thus, in an attempt to discover a novel gene affecting the regulation of ptsG, a mutant with a decreased ptsG transcription in the presence of glucose compared with the wild-type strain was screened using transposon random mutagenesis. The mutant was found to have a transposon insertion in yhjV, a putative gene encoding a transporter protein whose function is yet unknown.

• Journal of Microbiology and Biotechnology
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• 제32권8호
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• pp.1047-1053
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• 2022

When ptsG, a glucose-specific phosphotransferase system (PTS) component, is deleted in Escherichia coli, growth can be severely poor because of the lack of efficient glucose transport. We discovered a new PTS transport system that could transport glucose through the growth-coupled experimental evolution of ptsG-deficient E. coli C strain under anaerobic conditions. Genome sequencing revealed mutations in agaR, which encodes a repressor of N-acetylgalactosamine (Aga) PTS expression in evolved progeny strains. RT-qPCR analysis showed that the expression of Aga PTS gene increased because of the loss-of-function of agaR. We confirmed the efficient Aga PTS-mediated glucose uptake by genetic complementation and anaerobic fermentation. We discussed the discovery of new glucose transporter in terms of different genetic backgrounds of E. coli strains, and the relationship between the pattern of mixed-acids fermentation and glucose transport rate.

• Journal of Microbiology and Biotechnology
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• 제23권12호
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• pp.1683-1690
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• 2013

The cyclic AMP receptor protein (CRP) homolog, GlxR, controls the expression of several genes involved in the regulation of diverse physiological processes in Corynebacterium glutamicum. In silico analysis has revealed the presence of glxR binding sites upstream of genes ptsG, adhA, and ald, encoding glucose-specific phosphotransferase system protein, alcohol dehydrogenase (ADH), and acetaldehyde dehydrogenase (ALDH), respectively. However, the involvement of the GlxR-cAMP complex on the expression of these genes has been explored only in vitro. In this study, the expressions of ptsG, adhA, and ald were analyzed in detail using an adenylate cyclase gene (cyaB) deletion mutant and glxR deletion mutant. The specific activities of ADH and ALDH were increased in both the mutants in glucose and glucose plus ethanol media, in contrast to the wild type. In accordance, the promoter activities of adhA and ald were derepressed in the cyaB mutant, indicating that glxR acts as a repressor of adhA. Similarly, both the mutants exhibited derepression of ptsG regardless of the carbon source. These results confirm the involvement of GlxR on the expression of important carbon metabolic genes; adhA, ald, and ptsG.

• Journal of Microbiology and Biotechnology
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• 제9권5호
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• pp.582-588
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• 1999

A Brevibacterium lactofermentum gene coding for a glucose-specific permease of the phosphoenolpyruvate-dependent phosphotransferase system (PTS) was cloned, by complementing an Escherichia coli mutation affecting a ptsG gene with the B. lactofermentum genomic library, and completely sequenced. The gene was identified as a ptsG, which enables an E. coli transformant to transport non-metabolizable glucose analogue 2-deoxyglucose (2DG). The ptsG gene of B. lactofermentum consists of an open reading frame of 2,025 nucleotides encoding a polypeptide of 674 amino acid residues and a TAA stop codon. The 3' flanking region contains two stem-loop structures which may be involved in transcriptional termination. The deduced amino acid sequence of the B. lactofermentum enzyme $II^{GIe}$ specific to glucose ($EII^{GIe}$) has a high homology with the Corynebacterium glutamicum enzyme $II^{Man}$ specific to glucose and mannose ($EII^{Man}$), and the Brevibacterium ammoniagenes enzyme $II^{GIc}$ specific to glucose ($EII^{GIc}$). The 171-amino-acid C-terminal sequence of the $EII^{Glc}$ is also similar to the Escherichia coli enzyme $IIA^{GIc}$ specific to glucose ($IIA^{GIc}$). It is interesting that the arrangement of the structural domains, IIBCA, of the B. lactofermentum $EII^{GIc}$ protein is identical to that of EIIs specific to sucrose or $\beta$-glucoside. Several in vivo complementation studies indicated that the B. lactofermentum $EII^{Glc}$ protein could replace both $EII^{ Glc}$ and $EIIA^{Glc}$ in an E. coli ptsG mutant or crr mutant, respectively.

• 전자공학회논문지A
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• 제32A권2호
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• pp.1-10
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• 1995

Since there is currently no commercial protocol simulator for CDMA mobile communication system, we need to develop a General-Purposed Protocol Test Simulator (G-PTS). This paper is concerned with the design and implementation of this G-PTS contains the multi-scenario generating functions, multi-tasking kernel and multiple interface functions. Thus it can be utilized in the test category using multiple base-stations such as soft-handoff, 3-way handoff and mulit-party call features. G-PTS is verified using the model of CDMA soft handoff scenario and the result shows its reliable operations.

