|Jamie Abbott, Ph.D.
|The biochemical characterization of human HISTIDYL-tRNA synthetase and disease associated variants
|Sarah Abdalla, M.S.
|Identification of the regions in factor V mediating its endocytosis by megakaryocytes to form the unique platelet-derived cofactor molecule
|Ty Adams, Ph.D.
|The X-ray crystal structure of activated protein C-inactivated coagulation factor V
|Jolanta Teresa Krudysz-Amblo, Ph.D.
|Postranslational modifications and activities of natural human tissue factor
|Francis Ayombil, Ph.D.
|Defining platelet-derived components regulating the Prothrombinase Enzyme Complex
|Amy Branagan, Ph.D.
|Importance of DNA Binding of Gp59 Helicase Loader Protein in Bacteriophage T4
|Maria Cristina Bravo, Ph.D.
|Understanding the complexity of the protein C pathway
|Shaina Byrne, Ph.D.
|Invesitgation of the Molecular Basis of Receptor Mediated Iron Release from Transferrin
|Karen Champagne, Ph.D.
Allosteric Control of the Hetero-Octameric ATP-phosphoribosyl Transferase from L. Lactis Involves a Histidyl-tRNA Synthetase Paralog
|Jianhong Chen, Ph.D.
|Structure and function of eukaryotic RAD51 recombinase and its variations in cancer
|Justin Decarreau, Ph.D.
|Loops and switches: how ADP release is coordinated in smooth muscle myosin
|Brian Eckenroth, Ph.D.
|The mechanism of high Mr thioredoxin reductase investigated by semisynthesis and crystallography
|Ammon Fager, M.D./Ph.D.
|The Characterization of a Procoagulant Human Platelet Subpopulation
|Joshua Farb, Ph.D.
|Allosteric Regulatory Dynamics of the T4 Presynaptic Filament
|Mindy Farris, Ph.D.
|Regulation of gene expression by the retinoic acid receptor alpha requires synergistic binding of transcriptional co-factors and response to ligand
|Jaqueline Gertz, PH.D.
|Cellular and molecular events regulating factor V endocytosis by megakaryocytes
|Ethan Guth, Ph.D.
|tRNA identity mediated control of the catalytic mechanism in E. coli Histidyl-tRNA synthetase
|Peter Halbrooks, Ph.D.
|Structural and functional investigation of human serum transferrin
|Laura Haynes, Ph.D.
|The role of flow in regulating the prothrombinase complex
|Nicholas James, Ph.D.
|Probing the Dynamic Conformational Changes of Human Serum transferrin Using Intrinsic Tryptophan Fluorescence
|Anna Knapp, Ph.D.
|Structural & Functional Characterization of Mouse Purβ: A single-stranded DNA_binding repressor of smooth muscle α-actin gene expression
|Brian Lacey, M.S.
|Investigation into the role of the C-Terminal vicinal cysteine residues in high MW theiredoxin reductases
|Jie Liu, Ph.D.
|A Dynamic View of T4 Presynaptic Filament Assembly
|Adam Lothrop, Ph.D.
|The mechano-enzymatic function of selenocysteine in thioredoxin reductases
|Adam Mirando, Ph.D.
|Characterization of a non-canonical function for Threonyl-tRNA synthetase in angiogenisis.
|Anand Minajigi, Ph.D.
|Kinetic Mechanism and Fidelity of Aminoacylation by E. Coli Threonyl-tRNA synthetase
|Jon Ramsey, Ph.D.
|Functional Characterization of the Sequence-Specific Single-Stranded DNA-Binding Properties of Mouse PurB
|Gregg Snider, Ph.D.
|The biological function of selenocysteine in enzymes: A perspective from thioredoxin reductase
|Ashley Steere, Ph.D.
| Anne Mason
|Intermolecular interactions between human serum transferrin and the transferrin receptor that mediate pH-induced iron release
|Matthew F. Whelihan, Ph.D.
|The role of the red cell membrane in thrombin generation
|Hang Xu, Ph.D.
|Biochemical and structural characterization of bacteiorphage T4 recombination/replication mediator proteins