Bioenergetics & Synthetic Charge-Transfer 

8) M. J. Guberman-Pfeffer. To be or not to be a cytochrome: electrical characterizations are inconsistent with Geobacter cytochrome ‘nanowires’. Front. Microbiol. 15:1397124. doi: 10.3389/fmicb.2024.1397124

7) Y. Gu, M. J. Guberman-Pfeffer, V. Srikanth, C. Shen, F. Giska, K. Gupta, Y. Londer, F. A. Samatey, V. S. Batista, N. S. Malvankar. Structure of Geobacter cytochrome OmcZ identifies mechanism of nanowire assembly and conductivity. Nat. Microbiol. 2023, 8, 2, 284-298.

6) M. J. Guberman-Pfeffer. Structural Determinants of Redox Conduction Favor Robustness over Tunability in Microbial Cytochrome Nanowires. bioRxiv, 2023, 2023-01.

5) M. J. Guberman-Pfeffer. Assessing Thermal Response of Redox Conduction for anti-Arrhenius Kinetics in a Microbial Cytochrome Nanowire. J. Phys. Chem. B, 2022, 126 (48), 10083–10097.

4) J. Neu, C. C. Shipps, M. J Guberman-Pfeffer, C. Shen, V. Srikanth, J. A. Spies, N. D. Kirchhofer, S. E. Yalcin, G. W. Brudvig, V. S. Batista, N. S. Malvankar. Microbial biofilms as living photoconductors due to ultrafast electron transfer in cytochrome OmcS nanowires. Nat. Commun., 2022, 13 (1), 1-12.

3) P. J. Dahl, S. M. Yi, Y. GU, A. Acharya, C. Shipps, J. Neu, J. P. O’Brien, U. N. Moran, S. Chaudhuri, M. J. Guberman-Pfeffer, D. Vu, S. E. Yalcin, V. S. Batista, N. S. Malvankar. A 300-fold conductivity increase in microbial cytochrome nanowires due to temperature-induced restructuring of hydrogen bonding networks. Sci. Adv. 2022, 8 (19), eabm7193.

2) M. J. Guberman-Pfeffer, N. S. Malvankar. Making protons tag along with electrons. Biochem. J., 2021, 478 (23), 4093-4097.

1) B. Pattengale, J. G. Freeze, M. J. Guberman-Pfeffer, R. Okabe, S. Ostresh, S. Chaudhuri, V. S. Batista, and C. A. Schmuttenmaer. A conductive metal–organic framework photoanode. Chem. Sci. 2020, 11, 35, 9593-9603.

Medicinal Chemistry

4) J. Wanga, F. Maschietto, M. J. Guberman-Pfeffer, K. Reiss, B. Allen, Y. Xionga, E. Lolisc, V. S. Batista. Computational insights into the membrane fusion mechanism of SARS-CoV-2 at the cellular level. Comput. Struct. Biotechnol. J. 2021,19, 5019-5028.

3) N. A. Saavedra-Avila, S. Keshipeddy, M. J. Guberman-Pfeffer, A. Pérez-Gallegos, N. K. Saini, C. Schäfer, L. J. Carreño, J. A. Gascón, S. A. Porcelli,  A. R. Howell. Amide-Linked C4″-Saccharide Modification of KRN7000 Provides Potent Stimulation of Human Invariant NKT Cells and Anti-Tumor Immunity in a Humanized Mouse Model. ACS Chem. Biol. 2020, 15(12), 3176–3186.

2) D. Chennamadhavuni, N. A. Saavedra-Avila, L. J. Carreño, M. J. Guberman-Pfeffer, P. Arora, T. Yongqing, H-F. Koay, D. I. Godfrey, S. Keshipeddy, S. K. Richardson, S. Sundararaj, J. H. Lo, X. Wen, J. A Gascón, W. Yuan, J. Rossjohn, J. Le Nours, S. A Porcelli, A. R Howell. Dual Modifications of α-Galactosylceramide Synergize to Promote Activation of Human Invariant Natural Killer T Cells and Stimulate Anti-tumor Immunity. Cell Chem. Biol. 2018, 25, 1-14.

1) M. J. Guberman-Pfeffer. Resistance: How VanA Strains Get Away With It. The Winnower. 2015, DOI:10.15200/winn.144060.03577.