• ETRI Journal
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• 제43권2호
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• pp.209-220
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• 2021

The filtered orthogonal frequency division multiplexing (F-OFDM) system has been recommended as a waveform candidate for fifth-generation (5G) communications. The suppression of out-of-band emission (OOBE) and asynchronous transmission are the distinctive features of the filtering-based waveform frameworks. Meanwhile, the high peak-to-average power ratio (PAPR) is still a challenge for the new waveform candidates. Partial transmit sequence (PTS) is an effective technique for mitigating the trend of high PAPR in multicarrier systems. In this study, the PTS technique is employed to reduce the high PAPR value of an F-OFDM system. Then, this system is compared with the OFDM system. In addition, the other related parameters such as frequency localization, bit error rate (BER), and computational complexity are evaluated and analyzed for both systems with and without PTS. The simulation results indicate that the F-OFDM based on PTS achieves higher levels of PAPR, BER, and OOBE performances compared with OFDM. Moreover, the BER performance of F-OFDM is uninfluenced by the use of the PTS technique.

• 생명과학회지
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• 제26권12호
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• pp.1422-1430
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• 2016

본 연구는 RAW264.7 세포에서 lipopolysaccharide (LPS) 처리에 의한 염증매개인자의 유도에 대한 고려인삼 사포닌 분획인 20(S)-protopanaxadiol saponins (PDS)과 20(S)-protopanaxatriol saponins (PTS)의 조절효능을 탐구하였다. 이를 위해 RAW264.7 세포에 PDS 또는 PTS를 $150{\mu}g/ml$의 농도로 LPS ($10{\mu}g/ml$ 처리 이전이나 처리 이후 또는 LPS와 동시에 처리하였으며, 처리된 세포에서 nitric oxide (NO)의 방출량, 유도성 nitric oxide synthase (iNOS) 및 cyclooxygenase-2 (COX-2)의 발현 량을 분석하였다. PDS에 비하여 PTS는 RAW264.7 세포에 LPS와 동시에 처리하여 24시간 동안 배양했을 때 LPS 처리에 의해 유도된 NO의 생성을 강하게 감소시켰다. RAW264.7 세포에 LPS ($10{\mu}g/ml$를 2시간 동안 처리한 후에 PDS 또는 PTS를 $150{\mu}g/ml$ 농도로 24시간 동안 처리하면 두 인삼 사포닌 성분 모두 NO의 생성을 강하게 감소시켰다. RAW264.7 세포에 PDS 또는 PTS를 $150{\mu}g/ml$ 농도로 2시간 동안 처리한 후에 LPS ($10{\mu}g/ml$를 24시간 동안 처리했을 경우에도 두 인삼 사포닌 성분 모두 LPS 처리에 의해 유도된 NO 생성을 강하게 감소시켰다. LPS 처리에 의한 NO 생성을 저해하는 효과는 PDS에 비하여 PTS가 더 강하게 나타났다. PDS와 PTS 모두 $150{\mu}g/ml$ 처리농도에서 LPS ($10{\mu}g/ml$처리에 의해 유도된 iNOS와 COX-2의 발현 역시 상당히 감소시켰다. 따라서 본 연구의 결과는 RAW264.7 대식세포에서 PDS와 PTS 두 인삼 사포닌 성분은 LPS 처리에 의한 염증활성화에 강한 억제효과를 가지고 있음을 의미하며, 전염증성 효소인 iNOS와 COX-2 발현의 감소조절을 통하여 NO의 생성을 억제함으로써 항 염증효과가 나타남을 제시한다.

• Journal of Microbiology and Biotechnology
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• 제8권3호
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• pp.214-221
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• 1998

