Monte Carlo approach in assessing damage in higher order structures of DNA.

Basic life sciences Pub Date : 1994-01-01 DOI:10.1007/978-1-4757-9788-6_16

A Chatterjee, J B Schmidt, W R Holley

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引用次数: 7

Abstract

We have developed a computer monitor of nuclear DNA in the form of chromatin fibre. The fibres are modeled as a ideal solenoid consisting of twenty helical turns with six nucleosomes per turn. The chromatin model, in combination with are Monte Carlo theory of radiation damage induces by charged particles, based on general features of tack structure and stopping power theory, has been used to evaluate the influence of DNA structure on initial damage. An interesting has emerged from our calculations. Our calculated results predict the existence of strong spatial correlations in damage sites associated with the symmetries in the solenoidal model. We have calculated spectra of short fragments of double stranded DNA produced by multiple double strand breaks induced by both high and low LET radiation. The spectra exhibit peaks at multiples of approximately 85 base pairs (the nucleosome periodicity), and approximately 1000 base pairs (solenoid periodicity). Preliminary experiments to investigate the fragment distributions from irradiated DNA, made by B. Rydberg at Lawrence Berkeley Laboratory, confirm the existence of short DNA fragments and are in substantial agreement with the predictions of our theory.

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用蒙特卡罗方法评估DNA高阶结构的损伤。

我们已经开发了一种以染色质纤维形式的核DNA的计算机监视器。这些纤维被模拟成一个理想的螺线管，由20个螺旋转组成，每转6个核小体。本文基于DNA结构的一般特征和停止力理论，结合带电粒子辐射损伤的蒙特卡罗理论，利用染色质模型来评价DNA结构对初始损伤的影响。我们的计算中出现了一个有趣的现象。我们的计算结果预测了在电磁模型中与对称性相关的损伤部位存在很强的空间相关性。我们计算了由高和低LET辐射诱导的多次双链断裂产生的双链DNA短片段的光谱。光谱显示出大约85个碱基对的倍数(核小体周期性)和大约1000个碱基对的倍数(螺线管周期性)。劳伦斯伯克利实验室的里德伯格(B. Rydberg)对辐照DNA片段分布进行了初步研究，证实了短DNA片段的存在，与我们的理论预测基本一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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