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Contribution Of Specific Amino Acids To Calcium-Dependent Dimerization Of Epithelial Cadherin, Xiaoyun Z. Howard
Contribution Of Specific Amino Acids To Calcium-Dependent Dimerization Of Epithelial Cadherin, Xiaoyun Z. Howard
Electronic Theses and Dissertations
Cadherins are calcium-dependent molecules that play essential roles in embryonic development, tissue morphogenesis, and cancer progression. Epithelial (E-) cadherin is present at adherens junctions, structures that are important for maintaining tissue integrity. At adherens junctions, cell–cell adhesion complexes are formed as clusters of cadherin dimers through strand-swapped dimerization between two interacting protomers from adherent cells. Recently, a number of studies of dimer formation of E-cadherin supported a two-step adhesive binding model. First, an inter-molecular initial encounter complex (X-dimer) forms at the linker region of the first two extracellular domains, EC1 and EC2. Next, strand-swap dimerization occurs via exchange or ''swap'' …
Nickel Reduces Calcium Dependent Dimerization In Neural Cadherin, Matthew Paul Dukes
Nickel Reduces Calcium Dependent Dimerization In Neural Cadherin, Matthew Paul Dukes
Electronic Theses and Dissertations
Cadherins are the primary transmembrane component in adherens junctions, structures that link the actin cytoskeleton in adjacent cells within solid tissues including neurological synapses, epithelium and endothelium. Cell-cell adhesion by cadherins requires the binding of calcium ions to specific sites in the extracellular region. Given the complexity of the cell adhesion microenvironment, we are investigating whether other divalent cations might affect calciumdependent dimerization of neural-(N-) cadherin. The first chapter focuses on studies to characterize the impact of binding physiological magnesium (II) or neurotoxic nickel (II) on calcium-dependent N-cadherin function. Physiological levels of magnesium have only a small effect on the …