Investigations into Multivalent Ligand Binding Thermodynamics

Watts, Brian Edward

January 2015

<p>Virtually all biologically relevant functions and processes are mediated by non-covalent, molecular recognition events, demonstrating astonishingly diverse affinities and specificities. Despite extensive research, the origin of affinity and specificity in aqueous solution - specifically the relationship between ligand binding thermodynamics and structure - remains remarkably obscure and is further complicated in the context of multivalent interactions. Multivalency describes the combinatorial interaction of multiple discrete epitopes across multiple binding surfaces where the association is considered as the sum of contributions from each epitope and the consequences of multivalent ligand assembly. Gaining the insight necessary to predictably influence biological processes with novel therapeutics begins with an understanding of the molecular basis of solution-phase interactions, and the thermodynamic parameters that follow from those interactions. Here we continue our efforts to understand the basis of aqueous affinity and the nature of multivalent additivity.</p><p>Multivalent additivity is the foundation of fragment-based drug discovery, where small, low affinity ligands are covalently assembled into a single high affinity inhibitor. Such systems are ideally suited for investigating the thermodynamic consequences of multivalent ligand assembly. In the first part of this work, we report the design and synthesis of a fragment-based ligand series for the Grb2-SH2 protein and thermodynamic evaluation of the low affinity ligand fragments compared to the intact, high affinity inhibitor by single and double displacement isothermal titration calorimetry (ITC). Interestingly, our investigations reveal positively cooperative multivalent additivity - a binding free energy of the full ligand greater than the sum of its constituent fragments - that is largely enthalpic in origin. These results contradict the most common theory of multivalent affinity enhancement arising from a "savings" in translational and rotational entropy. The Grb2-SH2 system reported here is the third distinct molecular system in which we have observed enthalpically driven multivalent enhancement of affinity.</p><p>Previous research by our group into similar multivalent affinity enhancements in protein-carbohydrate systems - the so-called "cluster glycoside effect" - revealed that evaluation of multivalent interactions in the solution-phase is not straightforward due to the accessibility of two disparate binding motifs: intramolecular, chelate-type binding and intermolecular, aggregative binding. Although a number of powerful techniques for evaluation of solution-phase multivalent interactions have been reported, these bulk techniques are often unable to differentiate between binding modes, obscuring thermodynamic interpretation. In the second part of this work, we report a competitive equilibrium approach to Molecular Recognition Force Microscopy (MRFM) for evaluation of ligand binding at the single-molecule level with potential to preclude aggregative associations. We have optimized surface functionalization strategies and MRFM experimental protocols to evaluate the binding constant of surface- and tip-immobilized single stranded DNA epitopes. Surprisingly, the monovalent affinity of an immobilized species is in remarkable agreement with the solution-phase affinity, suggesting the competitive equilibrium MRFM approach presents a unique opportunity to investigate the nature of multivalent additivity at the single molecule level.</p> / Dissertation

Chemistry

Atomic Force Microscopy

Isothermal Titration Calorimetry

Molecular Recognition

Multivalency

Thermodynamics

Loop mediated isothermal amplification to detect respiratory syncytial virus in respiratory specimens

