Sequence‐specific minor groove binding by bis‐benzimidazoles: water molecules in ligand recognition

Alexandra Joubert; Carolina Carrasco; Christian Bailly; Gianni Chessari; John Mann; Stephen Neidle; W. David Wilson

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Sequence‐specific minor groove binding by bis‐benzimidazoles: water molecules in ligand recognition

机译：双苯并咪唑的序列特异性小沟结合：配体识别中的水分子

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The binding of two symmetric bis‐benzimidazole compounds, 2,2‐bis‐[4′‐(3″‐dimethylamino‐1″‐propyloxy)phenyl]‐5,5‐bi‐1H‐benzimidazole and its piperidinpropylphenyl analog, to the minor groove of DNA, have been studied by DNA footprinting, surface plasmon resonance (SPR) methods and molecular dynamics simulations in explicit solvent. The footprinting and SPR methods find that the former compound has enhanced affinity and selectivity for AT sequences in DNA. The molecular modeling studies have suggested that, due to the presence of the oxygen atom in each side chain of the former compound, a water molecule is immobilized and effectively bridges between side chain and DNA base edges via hydrogen bonding interactions. This additional contribution to ligand–DNA interactions would be expected to result in enhanced DNA affinity, as is observed.

机译：两个对称的双苯并咪唑化合物2,2-双-[4'-（3“-二甲基氨基-1”-丙氧基）苯基] -5,5-双-1H-苯并咪唑及其哌啶丙基苯基类似物的结合DNA的细小凹槽已通过DNA足迹，表面等离振子共振（SPR）方法和显式溶剂中的分子动力学模拟进行了研究。足迹法和SPR方法发现前一种化合物对DNA中的AT序列具有增强的亲和力和选择性。分子模型研究表明，由于在前一种化合物的每个侧链中都存在氧原子，水分子被固定并通过氢键相互作用有效地桥接了侧链和DNA碱基边缘之间。如所观察到的，这种对配体-DNA相互作用的额外贡献有望导致DNA亲和力的增强。

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《Nucleic acids research》 |2003年第5期|共11页
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Alexandra Joubert; Carolina Carrasco; Christian Bailly; Gianni Chessari; John Mann; Stephen Neidle; W. David Wilson;
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1. Sequence-specific minor groove binding by bis-benzimidazoles: water molecules in ligand recognition [J] . Christian Bailly, Gianni Chessari, Carolina Carrasco, Nucleic Acids Research . 2003,第5期

机译：双苯并咪唑的序列特异性小沟结合：配体识别中的水分子
2. Sequence-Specific Recognition of DNA by a Major and Minor Groove Binding Ligand [J] . Jason W. Sxevvczyk, Eldon E. Baird, Peter B. Dervan Angewandte Chemie . 1996,第13a14期

机译：主要和次要槽结合配体对DNA的序列特异性识别。
3. DNA minor groove recognition of a non-self-complementary AT-rich sequence by a tris-benzimidazole ligand. [J] . Aymami J, Nunn CM, Neidle S Nucleic Acids Research . 1999,第13期

机译：Tris-苯并咪唑配体对非自身互补AT富集序列的DNA小沟识别。
4. Hierarchical Nanotube Self-Assembly of DNA Minor Groove-Binding Ligand DB921 via Alkali Halide Triggering [C] . Ryo Mizuta, Juliette M.Devos, Theyencheri Narayanan International IUPAC Conference on Polymer‐Solvent Complexes and Intercalates . 2019

机译：通过碱卤化物触发DNA次要槽结合配体DB921的分层纳米管自组装
5. Precision sequence-specific cleavage of nucleic acids by minor-groove directed metal binding ligands linked through N-2 of deoxyguanosine. [D] . Gerry, Norman Phillip. 1996

机译：通过通过脱氧鸟苷的N-2连接的小沟定向金属结合配体精确切割核酸的序列特异性。
6. Sequence-specific minor groove binding by bis-benzimidazoles: water molecules in ligand recognition [O] . Christian Bailly, Gianni Chessari, Carolina Carrasco, 2003

机译：双苯并咪唑的序列特异性小沟结合：配体识别中的水分子
7. Sequence-specific minor groove binding by bis-benzimidazoles: water molecules in ligand recognition [O] . Bailly, Christian, Chessari, Gianni, Carrasco, Carolina, 2003

机译：双苯并咪唑的序列特异性小沟结合：配体识别中的水分子
8. NMR studies of DNA oligomers and their interactions with minor groove binding ligands [R] . Fagan, P. A. 1996

机译：DNa寡聚体的NmR研究及其与小沟结合配体的相互作用

Sequence‐specific minor groove binding by bis‐benzimidazoles: water molecules in ligand recognition

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