Affiliation:
1. School of Biological and Chemical Sciences, Ryan Institute University of Galway Galway Ireland
2. The James Hutton Institute Aberdeen UK
3. Biomedical Sciences Research Centre University of St Andrews St Andrews UK
4. Teagasc, Johnstown Castle Wexford Ireland
Abstract
AbstractSoil organic matter (SOM) is biologically, chemically, and physically complex. As a major store of nutrients within the soil, it plays an important role in nutrient provision to plants. An enhanced understanding of SOM utilisation processes could underpin better fertiliser management for plant growth, with reduced environmental losses. Metaproteomics can allow the characterisation of protein profiles and could help gain insights into SOM microbial decomposition mechanisms. Here, we applied three different extraction methods to two soil types to recover SOM with different characteristics. Specifically, water‐extractable organic matter, mineral‐associated organic matter and protein‐bound organic matter were targeted with the aim to investigate the metaproteome enriched in those extractions. As a proof‐of‐concept, replicated extracts from one soil were further analysed for peptide identification using liquid chromatography followed by tandem mass spectrometry. We employed a framework for mining mass spectra for both peptide assignment and fragmentation pattern characterisation. Different extracts were found to exhibit contrasting total protein and humic substance content for the two soils investigated. Overall, water extracts displayed the lowest humic substance content (in both soils) and the highest number of peptide identifications (in the soil investigated) with the most frequent peptide hits associated with diverse substrate/ligand binding proteins of Proteobacteria and derived taxa. Our framework also highlighted a strong peptidic signal in unassigned and unmatched spectra, information that is currently not captured by the pipelines employed in this study. Taken together, this work points to specific areas for optimisation in chromatography and mass spectrometry to adequately characterise SOM‐associated metaproteomes.
Funder
Irish Research Council for Science, Engineering and Technology
University of Galway
Irish Research Council