Hart, Dirk

12 February 2015

Thesis (MScMedSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: Background: Respiratory Syncytial Virus (RSV) is the leading cause of severe lower respiratory tract infection in infants and children worldwide. Early diagnosis of RSV infection is associated with shorter periods of hospitalisation and decreased mortality. Current point of care (PoC) tests for RSV is less sensitive than molecular methods. Reverse transcription loop-mediated isothermal amplification (RT-LAMP), is a novel method of nucleic acid detection which allows for rapid, robust amplification, and visual detection of infectious agents. Aim: The objective of this study was to develop a novel, rapid, and sensitive multiplex RSV RT-LAMP assay for PoC diagnosis of RSV A and B. Methods: Preparation of a quantitative RSV standard for assay optimisation was done using a rapid hypotonic burst recovery method of infective virus during sub-passaging, and a shell vial fluorescent focus assay for titration of culture-derived viral stock. We designed a single set of eight primers targeting the large polymerase gene of both RSV A and B, and developed a novel single-step multiplex RSV RT-LAMP assay, using an in-house reaction mix and the Rotor-Gene Q real-time thermocycler (Qiagen, Hilden, Germany). The metal ion indicator hydroxy naphtol blue (HNB) was added to the multiplex RSV RT-LAMP assay for visual detection of RSV. Results: The final optimised multiplex RSV RT-LAMP assay had an analytical detection sensitivity of <10 focus forming units (FFU) per reaction for both RSV A and B, with a mean time to positivity of 21.85 minutes (95% CI 19.2-24.5 minutes), compared to 90-120 minutes for conventional PCR. Evaluated against the Seeplex RV15 multiplex PCR (Seegene, Seoul, Korea) by testing 44 (22 RSV A/22 RSV B) nasopharyngeal specimens, the multiplex RSV RT-LAMP assay had a sensitivity of 100%, and a specificity of 100% when screened against nine common respiratory viruses. Visual detection of RSV using HNB as colorimetric reagent was equivalent to the analytical sensitivity (10 FFU/reaction) and specificity (100%) of the multiplex RSV RT-LAMP assay. Conclusion: Compared with conventional PCR, our novel single-step multiplex RSV RTLAMP assay had excellent sensitivity, specificity, and when combined with HNB dye could provide accurate visual diagnosis within 1 hour. We envisage that this multiplex RSV RTLAMP assay will be used for rapid and sensitive RSV detection at the PoC. / AFRIKAANSE OPSOMMING: Agtergrond: Respiratoriese Syncytial Virus (RSV) is die hoof oorsaak van erge laer lugweginfeksie in babas en kinders wêreldwyd. Vroeë diagnose van RSV infeksie word geassosieer met korter periodes van hospitalisasie en verlaagde mortaliteit. Huidige punt van sorg (PoC) toetse vir RSV is minder sensitief as molekulêre metodes. Omgekeerde transkripsie lus-gemedieerde isotermiese amplifisering (RT-LAMP), is 'n nuwe metode van nukleïensuur opsporing wat voorsiening maak vir vinnige, doeltreffende amplifisering, en visuele bevestiging van aansteeklike agente. Doel: Die doel van hierdie studie was om 'n nuwe, vinnige en sensitiewe multipleks RSV RTLAMP toets te ontwikkel wat PoC diagnose van RSV A en B in staat stel. Metodes: Voorbereiding van 'n kwantitatiewe RSV standaard vir toets optimisering is gedoen met behulp van 'n hipotoniese sel-lise metode van infektiewe virus tydens sub-kultuur, en 'n “shell-vial” kultuur en fluorosensie fokus toets vir titrasie van kultuur-geproduseerde virus voorraad. Ons het 'n enkele stel van agt inleiers ontwerp wat gebaseer is op die groot polimerase geen van beide RSV A en B, en 'n nuwe enkel-stap multipleks RSV RT-LAMP toets ontwikkel, met gebruik van 'n in-huis reaksie mengsel en die Rotor-Gene Q “real-time” thermocycler (Qiagen, Hilden, Duitsland). Die metaalioon aanwyser hidroksi naphtol blou (HNB) is bygevoeg in die multipleks RSV RT-LAMP toets vir visuele bevestiging van RSV. Resultate: Die finale geoptimiseerde multipleks RSV RT-LAMP toets het 'n analitiese sensitiwiteit van <10 fokus vormende eenhede (FFU) per reaksie vir beide RSV A en B gehad, met 'n gemiddelde tyd tot positiwiteit van 21.85 minute (95% CI 19.2-24.5 minute) , in vergelyking met 90-120 minute vir konvensionele PCR. Geëvalueer teen die Seeplex RV15 multipleks PCR (Seegene, Seoul, Korea) deur 44 (22 RSV A/22 RSV B) nasofaringeale monsters te toets, het die multipleks RSV RT-LAMP toets 'n sensitiwiteit van 100% getoon, en 'n spesifisiteit van 100% wanneer getoets teen nege algemene respiratoriese virusse. Visuele bevestiging van RSV met gebruik van HNB as kolorimetriese reagens was gelykstaande aan die analitiese sensitiwiteit (10 FFU/reaksie) en spesifisiteit (100%) van die multipleks RSV RT-LAMP toets. Gevolgtrekking: In vergelyking met konvensionele PCR, het ons nuwe enkel-stap multipleks RSV RT-LAMP toets uitstekende sensitiwiteit, spesifisiteit, en wanneer dit gekombineer word met HNB kleurstof kon dit akkurate visuele diagnose voorsien binne 1 uur. Ons verwag dat hierdie multipleks RSV RT-LAMP toets gebruik sal word vir vinnige en sensitiewe RSV bevestiging by die PoC.

