Research articles
- \(\color{red}{\text{S.H. Saunders}}\), E.C.M. Tse, M.D. Yates, F. Jiménez Otero, S.A. Trammell, E.D.A. Stemp, J.K. Barton*, L.M. Tender*, D.K. Newman*. (2020) Extracellular DNA promotes efficient extracellular electron transfer by pyocyanin in Pseudomonas aeruginosa biofilms, Cell. | doi | github repository | paper website
*Corresponding authors
L.M. Tsypin, \(\color{red}{\text{S.H. Saunders}}\), Y. Bar-On, J.R. Leadbetter, D.K. Newman. (2020) Draft Genome Sequence of the Redox-Active Enteric Bacterium Citrobacter portucalensis Strain MBL, Microbiology Resource Announcements 9(32):e00695-20. | doi
K.C. Costa, M. Bergkessel, \(\color{red}{\text{S. Saunders}}\), J. Korlach and D.K. Newman. (2015) Enzymatic degradation of phenazines can generate energy and protect sensitive organisms from toxicity, MBio 6:e01520-01515. | doi
Reviews and perspectives
\(\color{red}{\text{S.H. Saunders}}\) and D.K. Newman. (2018) Extracellular Electron Transfer Transcends Microbe-Mineral Interactions, Cell Host Microbe 24(5):611-613. | doi
N.R. Glasser*, \(\color{red}{\text{S.H. Saunders*}}\) and D.K. Newman. (2017) The colorful world of extracellular electron shuttles, Annual Reviews Microbiology 71:731–751. | doi
*Co-first authors
bioRxiv Preprints
- \(\color{red}{\text{S.H. Saunders}}\), E.C.M. Tse, M.D. Yates, F. Jiménez Otero, S.A. Trammell, E.D.A. Stemp, J.K. Barton*, L.M. Tender*, D.K. Newman*. (2020) Extracellular DNA promotes efficient extracellular electron transfer by pyocyanin in Pseudomonas aeruginosa biofilms, Now published in Cell | bioRxiv preprint | github repository | paper website