利用 DeepMetagenome 探索环境微生物组中蛋白质的天然多样性。

IF 4.3 Q1 BIOCHEMICAL RESEARCH METHODS

Cell Reports Methods Pub Date : 2024-11-18 Epub Date: 2024-11-07 DOI:10.1016/j.crmeth.2024.100896

Xiaofang Li, Jun Zhang, Dan Ma, Xiaofei Fan, Xin Zheng, Yong-Xin Liu

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引用次数: 0

摘要

蛋白质的自然多样性为蛋白质工程提供了广阔的序列空间，而深度学习可以在不预先假设的情况下从元基因组/蛋白质组中检测蛋白质的自然多样性。DeepMetagenome 是一种基于 Python 的方法，通过训练和分析序列数据集的模块来探索蛋白质的多样性。深度学习模型包括嵌入层、Conv1D 层、LSTM 层和密集层，并通过序列特征分析进行数据清理。DeepMetagenome 将超过 1.46 亿个编码特征的数据库应用于金属硫蛋白，识别出了 500 多个高置信度金属硫蛋白序列，表现优于基于 DIAMOND 和 CNN 的模型。与基于 Transformer 的模型相比，DeepMetagenome 在 25 个历时中表现出稳定的性能。在 23 个合成序列中，有 20 个表现出金属抗性。该工具还成功地探索了另外三个蛋白质家族的多样性，并在 GitHub 上免费提供，还附有详细说明。

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Exploring protein natural diversity in environmental microbiomes with DeepMetagenome.

Protein natural diversity offers a vast sequence space for protein engineering, and deep learning enables its detection from metagenomes/proteomes without prior assumptions. DeepMetagenome, a Python-based method, explores protein diversity through modules for training and analyzing sequence datasets. The deep learning model includes Embedding, Conv1D, LSTM, and Dense layers, with sequence feature analysis for data cleaning. Applied to metallothioneins from a database of over 146 million coding features, DeepMetagenome identified over 500 high-confidence metallothionein sequences, outperforming DIAMOND and CNN-based models. It showed stable performance compared to a Transformer-based model over 25 epochs. Among 23 synthesized sequences, 20 exhibited metal resistance. The tool also successfully explored the diversity of three additional protein families and is freely available on GitHub with detailed instructions.

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来源期刊

Cell Reports Methods Chemistry (General), Biochemistry, Genetics and Molecular Biology (General), Immunology and Microbiology (General)

CiteScore

3.80

自引率

0.00%

发文量

审稿时长

111 days