Derivation of Hydroquinone to Produce Selective, Oxidatively Activated Chemotherapeutic Agents

Bell-Horwath, Tiffany R.

12 September 2014

No description available.

Biochemistry

Reactive Oxygen Species

AML

ROS

Anti-Cancer Agent

Drug Design

Acute Myeloid Leukemia

Derivation of Hydroquinone to Produce Selective, Oxidatively Activated Chemotherapeutic Agents

Bell-Horwath, Tiffany R.

17 October 2014

No description available.

Biochemistry

Reactive Oxygen Species

AML

ROS

Anti-Cancer Agent

Drug Design

Acute Myeloid Leukemia

Structure-guided Synthesis and Evaluation of Non-nucleoside Reversible, Competitive Inhibitors of Human Ribonucleotide Reductase as Anti-proliferative Agents

Huff, Sarah

06 September 2017

No description available.

Organic Chemistry

Structure-based Computer-aided Drug Design and Analyses against Disease Target: Cytokine IL-6/IL-6R/GP130 Complex

Shi, Guqin

January 2017

No description available.

Pharmacy Sciences

drug design

structure-based

computer-aided

IL-6

GP130

Development of Selective Inhibitors against Enzymes Involved in the Aspartate Biosynthetic Pathway for Antifungal Drug Development

Dahal, Gopal Prasad

January 2018

No description available.

Biophysics

Biochemistry

Chemistry

Investigation and Characterisation of Protein-Ligand Interactions: SRA-Ribonucleic Acid Recognition and Anti-Microbial Drug Discovery

Davis, Caroline M.

10 September 2015

No description available.

Chemistry

MOLECULAR AND MACRO-MOLECULAR CYCLIZATION: STRUCTURE BASED DRUG DESIGN OPPORTUNITIES FOR TWO LYASE ENZYMES

Vijayaraghavan, Jagamya

05 June 2017

No description available.

Biochemistry

In silico approaches for studying transporter and receptor structure-activity relationships

Chang, Cheng

13 July 2005

No description available.

Biophysics, General

Transporter

Receptor

Computer-Aided Drug Design

3D-QSAR

Pharmacophore

Comparative modeling

Synthesis of Substituted Pyrrolidines / Syntes av substituerade pyrrolidiner

Sjölin, Olof

January 2016

The task of medicinal chemists in a drug discoveryproject is to synthesize/design analogues to the screening hits, simultaneouslyincreasing target potency and optimizing the pharmacological properties.  This requires a wide selection of moleculesto be synthesized, where both synthetic feasibility and price of startingmaterials are of great importance. In this work, a synthetic pathway from cheapand readily available starting materials to highly modifiable 2,4-disubstitutedpyrrolidines is demonstrated. Previously reported procedures to similarpyrrolidines use expensive catalysts, requires harsh conditions and requiresnon-commercially available starting materials. The suggested pathway herein has demonstrated great possibility forvariation in the 4-position, including fluoro, difluoro, nitrile and alcoholfunctional groups. There are several areas in which the synthesis can beimproved and expanded upon. Improvements can be made by optimizing thedescribed reaction conditions and further expansion of possible modificationsin both 2- and 4-position could be explored.

Pyrrolidines

Multistep synthesis

Fragment-based drug design

Drug discovery

Organic chemistry

Organic Chemistry

Organisk kemi

DAHP Oxime: A Transition State Mimic Inhibitor Of DAHP Synthase

Balachandran, Naresh

10 1900

<p>The rise of bacterial infections and increase of antibiotic resistant bacteria has become a major problem in the treatment of bacterial infections. The use and overuse of antibiotics, and the inherent ability of bacteria to adapt to their environment, have lead to the emergence of strains that are resistant to all antibiotics. Ideally, new targets for antibacterial drug therapy would be essential to the virulence of most or all bacteria. That is, antibiotics exploiting these targets would have broad spectrum activity. 3-Deoxy-D-arabinoheptulosonate-7- phosphate (DAHP) synthase could be such a target. This enzyme catalyzes the condensation of erythrose 4-phosphate (E4P) and phoshoenolpyruvate (PEP) to form DAHP. The DAHP synthase-catalyzed reaction is the first committed step in the shikimic acid biosynthetic pathway leading to the aromatic amino acids and other secondary metabolites in all bacteria and some parasites. Inhibition of this enzyme would lead to a depletion of aromatic amino acids within the cell, halting new protein synthesis and killing the cells. Our lab has developed a transition state analogue, DAHP oxime, which is a slow binding, potent inhibitor of DAHP synthase. Kinetic characterization of inhibitor binding revealed DAHP oxime to be a competitive inhibitor with an ultimate Ki* of 81 nM. Crystal structures of DAHP oxime bound to DAHP synthase revealed that the inhibitor bound to two of the four subunits. The two unbound subunits remain catalytically competent, suggesting that DAHP synthase may utilize a half-of-sites mechanism during catalysis. We further investigated changes in DAHP synthase dynamics in response to PEP and DAHP oxime binding via solvent hydrogen/deuterium exchange mass spectrometry. DAHP synthase in the unbound form was loosely structured around the surface exposed regions, whereas the X-ray crystal structures appeared to be more fully structured. Binding of both PEP and DAHP oxime introduced different degrees of dynamic stabilization.</p> / Doctor of Philosophy (PhD)

enzyme kinetics

mechanism

drug design

x-ray crystallography

enzyme dynamics

Biochemistry

Biochemistry