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Method for identifying key protein using artificial bee colony optimization algorithm of foraging mechanism

An artificial bee colony optimization and protein technology, applied in the field of bioinformatics, can solve the problems of only considering local features, not considering the dynamics of protein interaction networks, and low accuracy of key protein identification, achieving high accuracy

Inactive Publication Date: 2017-06-20
SHAANXI NORMAL UNIV
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Problems solved by technology

[0010] Based on the defects of the above key protein identification methods, the main reason is that the dynamics of the protein interaction network is not considered, only the local features are considered and the globality of the network and the false positive of the protein interaction network data are ignored, and the accuracy of key protein identification is low.

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  • Method for identifying key protein using artificial bee colony optimization algorithm of foraging mechanism
  • Method for identifying key protein using artificial bee colony optimization algorithm of foraging mechanism
  • Method for identifying key protein using artificial bee colony optimization algorithm of foraging mechanism

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Embodiment 1

[0105] Taking the protein network as an example, the steps of an artificial bee colony optimization algorithm using a foraging mechanism to identify key proteins are as follows:

[0106] In this embodiment, the yeast data set (DIP 20140427 version) collected from the DIP database is used as the simulation data set. The DIP data contains 4995 proteins and 21554 interaction relationships. The gene expression dataset is collected from the yeast metabolic expression dataset GSE3431 in the GEO database, which includes 6777 genes, gene values ​​at 36 time points in 3 cycles, covering 95% of the proteins in DIP. The key protein data is obtained by integrating the data in the four databases of MIPS, SGD, DEG and SGDP, including a total of 1167 key proteins. The experimental platform is Windows 7 operating system, Intel Core 2 Duo 3.1GHz processor, 4GB physical memory, and realizes the method of the present invention with Matlab R2010b software.

[0107] 1. Transform the protein inter...

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Abstract

The invention discloses a method for identifying key protein using an artificial bee colony optimization algorithm of a foraging mechanism. The method comprises: converting a protein-protein interaction network to an undirected graph, obtaining ribonucleic acid genetic expression values corresponding to protein, preprocessing edges and nodes of the protein-protein interaction network, establishing a dynamic protein-protein interaction network, selecting known key protein as a honey source, honey bees searching neighbourhood of the honey source, following bees searching neighbourhood of the honey bees, updating the honey sources, investigating bees searching new honey sources in a global manner, updating the honey sources, and generating the key protein. The method can accurately identify the key protein. Results of simulation experiments show that sensitiveness, specificity, positive predictive values, negative predictive values and other performance indexes are relatively excellent. Compared with other key protein identification method, the identification process of key protein realized by combining optimizing characteristics of artificial bee colony with characteristics of the protein-protein interaction network improves identification accuracy rate of the key protein.

Description

[0001] 【Technical field】 [0002] The invention belongs to the field of biological information, and relates to a method for identifying key proteins in a dynamic protein interaction network, in particular to a method for identifying key proteins using an artificial bee colony optimization algorithm using a foraging mechanism. [0003] 【Background technique】 [0004] Key proteins are proteins necessary for the survival and reproduction of organisms, and the absence of key proteins will result in the loss of the function of the protein complex and cause the organism to fail to survive. Since key proteins play an important role in life activities, the prediction and identification of key proteins has become an important research work. In biology, the identification of key proteins mainly relies on biological experimental methods, such as single gene selection and conditional gene knockout. Although the results obtained through these experimental techniques are clear and effective...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F19/18G06N3/00
CPCG06N3/006G16B20/00
Inventor 雷秀娟丁玉连陆铖代才程适
Owner SHAANXI NORMAL UNIV
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