순천향대학교 천안병원
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De Craene, B. and G. Berx (2013). "Regulatory networks defining EMT during cancer initiation and progression." Nature Reviews: Cancer 13(2): 97-110.
Epithelial to mesenchymal transition (EMT) is essential for driving plasticity during development, but is an unintentional behaviour of cells during cancer progression. The EMT-associated reprogramming of cells not only suggests that fundamental changes may occur to several regulatory networks but also that an intimate interplay exists between them. Disturbance of a controlled epithelial balance is triggered by altering several layers of regulation, including the transcriptional and translational machinery, expression of non-coding RNAs, alternative splicing and protein stability.
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연락처(단축번호): 1583
PubMed상의 PMID Number를 기재해주시면 더욱 빠른 서비스가 가능합니다.
De Craene, B. and G. Berx (2013). "Regulatory networks defining EMT during cancer initiation and progression." Nature Reviews: Cancer 13(2): 97-110.
Epithelial to mesenchymal transition (EMT) is essential for driving plasticity during development, but is an unintentional behaviour of cells during cancer progression. The EMT-associated reprogramming of cells not only suggests that fundamental changes may occur to several regulatory networks but also that an intimate interplay exists between them. Disturbance of a controlled epithelial balance is triggered by altering several layers of regulation, including the transcriptional and translational machinery, expression of non-coding RNAs, alternative splicing and protein stability.
가능하면 칼라 그림을 쓸수 있는 PDF 로 부탁합니다
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순천향대학교 천안병원
2016.03.04조성식52
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