Publications 2010-2019

    1. J. F. Stolz and P. Basu, “Unraveling the inner workings of respiratory arsenate reductase”, Proc. Natl. Acad. Sci., USA (2018), 115(37), 9051-9053.
    2. B. Mintmier, J. M. McGarry, C.E. Sparacino-Watkins, J. Sallmen, J.R. McCormick, J.F. Stolz, K. Fischer-Schrader, G. Schwarz, A. Magalon, D. J. Bain, P. BasuFEMS microbiology Letters365, August (2018).
    3.  A. S. Chang, T. Pintauer, P. Basu, W. T. Eckenhoff, “Structural and Electronic Investigation of Tetrachalcogenidomolybdate Dianions,” Chemistry Select3, 5808-5813, (2018).
    4. C Ratvasky,# B. Mogesa, M. J. van Stipdonk, P. Basu, “A mixed valence zinc dithiolene system with spectator metal and reactor ligand”, Polyhedron (Special issue on Undergraduate research), 114, 370-377 (2016) .
    5. S. J. N. Burgmayer, B. R. Williams and P. Basu, “Pterin-inspired Model Compounds of Molybdenum Enzymes,” in Molybdenum and Tungsten Enzymes: Bioinorganic Chemistry, Eds: R. Hille, C. Schulzke, M.L. Kirk, RSC Metallobiology Series 6, Royal Society of Chemistry, Cambridge, UK, pp 8-67, (2017).
    6. Yang, B. Mogesa, P. Basu, and M. L. Kirk, “Large Ligand Folding Distortion in an Oxomolybdenum Donor-Acceptor Complex,” Inorg. Chem., 55, 785-793 (2016). DOI:10.1021/acs.inorgchem.5b02252.
    7. V. Pimkov, B. Serli-Mitasev, A. A. Peterson,# S. C. Ratvasky,# B. Hammann, P. Basu, “Designing the Molybdopterin Core Through Regioselective Coupling of Building Blocks,” Chem. Eur. J. (2015), 21, 17057 – 17072. DOI: 10.1002/chem.201502845
    8. Mogesa, E. Perera, H. M. Rhoda, J. K. Gibson, J. Oomensd, G. Berdend, M. J van Stipdonk, V. N. Nemykin, and P. Basu, “Solution, Solid and Gas Phase Studies on a Nickel Dithiolene System – Spectator Metal and Reactor Ligand,” Inorg. Chem., 54, 7703-7716 (2015). DOI: 10.1021/acs.inorgchem.5b00531.
    9. Basu and S. J.N. Burgmayer, “Recent Developments in the Study of Molybdoenzyme Models,” J. Biol. Inorg. Chem., 20, 373-383 (2015), DOI 10.1007/s00775-014-1228-0.
    10. Wang, S. Krizowski, K. Fisher-Schrader, D. Niks, J. Tejero, C. Sparacino-Watkins, L. Wang, V. Ragireddy, S. Frizzell, E. E. Kelley, Y. Zhang, P. Basu, R. Hille, G. Schwarz, and M. T. Gladwin, “Sulfite Oxidase Catalyzes Single Electron Transfer at Molybdenum Domain to Reduce Nitrite to Nitric Oxide”, Antioxidants and Redox Signaling, 23(4), 283-94 (2015), DOI: 10.1089/ars.2013.5397
    11. Thomas, P. Chovanec, J. F. Stolz, P. Basu, “Mapping the Protein Profile Involved in the Biotransformation of Organoarsenicals Using an Arsenic Metabolizing Bacterium,” Metallomics, 6, 1958-1969 (2014). DOI: 10.1039/c4mt00185k
    12. J. van Stipdonk, P. Basu, S.A. Dille, J.K. Gibson, G. Berden, J. Oomens, “Infrared Multiple Photon Dissociation Spectroscopy of a Gas-Phase Oxo-Molybdenum Complex with 1,2-Dithiolene Ligands,” J. Phys. Chem. A, 118, 5407-5418 (2014). DOI:10.1021/jp503222v
    13. Pimkov, A. Peterson,# D. Vaccarello,# P. Basu, “A Regioselective Synthesis of the Dephospho Dithiolene Protected Molybdopterin”, RSC Advances, 4, 19072-19076 (2014), DOI:10.1039/C4RA02786H
    14. E. Sparacino-Watkins, J. Tejero, B. Sun, M. C. Gauthier, J. Thomas, V. Ragireddy, B. A. Merchant, J. Wang, I. Azarov, P. Basu, and M. T. Gladwin, “Nitrite reductase and NO synthase activity of the mitochondrial molybdopterin enzymes mARC1 and mARC2”, J. Biol. Chem., 289(15), 10345-10358, (2014). DOI:10.1074/jbc.M114.555177
    15. Hille, J. Hall and P. Basu, “The Mononuclear Molybdenum Enzymes,” Chem. Rev., 114(7), 3963-4038. (2014). dx.doi.org/10.1021/cr400443z
    16. Sparacino-Watkins, J.F. Stolz and P. Basu, “Nitrate and Periplasmic Nitrate reductases”, Chem. Soc. Rev., 43, 676-706 (2014). doi: 10.1039/c3cs60249d.
