Synchrotron X-ray Scanning Tunneling Microscopy Investigation of Interfacial Properties of Nanoscale Materials

Chang, Hao

January 2018

No description available.

Physics

Nanoscience

Materials Science

Synchrotron X-ray

Scanning tunneling microscopy

Interfacial properties

X-ray magnetic circular dichroism

X-ray standing wave

Excited State Dynamics of Bioinspired Materials: Triplet Formation in Silver(I) Mediated Cytosine Base Pairs and Chemical Disorder in DOPA Melanin

Kohl, Forrest Robert

January 2021

No description available.

Physical Chemistry

Biophysics

DNA

Melanin

Silver

i-motif

Triplets

Excimer

Photoprotection

self-assembly

radicals

chemical disorder

transient absorption

infrared spectroscopy

Structural Characterization of β-Lactoglobulin in Sodium Dodecyl Sulfate and Lauryldimethylamine Oxide

Thompson, Kayla Dawn

10 November 2020

No description available.

Chemical Engineering

Biochemistry

Analytical Chemistry

surfactant

surfactant-protein mixtures

sodium dodecyl sulfate

lauryldimethylamine oxide

circular dichroism

isothermal titration calorimetry

mixed micelles

THE DISCOVERY AND CHARACTERIZATION OF NOVEL POTENT 5-SUBSTITUTED 3, 3’, 4’, 7-TETRAMETHOXYFLAVONOID DNA TRIPLEX SPECIFIC BINDING LIGANDS

Rangel, Vanessa Marie

01 January 2023

Chemotherapy works by killing fast dividing cells. Unfortunately, these drugs are not specific to cancer tissue and can damage normal cells. Chemotherapy is like taking poison and hoping it kills the cancer cells before it kills you. As an alternative, many researchers have investigated the use of antigene therapy to selectively target cancer causing genes to avoid off target effects. Although promising, the theory is limited by the stability of the triplex structure. Here, we report the discovery of potent triplex binding ligands derived from the natural product quercetin. Chemical derivatives of 5-substituted 3, 3’, 4’, 7-tetramethoxyquercetin derivatives were characterized using several biophysical methods: thermal denaturation monitored by UV, circular dichroism, viscometry, differential scanning calorimetry, and isothermal titration calorimetry. The data revealed that these derivatives specifically stabilize triplex DNA and do not influence the stability of duplex DNA, triple RNA, or duplex RNA. Structurally, the amino containing side chains at the 5-position and the linker length are critical for the observed binding affinity and specificity. Two derivatives, 5 and 7, are comparable (if not better) to the triplex groove binder Neomycin. Our data confirm the binding mode as enthalpically driven intercalation. Piperidine or pyrrolidine 5-substituted 3, 3’, 4’, 7-tetramethoxyquercetin derivatives with a three-carbon linker are the lead compounds for development as a potential antigene enhancer.

DNA triplex

DNA binding ligands

Flavonoids

Microcalorimetry

Circular dichroism

Cancer

Antigene Therapy

Medicinal-Pharmaceutical Chemistry

Organic Chemistry

Exploration and Engineering of Physical Properties in High-Quality Sr₂CrReO₆ Epitaxial Films

Lucy, Jeremy M.

13 October 2015

No description available.

Condensed Matter Physics

double perovskite

Sr2CrReO6

SCRO

spintronics

perovskite

x-ray magnetic circular dichroism

magnetocrystalline anisotropy

magnetic anisotropy

semiconductor

ferrimagnet

synchrotron

x-ray

neutron

spallation

reflectometry

Circular Dichroism of the Laser‐Induced Blue State of Bacteriorhodopsin, Spectral Analysis and New Insights into the Purple→Blue Color Change

Rudraraju, Anusha

27 August 2015

No description available.

Chemistry

Circular Dichroism

Bacteriorhodopsin

Photocooperativity

Exciton Coupling

Protein Heterogeneity

Cation Binding in Bacteriorhodopsin

ICP of Bacteriorhodopsin

Elucidating the molecular functions of ImuA and ImuB in bacterial translesion DNA synthesis