Respiratory syncytial virus

Respiratory syncytial virus -- Diagnosis

UCTD

Energetics of ligand binding to activate site of glutathione transferase M1-1

Kinsley, Nichole Michelle

14 November 2006

Student Number : 0002483R - MSc dissertation - School of Molecular and Cell Biology - Faculty of Science / Isothermal titration calorimetry was used to investigate the forces that drive ligand binding to the active site of rGST M1-1. In an attempt to gain insight into the recognition of non-substrate ligands by GSTs, this study also investigates interactions between rGST M1-1 and ANS, a non-substrate ligand. At 25 °C, complex formation between rGST M1-1 and GSH, GSO3 -, and S-hexylglutathione is characterised by a monophasic binding isotherm with Kd values of 38.5 mM, 2.1 mM and 0.2 mM, respectively. One molecule of each ligand is bound per monomer of rGST M1-1. Binding of these ligands is enthalpically favourable and entropically unfavourable with a resultant favourable Gibbs free energy, overall. The effects of temperature and buffer ionisation on the energetics of binding were studied. The enthalpic and entropic contributions for all three ligands exhibited temperature dependence over the temperature range investigated (5-30 °C). The Gibbs free energy showed negligible changes with increasing temperature due to enthalpy-entropy compensation. The temperature dependence of the binding enthalpy yielded heat capacity changes of – 2.69 kJ/mol/K and –3.68 kJ/mol/K at 25 °C for GSH and S-hexylglutathione binding and –1.86 kJ/mol/K overall for GSO3 -. The linear dependence of DH on temperature for GSO3 - binding to rGST M1-1 suggests the formation of a more constrained complex which limits the fluctuations in conformations of the mu-loop at the active site. The non-linear dependence of DH on temperature for GSH and Shexylglutathione binding to the enzyme suggests the formation of a complex that samples different bound conformations due to the mobility of the mu-loop even after ligand is bound. Calorimetric binding experiments in various buffer systems with different ionisation enthalpies suggest that the binding of GSH to rGST M1-1 is coupled to the deprotonation of the thiol of GSH while GSO3 - binding to rGST M1-1 is independent of the buffer ionisation. At 25 °C, the rGST M1-1#1;ANS association is represented by a monophasic binding isotherm with one molecule of ANS bound per monomer of rGST M1-1. The interaction is both enthalpically and entropically driven with a Kd value of 27.2 mM representing moderate affinity. The effect of temperature on the interaction was investigated over the temperature range of 5-30 °C. The linear dependence of the binding enthalpy on temperature indicates that no significant structural changes occur upon binding of ANS to the enzyme (DCp = -0.34 kJ/mol/K). The change in heat capacity associated with the interaction can be attributed to the burial of the polar sulphonate group of ANS and the exposure of the anilino and naphthyl rings to solvent as well as the possibility of weak electrostatic interactions between ANS and residues at the active site. The effect of ethacrynic acid, GSH, GSO3 - and S-hexylglutathione on the fluorescence of ANS was investigated in order to obtain some idea as to the location of the ANS binding site on rGST M1-1. ANS was displaced by GSO3 -, S-hexylglutathione and ethacrynic acid, while no displacement occurred upon binding of GSH to the active site of rGST M1-1. Displacement studies and molecular docking simulations indicate that ANS binds to the H-site of rGST M1-1 and the possibility of a second binding site for the molecule cannot be ruled out.

Isothermal titration calorimetry

non-substrate ligands

GST

enthalpic

entropic

Gibbs free energy

enthalpy-entropy compensation

Reaction calorimetry applied to kinetic problems : the design and construction of an isothermal calorimeter with heat compensation by the Peltier effect, and the application of the calorimeter in the study of reaction kinetics in solvent/water mixtures

Canning, R. G.

January 1973

An isothermal calorimeter controlled by the Peltier effect has been designed and constructed in order to investigate reaction rates in solventwater mixtures. Because a thermal method was used a constant temperature environment was essential and this was achieved by using a water bath controlled to + 0.0010C. This callorinieter has been used to study the alkaline hydrolysis of methyl acetate in dimethylsulphoxide, and tetrahydrofuran - water mixtures at 15, 25 and 35 [degrees]C. The results of other investigations on similar reactions have been reviewed and an attempt has been made to correlate the electrostatic theories of Laidler and Eyring, and Amis and jaffe with these results. Finally, because it appears that specific solvent interactions play a major part in the reaction rates the role of water in the reaction mechanism has been examined. A mechanistic explanation has been proposed in order to correlate the rate of reaction with the composition of water-solvent mixtures which justifies the Laidler and Eyring treatment of solvent effects on ion-molecule reactions.

