Publication Type
Journal Article
Version
publishedVersion
Publication Date
3-2026
Abstract
Bacterial secreted proteins, particularly effectors delivered by specialized secretion systems, are key mediators of virulence and host-pathogen interactions. However, accurate computational identification remains challenging, as many existing methods rely heavily on sequence similarity or handcrafted features, and often focus on a single secretion system. Recent studies have reported that some bacterial effectors may be associated with more than one secretion system, highlighting the complexity of secretion system annotation and motivating the development of system-aware computational prediction approaches. Here, we present PLM-Effector, a hybrid deep learning framework that integrates modern protein language models (PLMs) with multiple neural architectures via a two-layer ensemble stacking strategy. By extracting complementary features from N- and C-terminal regions, PLM-Effector enables secretion-type-aware prediction across five major bacterial secretion systems (T1SS-T4SS and T6SS), with each system modeled independently. Systematic benchmarking shows that embeddings from protein-specific PLMs (ESM-1b, ESM2_t33, ProtT5) are more discriminative than those from general-purpose language models (e.g. BERT, BioBERT). Leveraging these representations, PLM-Effector achieves superior performance on an independent test set, with macro F1-scores of 0.9848, 0.8649, 0.9899, 0.9620, and 0.9728 for secreted proteins of T1SS-T4SS and T6SS, respectively, outperforming existing tools and homology-based baselines. Implemented as an accessible web server (http://www.mgc.ac.cn/PLM-Effector/) with source code and datasets available (https://github.com/zhengdd0422/PLM-Effector/), PLM-Effector provides a reproducible and user-friendly platform for both small-scale and genome-wide secreted protein discovery, facilitating advances in the study of bacterial pathogenesis.
Keywords
secreted proteins, effectors, virulence, protein language model, ensemble stacking
Discipline
Biomedical Engineering and Bioengineering | Numerical Analysis and Scientific Computing
Research Areas
Data Science and Engineering
Publication
Briefings in Bioinformatics
Volume
27
Issue
2
First Page
1
Last Page
12
ISSN
1467-5463
Identifier
10.1093/bib/bbag143
Publisher
Oxford University Press
Citation
Zheng, Dandan; Chen, Lihong; PANG, Guansong; and Yang, Jian.
PLM-effector: Unleashing the potential of protein language models for bacterial secreted protein prediction. (2026). Briefings in Bioinformatics. 27, (2), 1-12.
Available at: https://ink.library.smu.edu.sg/sis_research/11086
Copyright Owner and License
Authors-CC-NC
Creative Commons License
This work is licensed under a Creative Commons Attribution 3.0 License.
Additional URL
https://doi.org/10.1093/bib/bbag143
Included in
Biomedical Engineering and Bioengineering Commons, Numerical Analysis and Scientific Computing Commons