高核苷酸偏斜回文DNA序列因其解链倾向而作为潜在的复制起点发挥作用。

High Nucleotide Skew Palindromic DNA Sequences Function as Potential Replication Origins due to their Unzipping Propensity.

作者信息

Sahu Parthasarathi, Barik Sashikanta, Ghosh Koushik, Subramanian Hemachander

机构信息

Department of Physics, National Institute of Technology, Durgapur, India.

出版信息

J Mol Evol. 2024 Dec;92(6):761-775. doi: 10.1007/s00239-024-10202-y. Epub 2024 Sep 23.

DOI:10.1007/s00239-024-10202-y

PMID:39313579

Abstract

Locations of DNA replication initiation in prokaryotes, called "origins of replication", are well-characterized. However, a mechanistic understanding of the sequence dependence of the local unzipping of double-stranded DNA, the first step towards replication initiation, is lacking. Here, utilizing a Markov chain model that was created to address the directional nature of DNA unzipping and replication, we model the sequence dependence of local melting of double-stranded linear DNA segments. We show that generalized palindromic sequences with high nucleotide skews have a low kinetic barrier for local melting near melting temperatures. This allows for such sequences to function as potential replication origins. We support our claim with evidence for high-skew palindromic sequences within the replication origins of mitochondrial DNA, bacteria, archaea and plasmids.

摘要

原核生物中DNA复制起始的位置，即所谓的“复制起点”，已得到充分表征。然而，对于双链DNA局部解链的序列依赖性这一复制起始的第一步，仍缺乏机制上的理解。在此，我们利用一个为解决DNA解链和复制的方向性而创建的马尔可夫链模型，对双链线性DNA片段局部解链的序列依赖性进行建模。我们表明，具有高核苷酸偏斜度的广义回文序列在接近解链温度时局部解链的动力学障碍较低。这使得此类序列能够作为潜在的复制起点发挥作用。我们通过线粒体DNA、细菌、古菌和质粒的复制起点内存在高偏斜度回文序列的证据来支持我们的观点。

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High Nucleotide Skew Palindromic DNA Sequences Function as Potential Replication Origins due to their Unzipping Propensity.高核苷酸偏斜回文DNA序列因其解链倾向而作为潜在的复制起点发挥作用。

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Committors, first-passage times, fluxes, Markov states, milestones, and all that.Committers，首次通过时间，通量，马尔可夫状态，里程碑，以及所有这些。

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高核苷酸偏斜回文DNA序列因其解链倾向而作为潜在的复制起点发挥作用。

High Nucleotide Skew Palindromic DNA Sequences Function as Potential Replication Origins due to their Unzipping Propensity.

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