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Acinetobacter calcoaceticus C10에서 Cyclohexanol Dehydrogenase의 생합성 억제
박희동,박종성,이인구 경북대학교 농업과학기술연구소 1987 慶北大農學誌 Vol.5 No.-
A. calcoaceticus C10은 CL 배지에서 -caprolactone 및 succinate에 의해 생육에 아무 영향도 받지 않았으나 adipate와 xylose에 의해서 균의 생육도가 증가하였다. 특히 이 균이 탄소원으로 이용할 수 없는 포도당에 의해서도 생육도가 증가하였으며 6시간 배양 후 0.2%의 포도당을 첨가한 경우에는 16시간 후 CL 배지에서 생육한 것보다 약 2배의 생육도를 냐타내었다. A. calcoacelicus C10이 생산하는 cyclohexanol dehydrogenase(CDH)는 -caprolactone, succinate, xylose 및 포도당에 의해 이화물 억제를 받지 않았으나 사이클로헥사놀 대사경로의 최종생산물인 adipate에 의하여 생합성 억제를 받았다. CL 배지에 0.1%의 adipate를 첨가한 배지에서는 CDH가 다소 유도되었으나 0.2%의 adipate를 첨가한 배지에서는 CDH가 거의 유도되지 않아 0.5%의 adipate를 첨가한 것과 비슷한 억제효과를 나타내었다. The growth of A calcoaceticus C10 in CL medium was not increased by the addition of 0.5% E-capralactone or succinate, but increased by 0.2% adipate, xylose or even glucose which was not metabolized as a carbon source. The addition of 0.2% glucose after culture in CL medium for 6 hours increased the growth of A. colcoaceticus C10 twice as much as that in CL medium after culture for further 10 hours. Biosynthesis of cyclohexanol dehydrogenase in A. calcoaceticus C10 was not repressed by -caprolactone, succinate, xylose and glucose, but repressed by adipate which is endproduct of cyclohexanol metabolism. The induction of dehydrogenase by cyc1ohexanol in CL medium was not repressed completely by 0.1% adipate, but repressed almost completely by 0.2% adipate in A. calcoaceticus C10.
네트워크 이동성 지원을 위한 이동경로 예측 기반의 끊김없는 핸드오버 방안
박희동,권용하,이강원,최영수,조유제,조봉관,Park Hee-Dong,Kwon Yong-Ha,Lee Kang-Won,Choi Young-Soo,Cho You-Ze,Cho Bong-Kwan 한국통신학회 2005 韓國通信學會論文誌 Vol.30 No.7a
본 논문은 철도와 같은 이동 네트워크 환경에서 핸드오버로 인한 서비스 중단 시간 및 패킷 손실을 최소화하기 위하여 이동경로 예측 기반의 끊김없는 핸드오버 방안을 제안한다. 정해진 경로를 따라 이동하는 철도차량의 고유한 특징을 이용하여, 2계층 핸드오버를 수행하기 전에 미리 3 계층 핸드오버를 수행함으로써 핸드오버로 인한 서비스 단절과 패킷 손실을 최소화 시킬 수 있다. 성능평가 결과 제안된 방안은 기존 NEMO 방안에 비해 핸드오버 수행에 있어 우수한 성능을 나타냄을 알 수 있었다. This paper proposes a path prediction-based seamless handover scheme to minimize service disruption and packet loss due to handovers for mobile networks such as Dams. This scheme exploits a peculiar characteristics of trains which move on a predetermined path. The mobile router on the train can predict a handover point and then perform network-layer handover before link-layer handover occurs. This leads to the reduction of handover latency and packet loss during handovers. The performance evaluation showed that the proposed scheme could provide excellent performance, compared with the NEMO basic support scheme.
Aninetobacter calcoaceticus C10에서 Cyclohexanol Dehydrogenase의 생합성 억제
朴喜東,朴鍾聲,李麟九 慶北大學校出版部 1987 慶北大農學誌 Vol.5 No.-
The growth of A. calcoaceticus C10 in CL medium was not increased by the addition of 0.5% E-caprolactone or succinate, but increased by 0.2% adipate, xylose or even glucose which was not metabolized as a carbon source. The addition of 0.2% glucose after culture in CL medium for 6 hours increased the growth of A. calcoaceticus C10 twice as much as that in CL medium after culture for further 10 hours. Biosynthesis of cyclohexanol dehydrogenase in A. calcoaceticus C10 was not repressed by ε - caprolactone, succinate, xylose and glucose, but repressed by adipate which is endproduct of cyclohexanol metabolism. The induction of dehydrogenase by cyclohexanol in CL medium was not repressed completely by 0.1% adipate, but repressed almost completely by 0.2% adipate in A. calcoaceticus C10.