The mechanism of lactogen receptor binding by human prolactin

Sivaprasad, Umasundari

07 August 2003

No description available.

Chemistry, Biochemistry

prolactin

prolactin receptor

binding kinetics

hydrophobic residues

conformation change

A comprehensive investigation into the molecular mechanism responsible for selective androgen receptor (SARM) tissue-selectivity

Goldberger, Natalie Elizabeth

18 March 2008

No description available.

SARM

Selective androgen receptor modulator

Androgen receptor

Proteomics

Mass spectroscopy

Native gel

Conformation

NHS-biotin

NCoR

The Role of CASQ2^D307H Mutant protein in Catecholamine Induced Polymorphic Ventricular Tachycardia (CPVT)

Kalyanasundaram, Anuradha

January 2009

No description available.

Biology

Biomedical Research

Cellular Biology

Calcium

arrhythmia

protein conformation

mutation

CPVT

Molecular Basis of Diverse PagP::Lipid Interactions in Gram-Negative Bacteria / Diverse PagP::Lipid Interactions in Gram-Negative Bacteria

Miller, Sanchia

January 2018

PagP is an integral outer membrane enzyme that transfers a palmitoyl group from a phospholipid to lipid A and the polar headgroup of phosphatidylglycerol (PG). Palmitoyl-lipid A and palmitoyl-PG (PPG) have been implicated in resistance to host immune defenses. PagP proteins are diverse, the E. coli PagP belongs to the major clade of PagP homologs and palmitoylates lipid A regiospecifically at the 2-position, whereas P. aeruginosa PagP belongs to the minor clade of PagP homologs and instead palmitoylates lipid A regiospecifically at the 3’-position. Our objective was to understand how PagP has been adapted in nature to interact with multiple lipid substrates and products. We investigated the structure-function relationships of key major clade homologs, to show that Bordetella PagP palmitoylates lipid A at the 3’-position and employs surface residue T29 in its palmitoyltransferase reaction. Legionella PagP palmitoylates lipid A at the 2-position and was confirmed to select a palmitate chain from a pool including iso-methyl branched phospholipids characteristic of this species. PagP is usually encoded as a single copy on the chromosome in most bacteria, but two copies of pagP are found in endophytic bacteria. These duplicated PagP homologs from the major clade branch into two subclades, namely chromosomal and plasmid-based PagP homologs. The chromosomal PagP homologs exhibit interacting periplasmic D61 and H67 residues, which are naturally mutated in plasmid-based PagP homologs, and are associated with a conformational change in the -barrel that determines its ability to palmitoylate PG. Chromosomal PagPs can convert PPG to bis(monoacylglycero)phosphate (BMP) and lysophosphatidylglycerol (LPG) through a periplasmic active site controlled by the invariant Y87 residue of E. coli PagP. Plasmid-based PagP homologs appear to have been adapted instead as monofunctional lipid A palmitoyltransferases. These results points to a common ancestor for PagP proteins. Knowledge gained from these studies can be applied to protein engineering. / Thesis / Doctor of Philosophy (PhD)

PagP

Outer membrane protein

lipid A palmitoylation

protein conformation change

palmitoyltransferase diversity

Design, Syntheses and Bioactivities of Androgen Receptor Targeted Taxane Analogs, Simplified Fluorescently Labeled Discodermolide Analogs, and Conformationally Constrained Discodermolide Analogs

Qi, Jun

22 April 2010

Prostate cancer is the most common non-skin cancer for men in America. The androgen receptor exerts transcriptional activity and plays an important role for the proliferation of prostate cancer cells. Androgen receptor ligands bind the androgen receptor and inhibit its transcriptional activity effectively. However, prostate cancer can progress to hormone refractory prostate cancer (HRPC) to avoid this effect. Chemotherapies are currently the primary treatments for HRPC. Unfortunately, none of the available chemotherapies are curative. Among them, paclitaxel and docetaxel are two of the most effective drugs for HRPC. More importantly, docetaxel is the only form of chemotherapy known to prolong survival in the HRPC patients. We hypothesized that the conjugation of paclitaxel or docetaxel with an androgen receptor ligand will overcome the resistance mechanism of HRPC. Eleven conjugates were designed, synthesized and biologically evaluated. Some of them were active against androgen-independent prostate cancer, but they were all less active than paclitaxel and docetaxel. Discodermolide is a microtubule interactive agent, and has a similar mechanism of action to paclitaxel. Interestingly, discodermolide is active against paclitaxel-resistant cancer cells and can synergize with paclitaxel, which make it an attractive anticancer drug candidate. Understanding the bioactive conformation of discodermolide is important for drug development, but this task is difficult due to the linear and flexible structure of discodermolide. Indirect evidence for the orientation of discodermolide in the tubulin binding pocket can be obtained from fluorescence spectroscopy of the discodermolide tubulin complex. For this purpose, we designed and synthesized a simplified fluorescently labeled discodermolide analog, and it was active in the tubulin assembly bioassay. In addition, a conformationally constrained discodermolide was designed to mimic the bioactive conformation according to computational modeling. The synthetic effort was made, but failed during one of the final steps. / Ph. D.

