Roberto Galletto, Ph.D.

Roberto Galletto
Assistant Professor

Biochemistry and Molecular Biophysics

Lab Website
Graduate Programs (DBBS)
Publications (PubMed / NIH)

Office: 252 McDonnell Sciences Building
Phone: 314-362-4368
Email: galletto(at)wustl.edu
 

Research

Mechanistic studies of DNA motor proteins.

Galletto lab research

Publications

  • Sokoloski, J.E., Kozlov, A.G., Galletto, R. and Lohman, T.M.
    Chemo-mechanical pushing of proteins along single-stranded DNA.
    P.N.A.S., USA 113:6194-6199 (2016). (Abstract)

  • Koc, K.N., Singh, S.P., Stodola, J.L., Burgers, P.M. and Galletto, R.
    Pif1 removes a Rap1-dependent barrier to the strand displacement activity of DNA polymerase δ.
    Nucleic Acids Res. 44:3811-3819 (2016). (Abstract)

  • Koc, K.N., Singh, S.P., Stodola, J.L., Burgers, P.M. and Galletto, R.
    Pif1 removes a Rap1-dependent barrier to the strand displacement activity of DNA polymerase δ.
    Nucleic Acids Res 44:3811-3819 (2016). (Abstract)

  • Singh, S.P., Koc, K.N., Stodola, J.L. and Galletto, R.
    A Monomer of Pif1 Unwinds Double-Stranded DNA and It Is Regulated by the Nature of the Non-Translocating Strand at the 3′-End.
    J Mol Biol 428:1053-1067 (2016). (Abstract)

  • Feldmann, E.A., De Bona, P. and Galletto, R.
    The wrapping loop and Rap1 C-terminal (RCT) domain of yeast Rap1 modulate access to different DNA binding modes.
    Journal of Biological Chemistry 290:11455-11466 (2015). (Abstract)

  • Koc, K.N., Stodola, J.L, Burgers, P.M. and Galletto, R.
    Regulation of yeast DNA polymerase δ-mediated strand displacement synthesis by 5′-flaps.
    Nucleic Acid Research 43:4179-4190. (2015). (Abstract)

  • Koc, K.N., Stodola, J.L., Burgers, P.M., and Galletto, R.
    Regulation of yeast DNA polymerase δ-mediated strand displacement synthesis by 5′-flaps.
    Nucleic Acid Research 43:4179-4190 (2015). (Abstract)

  • Feldmann, E.A., Koc, K.N. and Galletto, R.
    Alternative arrangements of telomeric recognition sites regulate the binding mode of the DNA-binding domain of yeast Rap1.
    Biophysical Chemistry 198:1-8 (2015). (Abstract)

  • Feldmann, E.A. and Galletto, R.
    The DNA-binding domain of yeast Rap1 interacts with double-stranded DNA in multiple binding modes.
    Biochemistry 33:7471-7483 (2014). (Abstract)

  • Nguyen, B., Sokoloski, J.E., Galletto, R., Elson, E.L., Wold, M.S. and Lohman, T.M.
    Diffusion of human replication protein A along single-stranded DNA.
    J Mol Biol 426:3246-3261 (2014). (Abstract)