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組蛋白密碼

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維基百科,自由的百科全書
已知的組蛋白修飾位點與種類[1]

組蛋白密碼(Histone code)是一個描述真核生物藉修飾包裹DNA組蛋白(主要是其N端尾)以調控基因表達的理論,和DNA甲基化共同組成表觀遺傳密碼英語epigenetic code[2] 。組蛋白上的修飾包括乙酰化甲基化磷酸化泛素化二磷酸腺苷核糖基化GlcNAc糖基化英語GlcNAc[3]瓜氨酸化脯氨酸異構化英語Proline isomerization in epigenetics[4]SUMO修飾英語SUMO protein[5],這些修飾的組合可影響染色體結構以及與其他蛋白的結合力,提升或降低基因的轉錄。人類細胞中組蛋白修飾的種類複雜,其中某幾種修飾可能傾向出現在同一個組蛋白上[6]。近年由於質譜法技術的發展而有更多修飾種類與位點被發現[7],也有許多研究探討加上或移除組蛋白修飾的多種酵素,以及可辨認這些修飾而與之結合的其他蛋白[8]

種類

[編輯]
組蛋白修飾對基因轉錄的影響
修飾種類 組蛋白位點
H3K4 H3K9 H3K14 H3K27 H3K79 H3K36 H4K20 H2BK5 H2BK20
單甲基化 促進[9] 促進[10] 促進[10] 促進[10][11] 促進[10] 促進[10]
雙甲基化 抑制[12] 抑制[12] 促進[11]
三甲基化 促進[13] 抑制[10] 抑制[10] 促進[11]
抑制[10]
促進 抑制[12]
乙酰化 促進[14] 促進[13] 促進[13] 促進[15] 促進

參考文獻

[編輯]
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  3. ^ K, Sakabe; Z, Wang; Gw, Hart. Beta-N-acetylglucosamine (O-GlcNAc) Is Part of the Histone Code. Proceedings of the National Academy of Sciences of the United States of America. 2010-11-16, 107 (46): 19915–20. Bibcode:2010PNAS..10719915S. PMC 2993388可免費查閱. PMID 21045127. doi:10.1073/pnas.1009023107. 
  4. ^ Nelson CJ, Santos-Rosa H, Kouzarides T. Proline isomerization of histone H3 regulates lysine methylation and gene expression. Cell. September 2006, 126 (5): 905–16. PMID 16959570. doi:10.1016/j.cell.2006.07.026. 
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  7. ^ Tan M, Luo H, Lee S, Jin F, Yang JS, Montellier E, et al. Identification of 67 histone marks and histone lysine crotonylation as a new type of histone modification.. Cell. 2011, 146 (6): 1016–28. PMC 3176443可免費查閱. PMID 21925322. doi:10.1016/j.cell.2011.08.008. 
  8. ^ Wang M, Mok MW, Harper H, Lee WH, Min J, Knapp S, Oppermann U, Marsden B, Schapira M. Structural Genomics of Histone Tail Recognition. Bioinformatics. 24 Aug 2010, 26 (20): 2629–2630. PMC 2951094可免費查閱. PMID 20739309. doi:10.1093/bioinformatics/btq491. 
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  12. ^ 12.0 12.1 12.2 Rosenfeld JA, Wang Z, Schones DE, Zhao K, DeSalle R, Zhang MQ. Determination of enriched histone modifications in non-genic portions of the human genome. BMC Genomics. March 2009, 10: 143. PMC 2667539可免費查閱. PMID 19335899. doi:10.1186/1471-2164-10-143. 
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  15. ^ Creyghton MP, Cheng AW, Welstead GG, Kooistra T, Carey BW, Steine EJ, et al. Histone H3K27ac separates active from poised enhancers and predicts developmental state. Proceedings of the National Academy of Sciences of the United States of America. December 2010, 107 (50): 21931–6. PMC 3003124可免費查閱. PMID 21106759. doi:10.1073/pnas.1016071107.