A Brevibacterium ammoniagenes gene coding for glucose/mannose-specific enzyme II ($EII^{Glc}$) of the phosphoenolpyruvate-dependent phosphotransferase system (PTS) was cloned by complementing an Escherichia coli mutation affecting a ptsG gene, and the complete DNA nucleotide sequence was determined. The cloned gene was identified to be a ptsG, which enables the E. coli transportment to use glucose more efficiently than mannose as the sole carbon source in an M9 minimal medium. The ptsG gene of B. ammoniagenes consists of an open reading frame of 1,983 nucleotides putatively encoding a polypeptide of 661 amino acid residues and a TAA stop codon. The deduced amino acid sequence of the B. ammoniagenes $EII^{Glc}$ shows, at $46\%$, the highest degree of sequence similarity with the Corynebacterium glutamicum EII specific for both glucose and mannose. In addition, the $EII^{Glc}$ shares approximately $30\%$ sequence similarities with sucrose-specific and ${\beta}$-glucoside-specific EIIs of the several bacteria belonging to the glucose-PTS class. The 161-amino-acid C-terminal sequence of $EII^{Glc}$ is also similar to that of E. coli enzyme $IIA^{Glc}$, specific for glucose ($EIIA^{Glc}$). The B. ammoniagenes $EII^{Glc}$ consists of three domains; a hydrophobic region (EIIC) and two hydrophilic regions (EIIA, EIIB). The arrangement of structural domains, IIBCA, of the $EII^{Glc}$ is identical to those of EIIs specific for sucrose or ${\beta}$-glucoside. While the domain IIA was removed from the B. ammoniagenes $EII^{Glc}$ the remaining domains IIBC were found to restore the glucose and mannose-utilizing capacity of E. coli mutant lacking $EII^{Glc}$ activity with $EIIA^{Glc}$ of the E. coli mutant. $EII^{Glc}$ contains a histidine residue and a cysteine residue which are putative phosphorylation sites for the protein.

• Journal of Ginseng Research
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• 제26권4호
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• pp.178-186
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• 2002

본 연구에서는 인삼사포닌 성분 즉, 총인삼사포닌(GTS), panaxadiol-type saponin(PDS) 및 panaxatriol-type saponin(PTS)이 정상 혈압쥐(NR) 및 자연발증 고혈압쥐(SHR)의 대동맥편에서 혈관수축약물의 수축반응에 대한 영향을 관찰하고자 시도하였으며, 얻어진 연구결과는 다음과 같다. Phenylephrine(아드레날린성 $\alpha$$_{-1}$-수용체 효능약)과 고농도 칼륨(막탈분극약)은 NR및 SHR의 대동맥편에서 각각 현저한 혈관수축반응을 나타내었다. 이들의 수축반응은 SHR보다 NR에서 현저하게 나타났다. NR에서 고농도 칼륨(5.6$\times$$10^{-2}$ M)에 의한 혈관수축반응은 GTS(300 $\mu$g/ml), PDS(300 $\mu$g/ml) 및 PTS(300 $\mu$g/ml)의 존재 하에서 각각 별다른 영향을 받지 않았다. 반면에, phenylephrine($10^{-6}$ M)에 의한 혈관수축반응은 현저하게 억제되었다. SHR에서 고농도 칼륨(5.6$\times$$10^{-2}$ M)에 의한 혈관수축반응은 GTS(300 $\mu$g/ml), PDS(300 $\mu$g/ml) 및 PTS(300 $\mu$g/ml)의 존재하에서 각각 별다른 영향을 받지 않았으나 고농도의 PTS(600 $\mu$g/ml)의 전처치에 의해서 유의하게 억제되었다. Phenylephrine($10^{-6}$ M)에 의한 혈관수축반응은 PTS의 전처치에 의해서 용량 의존적(150-600 $\mu$g/ml)으로 유의하게 억제되었으나 GTS(300 $\mu$g/ml)나 PDS(300 $\mu$g/ml)의 존재 하에서는 별다른 영향을 받지 않았다. 이상과 같은 실험 결과를 종합하여 보면, 인삼사포닌 성분은 흰쥐 적출 대동맥편에서 아드레날린성 $\alpha$$_{-1}$-아드레날린 수용체 차단작용과 일부 미지의 기전에 의해서 혈관이완작용을 일으키며, 이러한 인삼사포닌 성분에 대한 반응에서 NR과 SHR간에 혈관 평활근의 감수성의 차이가 있는 것으로 생각된다. 또한 인삼사포닌 성분 중 PTS가 혈관이완작용에 대한 효력이 가장 큰 것으로 사료된다.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2000년도 하계학술대회 논문집
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• pp.487-490
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• 2000

The purpose of this study is to research and develop conducting polymer(CP) composite electrode for supercapacitor. Electrochemical capacitor(supercapacitor) cell of CP composite electrode with 1M LiClO$_4$PC bring out good capacitor performance below 4V. The radius of semicircle of CP composite cell with PAn composite electrode adding l5wt%SP270(PAnS15) and PT composite electrode adding 50wt%SP270 (PTS50) was absolutely small. The total resistance of supercapacitor cell mainly depended on internal resistance of the electrode. The discharge capacitance of supercapacitor cell with PTS50(+)/PAnS15(-) in 1st and 20th cycles was 38F/g and 28F/g at current density of 1mA/cm$^2$. Supercapacitor cell with PTS50(+)/PAnS15(-) showed good capacitance and stability with cycling.