• Freddie Salsbury: all publications

    • Publications

      • Salsbury F, Knutson S, Poole L, Fetrow J. Functional site profiling and electrostatic analysis of cysteines modifiable to cysteine sulfenic acid. Protein science : a publication of the Protein Society 17 (2) , 299-312 (2008) PubMed ID:(18227433)

      • Salsbury F. Analysis of errors in Still's equation for macromolecular electrostatic solvation energies Molecular Physics 104 (8) , 1299 - 1309 (2006) doi: 10.1080/00268970500525879

      • Drotschmann K, Topping R, Clodfelter J, Salsbury F. Mutations in the nucleotide-binding domain of MutS homologs uncouple cell death from cell survival. DNA repair 3 (7) , 729-42 (2004) PubMed ID:(15177182)

      • Drotschmann K, Topping R, Clodfelter J, Salsbury F. Mutations in the nucleotide-binding domain of MutS homologs uncouple cell death from cell survival. DNA repair 3 (7) , 729-42 (2004) PubMed ID:(15177182)

      • Lee M, Salsbury F, Brooks C. Constant-pH molecular dynamics using continuous titration coordinates. Proteins 56 (4) , 738-52 (2004) PubMed ID:(15281127)

      • Lee M, Salsbury F, Olson M. An efficient hybrid explicit/implicit solvent method for biomolecular simulations. Journal of computational chemistry 25 (16) , 1967-78 (2004) PubMed ID:(15470756)

      • Thomas L, Henson A, Reed J, Salsbury F, Thorburn A. Direct binding of Fas-associated death domain (FADD) to the tumor necrosis factor-related apoptosis-inducing ligand receptor DR5 is regulated by the death effector domain of FADD. The Journal of biological chemistry 279 (31) , 32780-5 (2004) (Epub 01 Jun 2004) PubMed ID:(15173180)

      • Thomas L, Henson A, Reed J, Salsbury F, Thorburn A. Direct binding of Fas-associated death domain (FADD) to the tumor necrosis factor-related apoptosis-inducing ligand receptor DR5 is regulated by the death effector domain of FADD. The Journal of biological chemistry 279 (31) , 32780-5 (2004) (Epub 01 Jun 2004) PubMed ID:(15173180)

      • Lee M, Feig M, Salsbury F, Brooks C. New analytic approximation to the standard molecular volume definition and its application to generalized Born calculations. Journal of computational chemistry 24 (11) , 1348-56 (2003) PubMed ID:(12827676)

      • Lee M, Feig M, Salsbury F, Brooks C. New analytic approximation to the standard molecular volume definition and its application to generalized Born calculations. Journal of computational chemistry 24 (11) , 1348-56 (2003) PubMed ID:(12827676)

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