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Recent trends in studies of biomolecular phase separation
Chan-Geun Kim,Da-Eun Hwang,Rajeev Kumar,Min Chung,Yu-Gon Eom,Hyunji Kim,Da-Hyun Koo,최정모 생화학분자생물학회 2022 BMB Reports Vol.55 No.8
Biomolecular phase separation has recently attracted broad interest,due to its role in the spatiotemporal compartmentalizationof living cells. It governs the formation, regulation, anddissociation of biomolecular condensates, which play multipleroles in vivo, from activating specific biochemical reactions toorganizing chromatin. Interestingly, biomolecular phase separationseems to be a mainly passive process, which can be explainedby relatively simple physical principles and reproducedin vitro with a minimal set of components. This Mini reviewfocuses on our current understanding of the fundamental principlesof biomolecular phase separation and the recent progressin the research on this topic.
GIS기반 토사유실모델을 이용한 저수지 사면의 토사유실 영향 분석
이근상 ( Geun Sang Lee ),박진혁 ( Jin Hyeog Park ),황의호 ( Eui Ho Hwang ),고덕구 ( Deuk Koo Koh ) 한국지리정보학회 2004 한국지리정보학회지 Vol.7 No.3
Soil particles from rainfall flow into reservoir and give lots of influence in water quality because the geological conditions and landcover characteristics of Imdong watershed have a weakness against soil loss. Especially, reservoir slant is indicated by the main source area of soil loss. This study selected RUSLE model that could apply GIS and satellite image to evaluate the contribution rate of soil loss in reservoir slant. And we carried out an on-the-spot survey for the range, width and condition of reservoir slant that give much influences to the accuracy of soil loss. As the result of evaluation to the influence of soil loss in reservoir slant, it showed 2. 64% in comparison with Imdong watershed. In view of these results, the influence of soil loss in reservoir slant was evaluated in low comparing with Imdong watershed relatively.