536

Modelling of liquid breakup mechanisms in engineering systems

Diemuodeke, Ogheneruona Endurance

January 2014

Effective design of liquid fuel injection systems is a function of good understanding of liquid breakup mechanisms. A transient liquid breakup model is developed on the classical interfacial breakup theory by modifying the classical linear perturbation process to include time-dependent base and perturbed flow parameters. The non-isothermal condition on liquid jet instability and breakup is theoretically modelled; with the particular consideration of a spatially variation of surface tension along the liquid-gas interface. The model combines the classical interface hydrodynamic instability and breakup theory and heat-transfer through semi-infinite medium. Analytical liquid breakup model, which combines transient and non-isothermal effects on liquid jet breakup, is suggested. The suggested model could be simplified to the transient breakup model and the non-isothermal breakup model equivalents. A novel mechanistic model, which is based on a simple momentum balance between the injected jet and the aerodynamic drag force, is suggested for breakup length. A new model, which combines energy criterion and dual-timescale for turbulent shear in droplet dispersion, is suggested for droplet breakup criteria on the basis of critical Webber number. All developed models showed good predictions of available experimental data, and established empirical correlation, within the operational conditions of contemporary ICEs, specifically diesel engines. Continued research in these areas could benefit the development of the next generation of liquid fuel injectors and combustors – by accounting for transient effects and non-isothermal conditions in liquid jet breakup, and turbulent shear in droplet breakup.

532

Charakterisace nových inhibitorů neuraminidasy z chřipkového viru / Characterization of novel inhibitors of neuraminidase from influenza virus

Durčák, Jindřich

January 2015

No description available.

Molecular Point-of-Care diagnostic for Treponema pallidum subsp. pertenue (yaws)

Laud Anthony Basing (6640481)

14 May 2019

<div>The eradication of yaws a neglected tropical disease caused by Treponema pallidum subsp. pertenue, which affects children living in very deprived hard to reach rural communities is constrained by the lack of rapid, accurate diagnosis. I sought to develop a molecular point-of-care test for the diagnosis of yaws. A Loop-mediated isothermal amplification (LAMP) assay with primers targeting the conserved gene, tp0967, with visual detection by lateral flow test strip was developed and optimized. The limit of detection was evaluated while 63 samples from clinical cases of yaws and 5 samples with PCR-confirmed syphilis were used to determine the sensitivity and specificity of the assay compared to the current molecular testing protocol. Reagents were dried in tubes and tested up to 14 days. The developed LAMP assay was found to be optimal when run at 65oC in a water bath for 30 minutes. The limit of detection was 2.7*104 DNA copies/ml. The sensitivity of the LAMP assay using unextracted and DNA extracted samples were 0.67 and 1.00 respectively. None of the syphilis samples tested positive in any of the assays. We show the development of a fast and sensitive LAMP assay for yaws detected by lateral flow test strip. Using extracted DNA, the assay sensitivity is at par with gold standard detection. The assay can be adapted to minimal sample processing required for in-field detection without DNA extraction.</div><div><br></div>

Biomechanical Engineering

Treponema pallidum ssp

Lateral Flow Assays

yaws detection

Estudo do comportamento da fadiga de baixo ciclo em altas temperaturas do aço inoxidável AISI 420. / Analysis of the low cycle fatigue behavior at high temperatures in a stainless steel AISI 420.

