A method for identifying key tumor genes based on particle swarm optimization and scoring criteria

A particle swarm optimization, tumor gene technology, applied in the fields of genomics, instrumentation, proteomics, etc., can solve the problems of lack of interpretability, large subset of tumor key genes, and the classification performance needs to be improved, so as to improve tumor subtypes. The effect of recognition

Active Publication Date: 2020-08-28
JIANGSU UNIV
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Problems solved by technology

However, the PSO algorithm in the above methods is prone to fall into local minimum points, which leads to a large subset of tumor key genes selected, classification performance needs to be improved, and lack of interpretability

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  • A method for identifying key tumor genes based on particle swarm optimization and scoring criteria
  • A method for identifying key tumor genes based on particle swarm optimization and scoring criteria
  • A method for identifying key tumor genes based on particle swarm optimization and scoring criteria

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Embodiment Construction

[0055] A key tumor gene identification method based on particle swarm optimization and scoring criteria, including optimizing Particle Swarm Optimization (PSO) through semi-initialization and Metropolis criteria, and using ELM extreme learning machine as an evaluation gene subset for correct classification The classifier of the rate, the step of obtaining the quantitative data of the classification performance of the algorithm comprises the following steps:

[0056] Step 1. Preprocessing of tumor gene expression profile data, including normalization and preliminary dimensionality reduction of tumor gene expression profile data sets, and simultaneously dividing tumor gene expression profile data sets into training sets and test sets;

[0057] Step 2 defines the scoring criteria and evaluates each gene in combination with the extreme learning machine, and screens out the top-scoring genes to establish a candidate gene pool;

[0058] Step 3 Combined with gene scoring information,...

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Abstract

The invention discloses a tumor key gene identification method based on particle swarm optimization and a marking criterion. The method comprises the steps that one gene marking criterion is defined to acquire gene classification ability information so as to filter genes with a low correlation to a tumor category; and the Metropolis criterion is utilized to improve a particle swarm optimization (PSO) algorithm in combination with the gene classification ability information so as to realize identification of tumor key genes. The new method for gene classification information and PSO improvement overcomes the defect that a traditional method for identifying tumor key genes based on PSO is prone to fall into a locally optimal solution, gene subsets in a smaller number and with a high correlation to the tumor category can be selected, and therefore the method is beneficial for improving subsequent tumor identification.

Description

technical field [0001] The invention belongs to the application field of computer analysis technology of tumor gene expression spectrum data, and in particular relates to a tumor key gene identification method based on particle swarm optimization and scoring criteria. Background technique [0002] Statistical studies in recent years have shown that tumors have become one of the major diseases that endanger human health, and their prevalence is increasing year by year. Different subtypes of tumors have great differences in treatment methods. The primary key to whether the disease can be cured. However, studies have shown that there are usually a few to dozens of therapeutic genes for tumors, and the characteristics of high-dimensional and small samples of microarray data have become a huge challenge in screening disease-causing genes. Therefore, disease-causing genes are selected from tens of millions of genes The characteristic gene is the key problem to be solved. [0003...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G16B20/00
CPCG16B20/00
Inventor 韩飞唐迪程准李秋玮凌青华周从华崔宝祥
Owner JIANGSU UNIV
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