摘要翻译：
本文从单链DNA寡核苷酸的典型序列出发，提出了一类新的隐对称性。这些对称性是Chargaff第二奇偶性规则所描述的对称性的补充。这些新的对称性及其规则涉及到长DNA文本（包括人类和一些模式生物的成套染色体）中来自特殊四群及其亚群的寡核苷酸的集体概率。这些四群概率规则被认为是长DNA序列的普遍规则的可能候选角色。基于已知的量子力学陈述，即多元系统的量子态是由其子系统的量子态张量积定义的，提出了这些集体概率的遗传对称性的量子信息模型。该模型将DNA的含氮碱基C、T、G、A表示为2量子比特量子CTGA系统的计算基态。长DNA文本的这些新的量子信息对称的生物学意义与所有生命体的共同能力相联系，这些能力是在新的和新的营养分子融入其体内的基础上生长和发展的，成为联合量子力学有机体的新的量子力学子系统。指出了共振、光子和光子晶体在量子信息遗传学中的重要作用。
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英文标题：
《The rules of long DNA-sequences and tetra-groups of oligonucleotides》
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作者：
Sergey Petoukhov
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最新提交年份：
2020
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分类信息：

一级分类：Quantitative Biology        数量生物学
二级分类：Other Quantitative Biology        其他定量生物学
分类描述：Work in quantitative biology that does not fit into the other q-bio classifications
不适合其他q-bio分类的定量生物学工作
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英文摘要：
  The article represents a new class of hidden symmetries in long sequences of oligonucleotides of single stranded DNA from their representative set. These symmetries are an addition to symmetries described by the second parity rule of Chargaff. These new symmetries and their rules concern collective probabilities of oligonucleotides from special tetra-groups and their subgroups in long DNA-texts including complete sets of chromosomes of human and some model organisms. These rules of tetra-group probabilities are considered as possible candidacies for the role of universal rules of long DNA-sequences. A quantum-informational model of genetic symmetries of these collective probabilities is proposed on the basis of the known quantum-mechanic statement that quantum state of a multicomponent system is defined by the tensor product of quantum states of its subsystems. In this model, nitrogenous bases C, T, G, A of DNA are represented as computational basis states of 2-qubit quantum CTGA-systems. The biological meaning of these new quantum-information symmetries of long DNA texts is associated with the common ability of all living organisms to grow and develop on the basis of incorporation into their body of new and new molecules of nutrients becoming new quantum-mechanic subsystems of the united quantum-mechanic organism. An important role of resonances, photons and photonic crystals in quantum information genetics is noted.
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PDF链接：
https://arxiv.org/pdf/1709.04943