Korean Journal of Oriental Medicine (한국한의학연구원논문집)
- Volume 6 Issue 1
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- Pages.89-98
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- 2000
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- 1229-3377(pISSN)
Large Scale Gene Expression Analysis in Rat Models of 4-Vessel Occlusion Ischemia
4-Vessel Occlusion 허혈동물모델에서의 대규모 유전자 발현 연구
- Kang, Bong-Joo (Dep. of Medical R&D, KIOM,Dep. of Life Science, University of Sogang) ;
- Hong, Seong-Gil (Dep. of Medical R&D, KIOM) ;
- Kim, Yun-Taik (Dep. of Life Science, University of Sogang) ;
- Kim, Young-Ok (Graduate School of East-West Medical Science, Kyung Hee) ;
- Cho, Dong-Wuk (Dep. of Medical R&D, KIOM)
- 강봉주 (한국한의학연구원 의료연구부,서강대학교 생명과학과) ;
- 홍성길 (한국한의학연구원 의료연구부) ;
- 김윤택 (서강대학교 생명과학과) ;
- 김영옥 (경희대학교 동서의학대학원) ;
- 조동욱 (한국한의학연구원 의료연구부)
- Published : 2000.04.30
Abstract
Cerebral ischemia, the most prevalent form of clinical stroke, is a medical problem of the first magnitude. Substantial efforts are being made to develop drugs which will protect the brain from the neurodegeneration followed by an ischemic stroke. A key factor in this process is the development of animal models that mimic the neuropathological consequences of stroke. Recently, there is increasing an evidence that free radical is involved in the mechanisms of ischemic brain damage. We investigated the macro scale gene expression analysis on the global ischemia induced by 4-vessel occlusion in Wister rats. The recent availability of microarrays provides an attractive strategy for elaborating an unbiased molecular profile of large number of genes during ischemic injury. This experimental approach offers the potential to identify molecules or cellular pathways not previously associated with ischemia. Ischemia was induced by 4-vessel occlusion for 10 minutes and reperfused again. RNA from sham control brain and time-dependent ischemed brain were hybridized to microarrays containing 4,000 rat genes. 589 genes were found to be at least 2 fold regulated at one or more time points. These survey data provide the foundation studies that should provide convincing proof for ischemia and oxidative stress on gene expression.