Role of Time Scales in the Coupled Epidemic-Opinion Dynamics on Multiplex Networks

Modelling the epidemic’s spread on multiplex networks, considering complex human behaviours, has recently gained the attention of many scientists. In this work, we study the interplay between epidemic spreading and opinion dynamics on multiplex networks. An agent in the epidemic layer could remain in one of five distinct states, resulting in the SIRQD model. The agent’s attitude towards respecting the restrictions of the pandemic plays a crucial role in its prevalence. In our model, the agent’s point of view could be altered by either conformism mechanism, social pressure, or independent actions. As the underlying opinion model, we leverage the q-voter model. The entire system constitutes a coupled opinion–dynamic model where two distinct processes occur. The question arises of how to properly align these dynamics, i.e., whether they should possess equal or disparate timescales. This paper highlights the impact of different timescales of opinion dynamics on epidemic spreading, focusing on the time and the infection’s peak.     

聚合酶键式反应生物芯片/微装置的实时定量荧光检测

以微电子机械系统技术而发展起来的聚合酶链式反应(Polymerase Chain Re-action,PCR)生物芯片/微装置,由于具有所需样品和反应混合物体积少,反应速度快以及集成化程度高等优点而日益引起人们的重视。实时定量PCR是利用能特异标记PCR产物的荧光染料来动态显示PCR产物的累积,从而得到PCR扩增曲线的技术。本文介绍了实时定量检测技术及其在PCR生物芯片/微装置中的应用。     

主成份回归法同时分析混合多组份体系

用主成份分析法研究多组份体系,用非线性迭代偏最小二乘法求出各个主成份向量,建立多组份体系分析的主成份回归分析法模型,利用该模型对未知样品进行浓度预报分析。     

PLSR模型的回归效果分析

本文简单地介绍了多元线性回归、主元回归、部分最小二乘回归模型 ,用实例对三种方法的回归性能进行比较 ,并指出在消除多重共线性、回归系数估计精度及预测精度等方面 ,部分最小二乘回归模型优于其它两种模型     

用PCR技术检测生物硝化池污水中硝化细菌(Nitrobacteria)的研究

从生物硝化池污水水样中分离了硝化细菌DNA,以其为模板,针对其16Sr RNA基因及23Sr RNA基因而设计合成了两对引物并分别进行了PCR扩增,扩增产物的2%琼脂糖凝胶电泳结果显示,硝化细菌DNA模板得到了特异性扩增．参照分子量标准（Marker）的电泳结果,被扩增的DNA条带大小分别约为400bp和730bp．实验结果表明PCR 技术可用于污水中硝化细菌的快速检测．     

牛早期胚胎性别鉴定的PCR方法研究

探讨了ＰＣＲ法鉴定牛早期胚胎性别时所用的引物,反应缓冲液中Ｍｇ２＋浓度,循环反应的次数及可能造成污染的各种因素对性别鉴定结果的影响．并对１８个胚胎进行了性别鉴定,移植３８枚性别鉴定后的胚胎,成功产下２头与预测性别一致的牛犊,胚胎性别可鉴率为９４．１％,预测性别符合率为１００％．     

Detection of genetically modified organisms in food: critical points for quality assurance

 The detection of genetically modified organisms (GMOs) by the polymerase chain reaction (PCR) is a complex multiparameter problem. Therefore, a number of critical issues in respect to quality control need to be considered. For practical purposes, the PCR process itself can be divided into three subprocesses: template isolation and reaction setup (pre-PCR), PCR reaction and detection of amplification products, and data evaluation (post-PCR). Crucial factors for the pre-PCR process are the following: homogeneity of the sample to be analysed, performance of template isolation and purification in terms of yield and purity, standardized process for the estimation of concentrations of genomic DNA and all reagents used in the reaction. For the PCR itself, crucial factors to be controlled are: setup of reactions, batch to batch variations of reagents, temperature-time programs used for the PCR amplification, and the performance of different types of hardware (e.g. different brands of thermocyclers). The crucial factor for the post-PCR process is the detection of the amplification products of the PCR. The tremendous sensitivity of PCR methods requires a careful and consequent separation of the three processes in terms of hardware, laboratory space and sample handling. The avoidance of contamination is one of the most critical factors. The goal of quality assurance measures must be to ensure appropriate results at maximum sensitivity. The complexity of any PCR system used for the detection of GMOs leads to the requirement of a careful validation process for any laboratory using such methods. For qualitative analyses crucial validation parameters are: specificity, selectivity, repeatability, intermediate precision, reproducibility, limit of detection and robustness. Received: 5 October 1998 / Accepted: 22 February 1999     

A massive-ion beam driver for high-energy-density physics and future inertial fusion

Several heavy ion drivers for heavy ion inertial fusion have been proposed in the US and Europe, based on linear induction accelerator technology [1] and existing RF technology [2], respectively, although they have not been realized on a large scale. Developing accelerator technology may provide an alternative efficient, robust, and relatively cheap massive-ion beam driver for future particle beam inertial fusion. Here, we propose an accelerator complex for accelerating giant cluster ions, instead of lead or bismuth ions, toward 120 GeV by using induction acceleration over the entire energy region. The proposed two-way multiplex induction synchrotron that is the main accelerator for the giant cluster ion beam would be equivalent to 10 synchrotrons of the same size for a single beam.     

在分析化学课程中引入病毒及其检测方法的思考

Virology is a basic biological science which takes virus as the research object. By introducing the structure and detection technology of virus, especially the structure and function of SARS-CoV-2 in the course of Analytical Chemistry, students can understand the role of chemistry in the development of virology. At the same time, the introduction of relevant knowledge can create meaningful learning experience; it can also be combined with course ideology and politics, so that students can realize the importance of basic concepts in Analytical Chemistry, value orientation of Analytical Chemistry, and the importance of interdisciplinarity.     

单链构象多态性-毛细管电泳分析中样品纯化研究

聚合酶链反应(PCR)样品中的Cl^-、引物等小分子对单链构象多态性一毛细管电泳分析有重要影响。本文用毛细管电泳一间接紫外法测定了PCR样品中的Cl^-浓度,并对乙醇沉淀法和试剂盒纯化法用于PCR样品的纯化效果进行比较,在此基础上研究了Cl^-浓度、引物及其二聚体在SSCP-CE分析中的影响。结果表明,它们主要影响DNA进样量而对分离效率影响不大。