docetaxel

paclitaxel

taxol

tubulin binding conformation

fluorescence

discodermolide

microtubules

tubulin

androgen receptor

cyanonilutamide

Design, Syntheses and Biological Activities of Paclitaxel Analogs

Zhao, Jielu

03 May 2011

The conformation of paclitaxel in the bound state on the protein has been proposed to be the T-taxol conformation, and paclitaxel analogs constrained to the T-taxol conformation proved to be significantly more active than paclitaxel in both cytotoxicity and tubulin polymerization assays, thus validating the T-taxol conformation as the tubulin-binding conformation. In this work, eight compounds containing an aza-tricyclic moiety as a mimic of the baccatin core of paclitaxel have been designed and synthesized as water-soluble simplified paclitaxel analogs, among which 3.50-3.52 and 3.55 were conformationally constrained analogs designed to bind to the paclitaxel binding site of tubulin, based on their similarity to the T-taxol conformation. The open-chain analogs 3.41-3.43 and 3.57 and the bridged analogs 3.50-3.52 and 3.55 were evaluated for their antiproliferative activities against the A2780 cell lines. Analogs 3.50-3.52 and 3.55 which were designed to adopt the T-taxol conformation showed similar antiproliferative activities compared to their open-chain counterparts. They were all much less active than paclitaxel. In the second project, a series of paclitaxel analogs with various thio-containing linkers at C-2′ and C-7 positions were designed and synthesized in our lab. These analogs were attached to the surfaces of gold nanoparticles by CytImmune Sciences for the development of mutifunctional tumor-targeting agents. The native analogs and the gold bound analogs were evaluated for their antiproliferative activities against the A2780 cell line. All the compounds tested showed comparable or better activities than paclitaxel. Stability studies were performed for selected analogs in hydrolysis buffer, which showed that the analogs released paclitaxel in buffer over time. In the third project, the synthesis of a conformationally constrained paclitaxel analog which was designed to mimic the REDOR-taxol conformation was attempted. Two synthetic routes were tried and significant progress was made toward the synthesis of the conformationally constrained analog. However, both of the current synthetic routes failed to produce the key intermediate that would serve as the precursor for a ring-closing metathesis reaction to furnish the macrocyclic ring. / Ph. D.

T-taxol

tubulin

bioactive conformation

microtubules

thiolated paclitaxel

gold nanoparticles

conformationally constrained paclitaxel

simplified paclitaxel

Microfluidic technology for cellular analysis and molecular biotechnology

Sun, Chen

04 March 2016

Microfluidics, the manipulation of fluids at nanoliter scale, has emerged to offer an ideal platform for biological analysis of a low number of cells. The technological advances in microfluidics have allowed both forming of valves, mixers and pumps and integrating of optic and electronic components into microfluidic devices to construct complete and functional systems. In this dissertation, I present novel microfluidic techniques and their applications in cellular probes delivery, cell separation and epigenetic study. In the first part of the dissertation, electroporation is implemented on microfluidic platform to generate uniform delivery of "exposed" nanoparticle or protein into cells. In contrast to endocytosis, electroporation is a physical method to breach cell membrane and does not involve vesicle encapsulation of delivered probes, which means these probes have exposed surface in the cytosol. Such trait enables the use of delivered nanoparticle and protein for intracellular targeting of native biomolecules. Laser-induced fluorescent microscopy was used for single particle illuminating to track single molecules in cells. Microfluidic device provide integrated platform for conducting electroporation, cell culture and imaging. In the second part, microfluidic immunomagnetic cell separation is introduced. I showed two new approaches to enhance immunomagnetic cell separation based on (1) uniquely microfabricated paramagnetic patterns inside separation channels; and (2) using combination of nonmagnetic beads and magnetic beads for selection of tumor initiating cells based on two markers of opposite preference in one step. Enhancement in cell isolation (high capture efficiency or high selection purity) is experimentally observed and the former is explained by computational model. In the final part of the dissertation, microfluidic device incorporating valves and mixers for sensitive study of chromosome conformation is presented. This device has small reaction chamber minimizing sample requirement, and allows multiple steps of biological analysis in a single chip avoiding sample loss during sample transfer. Several orders of magnitude improved detection sensitivity is achieved with our microfluidics based method. I envision all novel techniques discussed in this dissertation have great potential in application of disease prognosis, diagnosis and treatment. / Ph. D.

