Assessment of structure-function relationships is a central theme in microbial ecology. However, the degree that isolate metabolic activities are conserved in communities remains unclear. This is because tracking population dynamics and substrate partitioning in microbial communities remains technically challenging. Here, we describe the application of a mass spectrometry-based ribosomal marker protein profiling with stable isotope probing approach that allows for concurrent monitoring of community structure dynamics and resource assimilation within a five-member synthetic soil bacterial community. Using this approach, we find that isolate substrate preferences for glutamine and phenylalanine are largely conserved in the community and can be predicted using a weighted-sum model. However, time-series monitoring revealed a significant delay in phenylalanine incorporation by two of the strains, as well as enhanced growth for Variovorax paradoxus presumably due to interspecies interactions. The unique utility of this approach to temporally probe resource incorporation and community structure enables deciphering the dynamic interactions occurring within the community. Extension of this approach to other communities under various environmental perturbations is needed to reveal the generality of microbial conservation of substrate preferences.
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