Single particle high resolution spectral analysis flow cytometry, Goddard, G.; Martin, J.C.; Naivar, M.; Goodwin, P.M.; Graves, S.W.; Habbersett, R.; Nolan J.P.; Jett, J.H. Cytometry, 2006, 69A(8), 842-851.
A two-dimensional view of the folding energy landscape of cytochrome c,Werner, J.H.; Joggerst, R.; Dyer, R.B.; Goodwin, P.M. Proc. Natl. Acad. Sci. USA, 2006, 103, 11130–11135.
A comparison of the fluorescence dynamics of single molecules of the green fluorescent protein: one- versus two-photon excitation. Cotlet, M.; Waldo, G.S.; Goodwin, P.M.; Werner, J.H. ChemPhysChem, 2006, 7, 250–260.
Site-specific deviations from random coil dimensions in a highly denatured protein; a single molecule study. McCarney, E.R.; Werner, J.H.; Bernstein, S.L.; Ruczinski, I.; Makarov, D.E.; Goodwin, P.M.; Plaxco, K.W. J. Mol. Biol., 2005, 352, 672–682.
Exonuclease I hydrolyses DNA with a distribution of rates. Werner, J.H.; Cai, H.; Keller, R.A.; Goodwin, P.M. Biophys. J., 2005, 88, 1403–1412.
Single-molecule spectroscopy for nucleic acid analysis: a new approach for disease detection and genomic analysis. Goodwin, P.M.; Nolan, R.L.; Cai, H. Curr. Pharm. Biotechnol., 2004, 5, 271–278.
A simple quenching method for fluorescence background reduction and its application to the direct, quantitative detection of specific mRNA. Nolan, R.L.; Cai, H.; Nolan, J.P.; Goodwin, P.M. Anal. Chem., 2003, 75, 6326–6243.
Single-molecule detection in liquids by laser-induced fluorescence. Goodwin, P.M.; Ambrose, W.P.; Keller, R.A Accounts Chem. Res., 1996, 29, 607-613.