Mechanisms of DNA sequence selective alkylation of guanine-N7 positions by nitrogen mustards

John A. Hartley; Kurt W. Kohn; William B. Mattes

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Mechanisms of DNA sequence selective alkylation of guanine-N7 positions by nitrogen mustards

机译：氮芥对鸟嘌呤-N7位点DNA序列选择性烷基化的机制

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Quantitative determinations were carried out of the relative reaction rates of several nitrogen mustards at various guanine-N7 positions in DNA fragments of known sequence. The findings suggest structural hypotheses of the origins of the reaction selectivities. End-labeled DNA fragments were reacted with nitrogen mustards, and the guanine-N7 alkylation sites were analyzed by gel electrophoresis. Relative reaction intensities were determined by computer analysis of digitized densitometer scans. The differences in reaction intensities at different G's were in part attributable to the effects of nearest neighbor base pairs on the molecular electrostatic potential near the reaction site. Uracil and quinacrine mustards have specific sequence preferences for reaction that differ from other mustards. The nature of the specific sequence preferences were determined and hypotheses are proposed to explain their origin.

机译：定量测定了已知序列DNA片段中鸟嘌呤-N7各个位置上几个氮芥的相对反应速率。这些发现提出了反应选择性起源的结构假设。将末端标记的DNA片段与氮芥子反应，并通过凝胶电泳分析鸟嘌呤-N7烷基化位点。相对反应强度通过数字化密度计扫描的计算机分析确定。在不同的G's，反应强度的差异部分归因于最邻近的碱基对对反应位点附近分子静电势的影响。尿嘧啶和奎纳克林芥末具有与其他芥末不同的特定反应顺序偏好。确定了特定序列偏好的性质，并提出了假设以解释其起源。

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《Nucleic acids research》 |1987年第24期|共19页
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John A. Hartley; Kurt W. Kohn; William B. Mattes;
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1. DNA sequence selectivity of guanine-N7 alkylation by nitrogen mustards is preserved in intact cells [J] . John A. Hartley, John P. Bingham, Robert L. Souhami Nucleic acids research . 1992,第12期

机译：氮芥对鸟嘌呤-N7烷基化的DNA序列选择性保留在完整细胞中
2. DNA sequence selectivity of guanine–N7 alkylation by nitrogen mustards [J] . John A. Hartley, Kurt W. Kohn, William B. Mattes Nucleic acids research . 1986,第7期

机译：氮芥对鸟嘌呤–N7烷基化的DNA序列选择性
3. Mode of cell death induced in chinese hamster cells by sequence-selective DNA minor groove binding nitrogen mustards: comparison with untargeted mustards and with Hoechst 33342. [J] . Whiteside G, Ferguson LR, Denny WA, Oncology Research . 2003,第11期

机译：序列选择性DNA小沟结合氮芥在中国仓鼠细胞中诱导的细胞死亡模式：与未靶向芥末和Hoechst 33342的比较。
4. Ab Initio Researches on the Mechanism of DNA Alkylation by Nitrosamines [C] . Tingting Liu, Lijiao Zhao, Rugang Zhong 2007 IEEE/ICME INTERNATIONAL CONFERENCE ON COMPLEX MEDICAL ENGINEERING . 2007

机译：从头开始进行亚硝胺DNA烷基化机理的研究
5. Organometallic photonucleases. I. DNA cleavage by the photolysis of cyclopentadienyl metal complexes: Mechanistic studies and sequence selectivity of strand scission by CpW(CO)3CH3. II. Footprinting of chromatin structure and chromatin remodeling by SWI/SNF utilizing CpW(CO)3CH3. III. Dual mechanisms of DNA damage by MoX(eta3-allyl)(CO)3(phen) complexes. [D] . Downs, Jennifer. 2005

机译：有机金属光核酸酶。 I.通过环戊二烯基金属配合物的光解来切割DNA：通过CpW（CO）3CH3进行断裂的机理研究和序列选择性。二。 SWI / SNF利用CpW（CO）3CH3进行染色质结构足迹测定和染色质重塑。三， MoX（eta3-烯丙基）（CO）3（phen）复合物对DNA的双重破坏机制。
6. Mechanisms of DNA sequence selective alkylation of guanine-N7 positions by nitrogen mustards. [O] . K W Kohn, J A Hartley, W B Mattes 1987

机译：氮芥对鸟嘌呤-N7位点DNA序列选择性烷基化的机制。
7. Mechanisms of DNA sequence selective alkylation of guanine-N7 positions by nitrogen mustards. [O] . Kohn K W, Hartley J A, Mattes W B 1987

机译：氮芥对鸟嘌呤-N7位点DNA序列选择性烷基化的机制。

Mechanisms of DNA sequence selective alkylation of guanine-N7 positions by nitrogen mustards

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