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  • D Ardisson Jose, Steven E. Weitzel, W. A. Baase, Peter H. von Hippel
  • Biology, Medicine
  • Nucleic acids research
  • 2015 (First Published: 30 October 2015)
  • Combining biophysical measurements on T4 bacteriophage replication complexes with detailed structural information can illuminate the molecular mechanisms of these 'macromolecular machines'. Here weContinue Reading
  • D Ardisson Jose, Steven E. Weitzel, W. A. Baase, Miya M. Michael, Peter H. von Hippel
  • Medicine, Biology
  • Nucleic acids research
  • 2015 (First Published: 30 October 2015)
  • We here use our site-specific base analog mapping approach to study the interactions and binding equilibria of cooperatively-bound clusters of the single-stranded DNA binding protein (gp32) of the T4Continue Reading
  • W. A. Baase, D Ardisson Jose, Benjamin C. Ponedel, Peter H. von Hippel, Neil P. Johnson
  • Biology, Medicine
  • Nucleic acids research
  • 2009 (First Published: 1 April 2009)
  • Although mechanisms of single-nucleotide residue deletion have been investigated, processes involved in the loss of longer nucleotide sequences during DNA replication are poorly understood. PreviousContinue Reading
  • D Ardisson Jose, Miya M. Michael, +6 authors Peter H. von Hippel
  • Chemistry
  • 2016 (First Published: 1 February 2016)
  • The single-stranded (ss) DNA binding protein (gp32) of the bacteriophage T4 DNA replication system plays a major role in integrating the functions of the sub-assemblies of the replication complex byContinue Reading
  • Benjamin R. Camel, Katherine Meze, D Ardisson Jose, Peter H. von Hippel
  • Biology
  • 2017 (First Published: 1 February 2017)
  • Previous studies have mapped the structural details and assembly properties of the single-stranded (ss)DNA binding protein (gp32) of bacteriophage T4 as it binds to various ssDNA lattices, both asContinue Reading