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Full-Text Articles in Chemistry
Synthesis Of A Lysozyme Substrate: Exploring The Use Of The (2,6-Dichloro-4-Methoxyphenyl)(2,4-Dichlorophenyl)) Methyl (Mdpm) Protecting Group In Glycoside Coupling, Vladimir Yelkhimov
Synthesis Of A Lysozyme Substrate: Exploring The Use Of The (2,6-Dichloro-4-Methoxyphenyl)(2,4-Dichlorophenyl)) Methyl (Mdpm) Protecting Group In Glycoside Coupling, Vladimir Yelkhimov
Summer Research
Hen egg white lysozyme and T4 lysozyme are two well-studied enzymes that have played an important role in helping us understand the structure and function of proteins. Both of these lysozymes function by breaking down cell walls. Although numerous studies on lysozyme catalysis have been conducted, detailed information on their substrate specificity has been lacking due to the heterogeneous nature of cell walls. The information we do have suggests that the T4 lysozyme cleaves only those oligosaccharides with an attached peptide chain while hen egg white lysozyme is less selective and will cleave oligosaccharides without peptide chains. I plan to …
Synthesis Of Pyridone Ligands And Iron Precursors For The Development Of Iron-Based Hydrogenation Catalysts, Becky Hanscam
Synthesis Of Pyridone Ligands And Iron Precursors For The Development Of Iron-Based Hydrogenation Catalysts, Becky Hanscam
Summer Research
Green chemistry is concerned with the development of safer, more efficient, and more environmentally acceptable chemical products and processes. An important aspect of green chemistry is the reduction of chemical waste. Catalysis is essential to achieving such a transformation. Hydrogenation is an example of an industrially important catalytic process. Hydrogenation reactions are common in the pharmaceutical industry as they provide a cost-effective and reliable approach to a wide range of compounds. However common hydrogenation catalysts are composed of expensive and toxic metals. The goal this research is to develop hydrogenation catalysts, based on iron, that will be less expensive and …
Developing Catalysts For Improving Direct Amide Formation, Courtney Carley
Developing Catalysts For Improving Direct Amide Formation, Courtney Carley
Summer Research
The widespread occurrence of the amide functional group in the pharmaceutical industry and its prevalence in biological structures such as proteins illustrate the huge impact that amides have on our daily lives. Current methods of forming amides are expensive and harmful to the environment, so there is a need for the development of greener processes for the formation of amides. The first objective of this research is to synthesize catalysts for the direct formation of amides from carboxylic acids and amines. Previously developed catalysts for this transformation are not active enough, and are thus rarely used. The new catalysts to …