Lichimo, Kristi

January 2024

Bacterial DNA replication can stall at DNA lesions, leading to cell death if the damage fails to be repaired. To circumvent this, bacteria possess a mechanism called translesion DNA synthesis (TLS) to allow DNA damage bypass. The ImuABC TLS mutasome comprises the RecA domain-containing protein ImuA, the inactive polymerase ImuB, and the error-prone polymerase ImuC. ImuA and ImuB are necessary for the mutational function of ImuC that can lead to antimicrobial resistance (AMR) as seen in high-priority pathogens Pseudomonas aeruginosa and Mycobacterium tuberculosis. Understanding how ImuA and ImuB contribute to this function can lead to new targets for antimicrobial development. This research aims to discover the molecular functions of ImuA and ImuB homologs from Myxococcus xanthus through structural modelling and biochemical analyses. ImuA was discovered to be an ATPase whose activity is enhanced by DNA. Based on predicted structural models of the ATPase active site, I identified the critical residues needed for ATP hydrolysis, and found that the ImuA C-terminus regulates ATPase activity. Further, ImuA and ImuBNΔ34 (a soluble truncation of ImuB) display a preference for longer single-stranded DNA and overhang DNA substrates, and their affinity for DNA was quantified in vitro. To better understand how ImuA and ImuB assemble in the TLS mutasome, bacterial two-hybrid assays determined that ImuA and ImuB can self-interact and bind one another. Mass photometry revealed that ImuA is a monomer and ImuBNΔ34 is a trimer in vitro. ImuA and ImuBNΔ34 binding affinity was quantified in vitro at 1.69 μM ± 0.21 by microscale thermophoresis, and removal of the ImuA C-terminus weakens this interaction. Lastly, ImuA and ImuBNΔ34 secondary structures were quantified using circular dichroism spectroscopy, and ImuA was modified to enable crystallization for future structural studies. Together, this research provides a better understanding of ImuABC-mediated TLS, potentially leading to novel antibiotics to reduce the clinical burden of AMR. / Thesis / Master of Science (MSc) / The antimicrobial resistance (AMR) crisis is fueled by the emergence of multi-drug resistant microbes, posing a major threat to global health and disease treatment. Bacteria can develop resistance to antibiotics through mutations in the genome. When the genome becomes damaged, bacteria can acquire these mutations by an error-prone replication mechanism called translesion DNA synthesis (TLS). In some bacteria, TLS involves a specialized enzyme complex, consisting of proteins ImuA, ImuB and ImuC, allowing replication past bulky DNA damage and lesions. The goal of this thesis is to investigate how the ImuA and ImuB proteins contribute to the functioning of this mistake-making machinery. I used biochemical and biophysical methods to identify ImuA and ImuB interactions with each other and themselves. I discovered that ImuA is an enzyme that uses energy to enhance its binding to DNA, and determined the specific amino acids involved in this function.

TLS

Translesion

DNA repair

DNA damage

Myxococcus xanthus

protein

ATPase

oligomeric state

binding interface

structure

DNA binding

mass photometry

bacterial two hybrid

microscale thermophoresis

circular dichroism

solubility

Synthesis, characterisation and sensor-functionalisation of transmembrane β-peptides

Pahlke, Denis

13 December 2018

No description available.

540

Transmembrane β-Peptides

Solid Phase Peptide Synthesis (SPPS)

Circular Dichroism (CD) Spectroscopy

Fluorescence Spectroscopy

β-Amino Acids

Ca2+ sensors

pH sensors

Automatic Solid Phase Peptide Synthesis

Chemie  (PPN62138352X)

Self-Organization of β-Peptide Nucleic Acid Helices for Membrane Scaffolding

Höger, Geralin

14 February 2019

No description available.

540

solid phase peptide synthesis (SPPS)

membrane scaffolding

membrane-associated protein networks

β-peptide nucleic acids (β-PNA)

circular dichroism (CD) spectroscopy

fluorescence spectroscopy

Chemie  (PPN62138352X)

Validação dos sistemas computadorizados empregados na determinação dos enantiômeros do nadolol e dos homólogos da ivermectina e da abamectina / Validation of the computer systems used in the determination of nadolol enantiomers and homologous of ivermectin and abamectin.

