GroEL-Proteotyping of Bacterial Communities Using Tandem Mass Spectrometry

Klaes, Simon; Madan, Shobhit; Deobald, Darja; Cooper, Myriel; Adrian, Lorenz

doi:10.3390/ijms242115692

Cited by 3 publications

(1 citation statement)

References 64 publications

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“…Protein reduction, alkylation, protein digestion, and desalting were performed as described above for the cell-free lysate, and a detailed protocol, including downstream analysis, is reported in the Supplementary method Section. The peptides were analyzed using nano-liquid chromatography coupled to tandem mass spectrometry (Thermo Orbitrap Fusion, Thermo Fisher Scientific, Waltham, MA, USA) [50]. All experiments were carried out in biological triplicates.…”

Section: Protein Analysismentioning

confidence: 99%

Characterization of phage vB_EcoS-EE09 infecting E. coli DSM613 Isolated from Wastewater Treatment Plant Effluent and Comparative Proteomics of the Infected and Non-Infected Host

Barrero-Canosa,

Wang,

Oyugi

et al. 2023

Microorganisms

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Phages influence microbial communities, can be applied in phage therapy, or may serve as bioindicators, e.g., in (waste)water management. We here characterized the Escherichia phage vB_EcoS-EE09 isolated from an urban wastewater treatment plant effluent. Phage vB_EcoS-EE09 belongs to the genus Dhillonvirus, class Caudoviricetes. It has an icosahedral capsid with a long non-contractile tail and a dsDNA genome with an approximate size of 44 kb and a 54.6% GC content. Phage vB_EcoS-EE09 infected 12 out of the 17 E. coli strains tested. We identified 16 structural phage proteins, including the major capsid protein, in cell-free lysates by protein mass spectrometry. Comparative proteomics of protein extracts of infected E. coli cells revealed that proteins involved in amino acid and protein metabolism were more abundant in infected compared to non-infected cells. Among the proteins involved in the stress response, 74% were less abundant in the infected cultures compared to the non-infected controls, with six proteins showing significant less abundance. Repressing the expression of these proteins may be a phage strategy to evade host defense mechanisms. Our results contribute to diversifying phage collections, identifying structural proteins to enable better reliability in annotating taxonomically related phage genomes, and understanding phage–host interactions at the protein level.

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Section: Protein Analysismentioning

confidence: 99%

Characterization of phage vB_EcoS-EE09 infecting E. coli DSM613 Isolated from Wastewater Treatment Plant Effluent and Comparative Proteomics of the Infected and Non-Infected Host

Barrero-Canosa,

Wang,

Oyugi

et al. 2023

Microorganisms

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Revealing taxonomy, activity, and substrate assimilation in mixed bacterial communities by GroEL-proteotyping-based stable isotope probing

Klaes,

Madan,

Deobald

et al. 2024

iScience

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De novoassembled databases enable species-specific protein-based stable isotope probing of microbiomes without prior knowledge of the community composition

Klaes,

White,

Alvarez-Cohen

et al. 2024

Preprint

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Background:Protein-based stable isotope probing (Protein-SIP) is a powerful approach that can directly link individual taxa to activity and substrate assimilation, elucidating metabolic pathways and trophic relationships within microbiomes. In Protein-SIP, peptides and corresponding taxa are identified by database matches. Thus, database quality is crucial for accurate Protein-SIP analyses. For samples with unknown community composition, Protein-SIP usually employs broad-spectrum or metagenome-derived databases. However, broad-spectrum databases require advanced post-processing strategies and metagenome-derived databases can be costly to acquire. Further, both can inflate database size, negatively impacting peptide identification.Results:Here, an approach in which we use de novo assembled databases for Protein-SIP on microbiomes with unknown community compositions is introduced. This approach enables databases to be directly generated from the mass spectrometry raw data using de novo peptide sequencing. We then use the mass spectrometric data from labeled cultures to quantify isotope incorporation into specific peptides. We benchmark our approach against the canonical approach in which a sample-matching database is generated by DNA sequencing on three different datasets: 1) a proteome analysis from a defined microbial community containing 13C-labeled E. coli cells, 2) time-course data of an anammox-dominated continuous reactor after feeding with 13C-labeled bicarbonate, and 3) a model of the human distal gut simulating a high-protein and high-fiber diet cultivated in either 2H2O or H218O. Our results show that de novo database assembly is applicable to different isotopes and detects similar amounts of labeled peptides compared to sample-matching databases. Furthermore, we show that peptide-centric Protein-SIP allows species-specific resolution, enabling the assessment of activity related to individual biological processes. Finally, we provide access to our modular Python pipeline to assist the de novo assembly of databases and subsequent peptide-centric Protein-SIP data analysis (https://git.ufz.de/meb/denovo-sip).Conclusions:De novo assembled databases enable species-specific Protein-SIP of microbiomes without prior knowledge of the community composition.

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GroEL-Proteotyping of Bacterial Communities Using Tandem Mass Spectrometry

Cited by 3 publications

References 64 publications

Characterization of phage vB_EcoS-EE09 infecting E. coli DSM613 Isolated from Wastewater Treatment Plant Effluent and Comparative Proteomics of the Infected and Non-Infected Host

Characterization of phage vB_EcoS-EE09 infecting E. coli DSM613 Isolated from Wastewater Treatment Plant Effluent and Comparative Proteomics of the Infected and Non-Infected Host

Revealing taxonomy, activity, and substrate assimilation in mixed bacterial communities by GroEL-proteotyping-based stable isotope probing

De novoassembled databases enable species-specific protein-based stable isotope probing of microbiomes without prior knowledge of the community composition

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