Algorithms of Processing Fluorescence Signals for Mass Parallel Sequencing of Nucleic Acids

Q3 Mathematics SPIIRAS Proceedings Pub Date : 2019-07-18 DOI:10.15622/SP.2019.18.4.1010-1036
V. Manoilov, A. Borodinov, I. Zarutsky, A. Petrov, V. Kurochkin
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引用次数: 1

Abstract

Determination of the nucleotide sequence of DNA or RNA containing from several hundred to hundreds of millions of monomers units allows to obtain detailed information about the genome of humans, animals and plants. The deciphering of nucleic acids’ structure was learned quite a long time ago, but initially the decoding methods were low-performing, inefficient and expensive. Methods for decoding nucleotide nucleic acid sequences are usually called sequencing methods. Instruments designed to implement sequencing methods are called sequencers. Sequencing new generation (SNP), mass parallel sequencing are related terms that describe the technology of high-performance DNA sequencing in which the entire human genome can be sequenced within a day or two. The previous technology used to decipher the human genome required more than ten years to get final results. A hardware-software complex (HSC) is being developed to decipher the nucleic acid sequence (NA) of pathogenic microorganisms using the method of NGS in the Institute for Analytical Instrumentation of the Russian Academy of Sciences. The software included in the HSC plays an essential role in solving genome deciphering problems. The purpose of this article is to show the need to create algorithms for the software of the HSC for processing signals obtained in the process of genetic analysis when solving genome deciphering problems, and also to demonstrate the capabilities of these algorithms. The paper discusses the main problems of signal processing and methods for solving them, including: automatic and semi-automatic focusing, background correction, detection of cluster images, estimation of the coordinates of their positions, creation of templates of clusters of NA molecules on the surface of the reaction cell, correction of influence neighboring optical channels for intensities of signals and the assessment of the reliability of the results of genetic analysis
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核酸大规模平行测序荧光信号处理算法研究
测定含有数亿个单体单位的DNA或RNA的核苷酸序列,可以获得有关人类、动物和植物基因组的详细信息。核酸结构的破译很早以前就有了,但最初的解码方法性能低、效率低、成本高。解码核苷酸核酸序列的方法通常称为测序方法。为实现测序方法而设计的仪器称为测序仪。测序新一代(SNP),大规模平行测序是描述高性能DNA测序技术的相关术语,该技术可以在一两天内对整个人类基因组进行测序。以前用于破译人类基因组的技术需要十多年才能获得最终结果。俄罗斯科学院分析仪器研究所正在开发一种软硬件复合体(HSC),用于利用NGS方法破译病原微生物的核酸序列(NA)。包含在HSC中的软件在解决基因组破译问题中起着至关重要的作用。本文的目的是展示在解决基因组解密问题时,需要为HSC软件创建算法来处理遗传分析过程中获得的信号,并演示这些算法的功能。本文讨论了信号处理中的主要问题及其解决方法,包括:自动和半自动聚焦、背景校正、聚类图像的检测、聚类图像位置坐标的估计、反应细胞表面NA分子簇模板的创建、对信号强度的相邻光通道影响的校正以及遗传分析结果可靠性的评估
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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来源期刊
SPIIRAS Proceedings
SPIIRAS Proceedings Mathematics-Applied Mathematics
CiteScore
1.90
自引率
0.00%
发文量
0
审稿时长
14 weeks
期刊介绍: The SPIIRAS Proceedings journal publishes scientific, scientific-educational, scientific-popular papers relating to computer science, automation, applied mathematics, interdisciplinary research, as well as information technology, the theoretical foundations of computer science (such as mathematical and related to other scientific disciplines), information security and information protection, decision making and artificial intelligence, mathematical modeling, informatization.
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