Microfluidics

cell electroporation

intracellular tracking

immunomagnetic cell separation

chromosome conformation capture

A new modification of oxonium trimetaphosphimate monohydrate

Günther, Daniel, Kalischer, Christoph, Oeckler, Oliver

02 May 2024

Metaphosphimates are possible precursors for oxonitridophosphates. A new polymorph of trimetaphosphimic acid, in fact an oxonium trimetaphosphimate monohydrate, crystallizes in the monoclinic space group P21/c. It exhibits coin-roll-like stacks of H2(PO2NH)3 􀀀 anions in a rectangular pattern, whereas these form a hexagonal arrangement in the known polymorph. Ring conformation analysis reveals a state between boat and twist conformations, closer to the boat conformation. Temperaturedependent powder diffraction shows decomposition upon heating to ca. 100 °C.

info:eu-repo/classification/ddc/540

ddc:540

Rationalization of Racemate Resolution: Predicting Spontaneous Resolution through Crystal Structure Prediction.

Kendrick, John, Gourlay, Matthew D., Leusen, Frank J.J.

2009 July 1914

No / Crystal structure prediction simulations are reported on 5-hydroxymethyl-2-oxazolidinone and 4-hydroxymethyl-2-oxazolidinone to establish the feasibility of predicting the spontaneous resolution of racemates of small organic molecules. It is assumed that spontaneous resolution occurs when the enantiomorph is more stable than the racemic solid. The starting point is a gas phase conformational search to locate all low-energy conformations. These conformations are used to predict the possible crystal structures of 5- and 4-hydroxymethyl-2-oxazolidinone. In both cases, the racemic crystal structure is predicted to have the lowest energy. The energy differences between the lowest-energy racemic solids and the lowest-energy enantiomorphs are 0.2 kcal mol-1 for 5-hydroxymethyl-2-oxazolidinone and 0.9 kcal mol-1 for 4-hydroxymethyl-2-oxazolidinone. In the case of 4-hydroxymethyl-2-oxazolidinone, where the racemic crystal is known to be more stable and the experimental crystal structures of both the racemate and the enantiomorph are available, the simulation results match the observed data. For 5-hydroxymethyl-2-oxazolidinone, where only enantiopure crystals are observed experimentally, the known experimental structure is found 1.6 kcal mol-1 above the lowest-energy predicted structure. This work shows that it is possible to predict whether the racemate of a small chiral molecule can be resolved spontaneously, although further advances in the accuracy of lattice energy calculations are required.

Lattice energy

Conformation

Gas phase

Organic molecule

Digital simulation

Crystal structure

Structure resolution

Racemates

New Dynamic Rotamer Libraries: Data-Driven Analysis of Side-Chain Conformational Propensities

Towse, Clare-Louise, Rysavy, S.J., Vulovic, I.M., Daggett, V.

05 January 2016

No / Most rotamer libraries are generated from subsets of the PDB and do not fully represent the conformational scope of protein side chains. Previous attempts to rectify this sparse coverage of conformational space have involved application of weighting and smoothing functions. We resolve these limitations by using physics-based molecular dynamics simulations to determine more accurate frequencies of rotameric states. This work forms part of our Dynameomics initiative and uses a set of 807 proteins selected to represent 97% of known autonomous protein folds, thereby eliminating the bias toward common topologies found within the PDB. Our Dynameomics derived rotamer libraries encompass 4.8 × 10(9) rotamers, sampled from at least 51,000 occurrences of each of 93,642 residues. Here, we provide a backbone-dependent rotamer library, based on secondary structure ϕ/ψ regions, and an update to our 2011 backbone-independent library that addresses the doubling of our dataset since its original publication. / NIH

Rotamer library

Molecular dynamics simulation

Protein conformation and dynamics

Protein and peptide design