Metabolic capabilities are highly conserved among human nasal-associated Corynebacterium species in pangenomic analyses.
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Tran, TH; Escapa, IF; Roberts, AQ; Gao, W; Obawemimo, AC; Segre, JA; Kong, HH; Conlan, S; Kelly, MS; Lemon, KP
August 27, 2024
Duke Scholars
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Tran, T. H., Escapa, I. F., Roberts, A. Q., Gao, W., Obawemimo, A. C., Segre, J. A., … Lemon, K. P. (2024). Metabolic capabilities are highly conserved among human nasal-associated Corynebacterium species in pangenomic analyses. https://doi.org/10.1101/2023.06.05.543719
Tran, Tommy H., Isabel F. Escapa, Ari Q. Roberts, Wei Gao, Abiola C. Obawemimo, Julia A. Segre, Heidi H. Kong, Sean Conlan, Matthew S. Kelly, and Katherine P. Lemon. “Metabolic capabilities are highly conserved among human nasal-associated Corynebacterium species in pangenomic analyses.,” August 27, 2024. https://doi.org/10.1101/2023.06.05.543719.
Tran TH, Escapa IF, Roberts AQ, Gao W, Obawemimo AC, Segre JA, et al. Metabolic capabilities are highly conserved among human nasal-associated Corynebacterium species in pangenomic analyses. 2024.
Tran, Tommy H., et al. Metabolic capabilities are highly conserved among human nasal-associated Corynebacterium species in pangenomic analyses. 27 Aug. 2024. Pubmed, doi:10.1101/2023.06.05.543719.
Tran TH, Escapa IF, Roberts AQ, Gao W, Obawemimo AC, Segre JA, Kong HH, Conlan S, Kelly MS, Lemon KP. Metabolic capabilities are highly conserved among human nasal-associated Corynebacterium species in pangenomic analyses. 2024.