While adipose-derived stem cell-conditioned medium (ADSC-CM) has been demonstrated to promote skin wound healing, the mechanism regulating this effect remains unelucidated. In this study, we aimed to investigate the role of Ell3 in the wound healing activity of ADSC-CM. In vitro analysis revealed that Ell3 suppression in ADSCs impairs the promotive activity of ADSC-CM on the proliferation and migration of mouse embryonic fibroblasts (MEF) and normal human dermal fibroblasts (NHDF). Consistently, the expression of MMP family genes, which regulate cell proliferation and migration, was significantly suppressed in MEF and NHDF treated with siEll3-transfected ADSC-CM. Proinflammatory cytokines, such as interleukin-1 and interleukin-6, were highly expressed in MEF treated with siEll3-transfected ADSC-CM. The wound healing activity of siEll3-transfected ADSC-CM was significantly lower than that of the control in vivo. Our results suggest that Ell3 may contribute to the inhibition of inflammatory response during skin wound healing.

This study of the electrolysis reaction fillers and electrolytic treatment sludge generated by checking the status and properties of the sludge before and after electrolysis filler caused by a reaction to examine the water-soluble cutting oil sludge and organic matter removal mechanism of filling in the packed bed bipolar electrolytic reactor was to identify the characteristics. Delivery was analyzed using a SEM (scanning electron microscope) recording method for the filling material in the GAC surface characterization of the packed bed bipolar electrolytic reactor to look at the reaction of the waste water generated by the electrolytic removal reaction. Sludge generated in order to analyze the properties of XRD(x-ray diffraction) was analyzed using the device. The video of the GAC surface before and after the reaction was taken by SEM, it can be known indirectly the change between the voids in the GAC in figure before and after. Prior to the electrolytic treatment can be seen that there is some contamination between the pores, but it can be seen that after the treatment, rather than clean the pores of the GAC. This photograph of the surface after the electrolytic treatment, GAC is decomposed organic material adsorbed on the surface by dissolution of ions at the anode acting on bipolar electrolytic, it is corroded, it is possible to observe what happens. It was found to form iron oxide when analyzing the electrolytic sludge using XRD. Properties of the sludge generated after electrolysis, was composed primarily of oxygen and iron. These results wastewater treatment by filling in the electrolytic cell is that it indirectly proves to occur by electrolysis removal, it is considered to be able to demonstrate the deletion mechanism indirectly.

자연적으로 일어나는 형질전환은 세균에서 유전 요소의 수평적 전달 메커니즘의 하나로서 세균 생리학에서 빠질 수 없을 만큼 중요한 현상이다. S. thermophilus는 자연적으로 형질전환이 가능한 상태로 변환하기 위해서 Rgg-타입의 response regulator인 ComR과 소수성 펩타이드 페르몬인 ComS를 포함하는 새로운 quorum sencing 시스템을 이용한다. S. thermophilus를 화학적 제한배지에서 배양하면 대수기 초기에 신호서열이 분리된 ComS는 세포외부로 배출된다. 배출된 ComS는 올리고 펩타이드 전달 시스템인 Ami를 통하여 세포내로 유입되어 ComR과 결합하게 된다. ComS와 결합된 활성화된 ComR은 후기 형질전환 관련 유전자들의 전사를 조절하는 대체형 시그마펙터(σ^x)를 암호화하는 comX 유전자의 발현을 유도함으로써 형질전환이 일어나도록 만든다. 신호서열이 제거된 ComS를 합성하여 화학적 합성배지에 첨가하게 되면, S. thermophilus의 형질전환을 인공적으로 유도할 수 있다. Leuconostoc 속 유산균들 은 그들이 후기 형질전환 관련 유전자들과 서열이 유사한 단백질 유전자들을 보유하고 있음에도 불구하고 자연적 형질전환 메커니즘은 아직 밝혀지지 않았다. Leuconostoc 속의 자연적 형질전환의 메커니즘을 규명하는 연구는 김치산업에서 사용될 수 있는 개량된 균주 개발을 가능하게 할 것이다.

In this paper, the ergonomic principle and concept will be established and the conceptual bridge design based on the ergonomic studies pertaining to bridge design undertaken by IMO and ISO will be introduced. In particular, this study has looked into the applicability of ergonomic design concept on coastal ships and proposes new bridge design to make good contribution to the prevention of marine accidents in the coastal sea