Alexandre, Grazielle Prado

24 November 2016

O nadolol é um agente bloqueador de receptores β-adrenérgicos empregado principalmente, na \"angina pectoris\", hipertensão, certas arritmias cardíacas e no tratamento do glaucoma (SING, 2006). A ivermectina e a abamectina são fármacos que apresentam ação antiparasitária (SHOOP, 1995). Na presente pesquisa, a cromatografia em fase líquida de alta eficiência foi uma das técnicas estudadas para a quantificação dos enantiômeros do nadolol e dos homólogos presentes na abamectina e ivermectina. A versatilidade desta técnica reside no grande número de fases estacionárias existentes, as quais possibilitam análises, separações e determinações quantitativas de uma ampla gama de compostos com alta eficiência (Aquino Neto e Nunes, 2003). Para identificação dos enantiômeros do nadolol foi utilizado o dicroísmo circular que permite a determinação da configuração absoluta de enantiômeros (LIMA, 1997). Para os enantiômeros do nadolol e dos homólogos presentes na abamectina e na ivermectina também foram realizados testes para desenvolvimento de uma metodologia de quantificação por meio de uma técnica relativamente recente chamada de eletroforese capilar (EC), a qual tem alcançado desde sua introdução um rápido desenvolvimento e ampla aplicação na análise de fármacos em medicamentos (SANTORO, 2000). Para a comprovação da qualidade e segurança dos sistemas computadorizados dos equipamentos de cromatografia em fase líquida de alta eficiência (CLAE) e de eletroforese capilar (EC) foram efetuadas, neste trabalho, as respectivas validações. Após esta validação, pode-se confirmar o correto funcionamento de um software, e suas interações com o hardware, onde devem ser levados em consideração, dentre outros, os aspectos relacionados à infra-estrutura, segurança e manutenção de dados (AGÊNCIA NACIONAL DE VIGILÂNIA SANITÁRIA, 2010). As metodologias analíticas desenvolvidas a para quantificação do nadolol, abamectina e ivermectina por cromatografia em fase líquida de alta eficiência foram validadas. A validação analítica deve garantir, por meio de estudos experimentais, que o método atenda às exigências das aplicações analíticas, assegurando a confiabilidade dos resultados. Para tanto, o método deve apresentar especificidade, linearidade, intervalo, precisão, sensibilidade, limite de quantificação e detecção, exatidão, adequados à análise (AGÊNCIA NACIONAL DE VIGILÂNIA SANITÁRIA, 2003). Portanto, o objetivo proposto nesta pesquisa é primeiramente a validação dos sistemas computadorizados dos equipamentos de cromatografia em fase líquida de alta eficiência (CLAE) e de eletroforese capilar (EC). Para isto, serão desenvolvidos e validados os métodos analíticos de separação, identificação e quantificação dos enantiômeros do nadolol e dos homólogos presentes na abamectina e na ivermectina, em medicamentos, empregando as técnicas analíticas selecionadas. / Nadolol is a blocking agent with activity in the β -adrenergic receptors. It is mainly used in angina, hypertension, certain heart arrhythmias and in the treatment of glaucoma (SING, 2006). Ivermectin and abamectin are drugs with antiparasitic activity (SHOOP, 1995). In the present research, high performance liquid chromatography is one of the techniques used in the quantification of the enantiomers of nadolol and homologues present in abamectin and ivermectin. The versatility of this technique and the large number of existing stationary phases, enables the separation and quantitative determination of a wide range of compounds with high efficiency (Aquino Neto e Nunes, 2003). For identification of the nadolol enantiomers, circular dichroism was used which allows the determination of the absolute configuration of the enantiomers (LIMA, 1997). Nadolol enantiomers and the homologues present in abamectin and ivermectin will be also quantified by capillary zone electrophoresis (CE), a separation technique relatively recent, which has achieved, since its introduction, a wide application in the analysis of drugs in pharmaceutical preparations (SANTORO, 2000). In order to assure the quality of the analytical results, the computer systems of the liquid chromatograph and capillary electrophoresis equipments, must be validated prior to the analytical methods validation. Computer systems validation is used to verify and confirm the proper operation of softwares, and their interactions with the hardwares, besides the infrastructure, safety and storage of data (AGÊNCIA NACIONAL DE VIGILÂNIA SANITÁRIA, 2010). The analytical methodologies developed for quantification of nadolol, abamectin, ivermectin by using high efficiency liquid chromatography and capillary electrophoresis were validated. The analytical methods validation should ensure, through experimental studies, that the method meets the requirements for analytical applications, ensuring the reliability of the results. Parameters like, specificity, linearity, range, accuracy, sensitivity, limits of detection and quantification and accuracy, must be determined (AGÊNCIA NACIONAL DE VIGILÂNIA SANITÁRIA, 2003). The objective of this study is to validate the computer systems of the high performance liquid chromatograph and capillary electrophoresis equipments and then to develop and validate analytical methods for separation, identification and quantification of nadolol enantiomers and the homologues of abamectin and ivermectin.

Abamectin

Abamectina

Analytical methods

Capillary electrophoresis

Circular dichroism

Dicroísmo circular

Eletroforese capilar

High performance liquid chromatography

Ivermectin

Ivermectina

Métodos analíticos

Nadolol

Nadolol

Pharmaceutical preparations

Preparações farmacêuticas

Validação

Validation