NMR studies of DNA recognition mechanism of HMGB1 protein.

Kyoko Furuita, Shunpei Murata, Jungoo Jee, Satoshi Ichikawa, Akira Matsuda, Chojiro Kojima
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引用次数: 2

Abstract

A 2'-deoxyuridylate dimer cyclized via cross-linkage by an ethylene (U(et)(p)U) or a propylene (U(pr)(p)U) linker at the 5-position was incorporated into DNA oligomers. Fluorescence resonance energy transfer (FRET) experiments showed that they bent at approximately 90 degrees . We investigated binding abilities of U(et)(p)U and U(pr)(p)U DNA oligomers to HMGB1 A-box protein, which specifically binds to bent DNA, using nuclear magnetic resonance (NMR) spectroscopy. Both DNA oligomers bind to HMGB1 A-box protein, however, the U(et)(p)U DNA oligomer has higher affinity than the U(pr)(p)U DNA oligomer. In order to explain this difference, we studied the solution structures of the U(et)(p)U and U(pr)(p)U DNA oligomers using NMR. Most (1)H signals except for 4', 5' and 5'' were assigned. Cross-peak patterns of (1)H-(1)H NOESY spectra indicate that both oligomers have right-handed B-form like structures and the cyclization in 2'-deoxyuridylates does not break Watson-Crick base pairs. Chemical shift differences between these two DNA oligomers suggest the presence of the local structural differences in the region of 2'-deoxyuridylate dimer and its 3' side between the U(et)(p)U and U(pr)(p)U DNA oligomers.

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HMGB1蛋白DNA识别机制的核磁共振研究。
在5位被乙烯(U(et)(p)U)或丙烯(U(pr)(p)U)连接通过交联环化的2'-脱氧尿苷二聚体被整合到DNA低聚物中。荧光共振能量转移(FRET)实验表明,他们弯曲约90度。利用核磁共振(NMR)技术研究了U(et)(p)U和U(pr)(p)U DNA低聚物与HMGB1 A-box蛋白的结合能力。两种DNA低聚物都与HMGB1 A-box蛋白结合,但U(et)(p)U DNA低聚物比U(pr)(p)U DNA低聚物具有更高的亲和力。为了解释这种差异,我们使用NMR研究了U(et)(p)U和U(pr)(p)U DNA低聚物的溶液结构。除4',5'和5'外,大部分H信号被分配。(1)H-(1)H NOESY谱的交叉峰模式表明,这两种低聚物都具有右手b型结构,并且2'-脱氧尿苷酸酯的环化不会破坏沃森-克里克碱基对。这两种DNA低聚物之间的化学位移差异表明,U(et)(p)U和U(pr)(p)U DNA低聚物在2'-脱氧尿苷二聚体及其3'侧存在局部结构差异。
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