DOI: 10.1128/spectrum.00709-26 ISSN: 2165-0497

Mycelial morphology influenced aerobic DNRA in Streptomyces mediolani EM-B2: short rod-shaped mycelium showed markedly greater efficiency than long filamentous mycelium

Manman Zhang, Tengxia He, Cerong Wang, Yixiao Liao, Hong Zhao, ChengTao Jin

ABSTRACT

Microbial dissimilatory nitrate reduction to ammonium (DNRA) metabolism offers a novel eco-friendly ammonium production pathway. However, most reported anaerobic DNRA consortia showed low nitrite/oxygen tolerance, limited ammonium yield, and scarce reported pure-cultured DNRA functional actinomycete. This work revealed an aerobic morphology-dependent DNRA strain of Streptomyces mediolani EM-B2 with glucose as a carbon source. In terms of DNRA efficiency, the short rod-shaped mycelium was markedly superior, with 75.82% of the converted nitrate recovered as ammonium (63.61 mg/L) compared to only 46.61% (44.78 mg/L) for the long filamentous mycelium. To date, no comparable studies have reported such morphology-dependent metabolic differences in DNRA in actinomycetes. The strain EM-B2 could tolerate and utilize 300 mg/L of nitrite to produce 75.46 mg/L of ammonium nitrogen. Furthermore, nitrite reductase (NIR) played a key role in DNRA catalysis, with an enzyme specific activity of 0.024 U/mg protein. Combined analysis of metabolite and ¹⁵N-tracing experiments confirmed ammonium production primarily via the pathway of NO₃⁻ → NO₂⁻ → NH₄ + . This study provided a high-performance microbial agent and a technical strategy for mitigating nitrogen loss while enhancing soil nitrogen retention/recovery.

IMPORTANCE

In terms of DNRA efficiency, the short aerial hypha was markedly superior, with 75.82% of the converted nitrate recovered as ammonium (63.61 mg/L) compared to only 46.61% (44.78 mg/L) for the long filamentous mycelium. To date, no comparable studies have reported such morphology-dependent metabolic differences in DNRA in actinomycetes.

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