Tuesday Nov 5, 2024
Tuesday Nov 5, 2024

New method for large-scale data integration and identifying biomarkers


Nepalnews
ANI
2022 Jun 07, 17:52, Beijing, China
Representative Image. Photo- ANI

 A new study by the Chinese Academy of Sciences, the Beijing Institute of Life Sciences has suggested a new method (NetMoss) for efficiently integrating large-scale microbiome data with biomarker discovery.

The findings of the research were published in the journal 'Nature Computational Science'.

The relationship between the gut microbiome and human health has received increasing attention in recent years, and a huge amount of data, which is complex in type and large in quantity, has been accumulated with unprecedented growth. However, it is challenging to extract information closely related to disease from such big data.

On the one hand, the gut microbiome is more likely to be influenced by various factors such as diet and geography. The composition of the gut microbiome may vary greatly among different populations, which leads to bias in the direct integration of data and the identification of biomarkers based on abundance. On the other hand, the microbial abundance matrix is too sparse, and it is difficult for conventional computational methods to remove batch effects based on this sparse matrix.

The newly proposed algorithm uses microbial interaction networks to effectively integrate data from different populations. It can quantify the topological differences between different network modules by comparing the perturbations of microbial networks in different states, thus enabling the identification of disease-associated biomarkers.

Compared with previous methods, NetMoss can unbiasedly integrate different batches of microbial data more efficiently, mine disease-associated biomarkers, and identify microbial dysbiosis covariation patterns that drive the occurrence of multiple diseases.

In this study, the researchers collected 11,377 sequencing samples of the gut microbiome from diseased and healthy controls, covering 78 studies, 37 diseases, and 13 countries or regions. With these multiple datasets from different populations, they found that currently used computational methods have extreme difficulty removing batch effects caused by experimental and sequencing processes.

To efficiently perform downstream analyses and avoid bias, the researchers developed an efficient computational model for data integration and biomarker identification. The model was based on microbial interaction networks.

Microbial interaction networks are constructed individually and then integrated using different weights based on their structural characteristics. By quantifying the topological differences between different modules in diseased and healthy networks, the bacteria most sensitive to perturbation by external influences are identified as biomarkers.

The researchers applied the computational algorithm to both simulated and real datasets. They found it was highly accurate and robust both in the integrated dataset and in the single dataset.

"Most of the biomarkers did not cause only one disease alone but were significantly associated with multiple diseases. The similar dysbiosis pattern may provide important clues to the occurrence of different diseases," said Prof. ZHAO.

This new algorithm will help us understand the nature of microbiome-host interactions and better guide us in the prevention and treatment of many diseases. 

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Beijing china New method for large-scale data integration and identifying biomarkers new method (NetMoss) large-scale microbiome data
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