Functional Single-Cell Approach to Probing Nitrogen-Fixing Bacteria in Soil Communities by Resonance Raman Spectroscopy with 15N2 Labeling

Abstract

Nitrogen (N) fixation is the conversion of inert nitrogen gas (N ) to bioavailable N essential for all forms of life. N -fixing microorganisms (diazotrophs), which play a key role in global N cycling, remain largely obscure because a large majority are uncultured. Direct probing of active diazotrophs in the environment is still a major challenge. Herein, a novel culture-independent single-cell approach combining resonance Raman (RR) spectroscopy with N stable isotope probing (SIP) was developed to discern N -fixing bacteria in a complex soil community. Strong RR signals of cytochrome c (Cyt c, frequently present in diverse N -fixing bacteria), along with a marked N -induced Cyt c band shift, generated a highly distinguishable biomarker for N fixation. N -induced shift was consistent well with N abundance in cell determined by isotope ratio mass spectroscopy. By applying this biomarker and Raman imaging, N -fixing bacteria in both artificial and complex soil communities were discerned and imaged at the single-cell level. The linear band shift of Cyt c versus N percentage allowed quantification of N fixation extent of diverse soil bacteria. This single-cell approach will advance the exploration of hitherto uncultured diazotrophs in diverse ecosystems.