    17. Basu, “Microbial Metallomics,” Metallomics, 5, 274-275 (2013).
    18. Basu, B. W. Kail, A. K. Adams#, V. N. Nemykin, “Quantitation of Ligand Effect in oxo-transfer reactions from dioxo-Mo(VI) trispyrazolyl borate complexes,” Dalton Transaction, 3071-3081 (2013).
    19. Deibler# and P. Basu, “Continuing issues with Lead: Recent Advances in Detection”, Eur. J. Inorg. Chem., 1086-1096 (2013).
    20. V. Pimkov, A. Nigam, K. Venna, F. F. Fleming, P. V. Solntsev, V. N. Nemykin, and P. Basu, “Dithiolopyranthione Synthesis, Spectroscopy and an Unusual Reactivity with DDQ,” J. Heterocycl. Chem., 50(4), 879-886, (2013)
    21. Sparacino-Watkins, J. Tejero, J. Wang, V. P. Ragireddy, M. Gauthier, J. Thomas, M. Buenoa, I. Azarova, Y-C. Laia, B. Sun, S. Frizzella, P. Basu, A. Mora, M. T. Gladwin, “P74: Novel human mitochondrial enzyme can transform nitrite into nitric oxide,” Nitric Oxide, 31, S45-46 (2013).
    22. Wang, S. Krizowski, K. Fischer, D. Niks, J. Tejero, L. Wang, C. Sparacino-Watkins, P. Ragireddy, S. Frizzell, E. E. Kelley, S. Shiva, Y. Zhang, P. Basu, R. Hille, G. Schwarz, M. T. Gladwin, “Sulfite oxidase catalyzes single electron transfer at molybdenum domain to reduce nitrite to NO,” Nitric Oxide, 31, S39-40 (2013).
    23. Basu, “Tungsten in Biological Systems,” in Encyclopedia of Metalloproteins, Ed: V.N. Uversky, R.H. Kretsinger, E.A. Permyakov, Springer Science, Chapter 138, (2013).
    24. Chovanec, C.E. Sparacino-Watkins, N. Zhang, P. Basu and J. Stolz, “Microbial Reduction of Chromate in the presence of Nitrate by Three Nitrate Respiring Organisms,” Front. Microbiol., 3:416. doi: 10.3389/fmicb.2012.00416. (2012).
    25. P. Mtei, E. Perera, B. Mogesa, B. Stein, P. Basu, and M.L. Kirk, “A Valence Bond Description of Dizwitterionic Dithiolene Character in an Oxomolybdenum-bis(dithione),” Eur. J. Inorg. Chem., (2011), 5467-5470.
    26. Basu, and S.N.J Burgmayer, “Pterin Chemistry and its Relationship to the Molybdenum Cofactor”. Coordination Chemistry Reviews.   255, 1016-1038. (2011)
    27. Chovanec, P. Basu, and J.F. Stolz, Application of Proteomics in Bioremediation. In Stolz  J.F. and Oremland, R.S. (eds.) “Microbial Metabolism of Metal and Metalloids: Advances and Applications”, ASM Press, Washington DC, 247-259 (2011).
    28. F. Stolz, M.M. Berekaa, E. Fisher, G. Polshyna, M. Thangavelu, R. Bansal, M. Ranganathan, A. Garcia Moyano, S. El Assar, and P. Basu, Methods for Detection of Arsenate Respiring Bacteria: Advances, Cautions, and Caveats. In Stolz J.F. and Oremland, R.S. (eds.) “Microbial Metabolism of Metal and Metalloids: Advances and Applications”, ASM Press, Washington DC, 283-295 (2011).
    29. Basu, A. Nigam, B. Mogesa, S. Denti,# V. Nemykin, “Synthesis, characterization, spectroscopy, electronic and redox properties of a new nickel dithiolene system,” Inorg. Chim. Acta, 363, 2857-2864 (2010).
    30. Basu, B.W. Kail, C.G. Young, “Influence of the Oxygen Atom Acceptor on the Reaction Coordinate and Mechanism of Oxygen Atom Transfer From the Dioxo-Mo(VI) Complex, TpiPrMoO2(OPh), to Tertiary Phosphines,” Inorg. Chem., 49, 4895-4900 (2010).
    31. Chovanec, J.F. Stolz, P. Basu, “A proteome investigation of roxarsone degradation by Alkaliphilus oremlandii strain OhILAs,” Metallomics, 2, 133-139 (2010).
    32. F. Stolz, P. Basu, R.S. Oremland, “The Microbial Transformation of Arsenic: New Twists on an Old Poison,” Microbe, 5, 53-59 (2010).
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