Protein relative abundance patterns associated with sucrose-induced dysbiosis are conserved across taxonomically diverse oral microcosm biofilm models of dental caries.

MLA

Rudney, Joel D., et al. “Protein Relative Abundance Patterns Associated with Sucrose-Induced Dysbiosis Are Conserved across Taxonomically Diverse Oral Microcosm Biofilm Models of Dental Caries.” Microbiome, vol. 3, Dec. 2015, p. 69. EBSCOhost, https://doi.org/10.1186/s40168-015-0136-z.

APA

Rudney, J. D., Jagtap, P. D., Reilly, C. S., Chen, R., Markowski, T. W., Higgins, L., Johnson, J. E., & Griffin, T. J. (2015). Protein relative abundance patterns associated with sucrose-induced dysbiosis are conserved across taxonomically diverse oral microcosm biofilm models of dental caries. Microbiome, 3, 69. https://doi.org/10.1186/s40168-015-0136-z

Chicago

Rudney, Joel D, Pratik D Jagtap, Cavan S Reilly, Ruoqiong Chen, Todd W Markowski, LeeAnn Higgins, James E Johnson, and Timothy J Griffin. 2015. “Protein Relative Abundance Patterns Associated with Sucrose-Induced Dysbiosis Are Conserved across Taxonomically Diverse Oral Microcosm Biofilm Models of Dental Caries.” Microbiome 3 (December): 69. doi:10.1186/s40168-015-0136-z.