RamEx: an R package for high-throughput microbial ramanome analyses with accurate quality assessment

生物 桥接(联网) 质量评定 微生物生态学 计算生物学 生化工程 R包 质量(理念) 许可证 计算机科学 医学微生物学 生物技术 微生物学技术 基因组 生物分类
作者
Yanmei Zhang,Gongchao Jing,Rongze Chen,Yanhai Gong,Yuandong Li,Yongshun Wang,Xixian Wang,Jia Zhang,Yuli Mao,Yi He,Xiaoshan Zheng,Mingchao Wang,Hao Yuan,Jian Xu,Luyang Sun
出处
期刊:Microbiome [BioMed Central]
卷期号:14 (1) 被引量:2
标识
DOI:10.1186/s40168-026-02339-3
摘要

BACKGROUND: Microbial single-cell Raman spectroscopy (SCRS) has emerged as a powerful tool for label-free phenotyping, enabling rapid characterization of microbial diversity, metabolic states, and functional interactions within complex communities. However, high-throughput SCRS datasets often contain spectral anomalies from noise and fluorescence interference, which obscure microbial signatures and hinder accurate classification. Robust algorithms for outlier detection and microbial ramanome analysis remain underdeveloped. RESULTS: Here, we introduce RamEx, an R package specifically designed for high-throughput microbial ramanome analyses with robust quality control and phenotypic classification. At the core of RamEx is the Iterative Convolutional Outlier Detection (ICOD) algorithm, which dynamically detects spectral anomalies without requiring predefined thresholds. Benchmarking on both simulated and real microbial datasets-including pathogenic bacteria, probiotic strains, and yeast fermentation populations-demonstrated that ICOD achieves an F1 score of 0.97 on simulated datasets and 0.74 on real datasets, outperforming existing approaches by at least 19.8%. Beyond anomaly detection, RamEx provides a modular and scalable workflow for microbial phenotype differentiation, taxonomic marker identification, metabolic-associated fingerprinting, and intra-population heterogeneity analysis. It integrates Raman-based species-specific biomarkers, enabling precise classification of microbial communities and facilitating functional trait mapping at the single-cell level. To support large-scale studies, RamEx incorporates C++ acceleration, GPU parallelization, and optimized memory management, enabling the rapid processing of over one million microbial spectra within an hour. CONCLUSIONS: By bridging the gap between high-throughput Raman-based microbial phenotyping and computational analysis, RamEx provides a comprehensive toolkit for exploring microbial ecology, metabolic interactions, and antibiotic susceptibility at the single-cell resolution. RamEx is freely available under the MIT license at https://github.com/qibebt-bioinfo/RamEx . Video Abstract.
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