m1A-Ensem：通过集合模型准确识别 1-甲基腺苷位点。

IF 4 3区生物学 Q1 MATHEMATICAL & COMPUTATIONAL BIOLOGY

Biodata Mining Pub Date : 2024-02-15 DOI:10.1186/s13040-023-00353-x

Muhammad Taseer Suleman, Fahad Alturise, Tamim Alkhalifah, Yaser Daanial Khan

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引用次数: 0

摘要

背景：1-甲基腺苷（m1A）是甲基腺苷的一种变体，其第 1 位上有一个甲基取代基，在 RNA 稳定性和人体代谢物中发挥着重要作用：传统的方法，如质谱法和定点诱变法，被证明是费时和复杂的：本研究的重点是利用新型特征开发机制识别 RNA 序列中的 m1A 位点。获得的特征被用于训练集合模型，包括混合、提升和装袋。然后对训练好的集合模型进行独立测试和 k 倍交叉验证：结果：所提出的模型优于先前存在的预测器，并根据主要的准确度指标显示出优化的分数：为便于研究，可通过 https://taseersuleman-m1a-ensem1.streamlit.app/ 访问所提模型的用户友好型网络服务器。

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m1A-Ensem: accurate identification of 1-methyladenosine sites through ensemble models.

Background: 1-methyladenosine (m1A) is a variant of methyladenosine that holds a methyl substituent in the 1st position having a prominent role in RNA stability and human metabolites.

Objective: Traditional approaches, such as mass spectrometry and site-directed mutagenesis, proved to be time-consuming and complicated.

Methodology: The present research focused on the identification of m1A sites within RNA sequences using novel feature development mechanisms. The obtained features were used to train the ensemble models, including blending, boosting, and bagging. Independent testing and k-fold cross validation were then performed on the trained ensemble models.

Results: The proposed model outperformed the preexisting predictors and revealed optimized scores based on major accuracy metrics.

Conclusion: For research purpose, a user-friendly webserver of the proposed model can be accessed through https://taseersuleman-m1a-ensem1.streamlit.app/ .

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来源期刊

Biodata Mining MATHEMATICAL & COMPUTATIONAL BIOLOGY-

CiteScore

7.90

自引率

0.00%

发文量

审稿时长

23 weeks

期刊介绍： BioData Mining is an open access, open peer-reviewed journal encompassing research on all aspects of data mining applied to high-dimensional biological and biomedical data, focusing on computational aspects of knowledge discovery from large-scale genetic, transcriptomic, genomic, proteomic, and metabolomic data. Topical areas include, but are not limited to: -Development, evaluation, and application of novel data mining and machine learning algorithms. -Adaptation, evaluation, and application of traditional data mining and machine learning algorithms. -Open-source software for the application of data mining and machine learning algorithms. -Design, development and integration of databases, software and web services for the storage, management, retrieval, and analysis of data from large scale studies. -Pre-processing, post-processing, modeling, and interpretation of data mining and machine learning results for biological interpretation and knowledge discovery.