Falcão, César Augusto de Jesus

07 June 2002

Os ensaios tradicionais de fadiga realizados à temperatura constante nem sempre são capazes de reproduzir os mecanismos atuantes na solicitação anisotérmica. Por isto, novas técnicas mais avançadas de ensaios à temperatura variável foram desenvolvidas recentemente como a Fadiga Térmica (FT) e a Fadiga Termomecânica (FTM). A parte experimental deste trabalho incluiu a implementação e a descrição da metodologia de um sistema de ensaio para a FTM. Além disto, também foi determinada a propriedade mecânica de fadiga de baixo ciclo para o aço inoxidável AISI 420, utilizado na fabricação de palhetas de turbinas a gás para a geração de energia em usinas de açúcar e álcool. Os ensaios de fadiga isotérmica foram realizados a 490&#176C, ou seja, na máxima temperatura do ciclo anisotérmico. Já os ensaios anisotérmicos foram realizados na faixa de temperatura entre 260-490&#176C e nas condições em fase e fora de fase. A curva tensão deformação cíclica foi obtida pelo método convencional para os ensaios isotérmicos, sendo que o material sofreu endurecimento cíclico. Os ensaios em fase apresentaram vida ligeiramente menor do que os ensaios fora de fase. Não foram observados mecanismos ativados pela temperatura como fluência e oxidação, na faixa de temperatura dos ensaios anisotérmicos, assim, o mecanismo determinante para o processo de falha dos corpos de prova foi a fadiga pura. O comportamento dos resultados de FTM fora de fase foi melhor estimado pelo modelo de acúmulo de dano do que os resultados para a condição em fase. A análise microestrutural e fratográfica após os ensaios de fadiga revelou que os carbonetos de cromo continuaram dispersos na matriz. As trincas nuc1earama partir da superfície externa dos corpos de prova tubulares e se propagaram transgranularmente para o interior do metal. / The traditional fatigue test performed at elevated and constant temperature not always is able to reproduce the mechanisms acting during thermal loading. Therefore, new advanced testing techniques at variable temperatures were recently developed, and they are called Thermal Fatigue (TF) and Thermomechanical Fatigue (TMF). The experimental part of this work includes the TMF methodology implementation and description, as well as the Isothermal Fatigue (IF) and TMF results from an AISI 420 stainless steel, regularly used to produce gas turbine blades for power generation in sugar and alcohol industry. The isothermal fatigue tests were carried out at 490&#176C, the maximum temperature reached during the thermal cycle, and the TMF tests were performed in the temperature range of 260-490&#176C, in the inphase and out-of-phase loading conditions. The cyclic stress-strain curve was obtained by the conventional method, and the results showed that this material strain hardens. The TMF in phase tests exhibited a fatigue life shorter than the out-of-phase tests. It was not observed, in this range of temperature, any temperature activated micromechanism of failure, such as creep or oxidation mechanisms. Therefore, it was concluded that the only mechanisms acting during the TMF tests was fatigue. The damage accumulation model better fit the TMF results behavior, for the out-ofphase loading condition than the in-phase results. The microstructural and fractographic analyses showed that the chromium carbides continued generally distributed on the matrix after both types of fatigue testing. It was also noted that the fatigue cracks always were nucleated at the specimen external surface, and propagated transgranularly into the materials substrate.

Aço inoxidável

Fadiga isotérmica

Fadiga termomecânica

Fatigue

Isothermal fatigue

Methodology

Metodologia

Stainless steel

Assay Development and Characterization of <i>Mycoplasma ovis</i>

Kathy Ann Johnson (6615560)

10 June 2019

<p><a>The hemotrophic mycoplasma<i>, Mycoplasma ovis</i>, is found in sheep and goats throughout the world. This pathogenic bacterium is capable of causing an acute, life-threatening infection as well as chronic or subclinical infections in these animals. The purposes of the present studies were to develop <i>M. ovis</i>-specific assays for detection of this hemoplasma, and to better understand infection dynamics within pregnant ewes and lambs. </a>The first study describes the development and validation of a SYBR^® Green quantitative PCR (qPCR) assay, which was subsequently used to determine the prevalence of <i>M. ovis</i> infection within a population of goats and to evaluate risk factors for infection. This highly sensitive and specific assay consistently detected as few as 10 copies of plasmid/reaction. Convenience-based sampling of 362 goats from 61 farms located in Indiana revealed a prevalence of infection of 18% (95% confidence interval (CI), 14% to 22%). Bacterial loads of <i>M. ovis</i> ranged from 1.05 x 10³ to 1.85 x 10⁵copies/mL of blood with a mean of 1.31 x 10⁴copies/mL of blood. The only risk factor associated with hemoplasma infection was the production use of the goat; dairy goats had a 3.3 fold increase compared with the prevalence in goats used for meat. This study not only demonstrates that <i>M. ovis</i> infection is common in goats in Indiana, but shows the variability of bacterial loads that can be found in chronically-infected animals. While sub-clinically infected goats may have a bacteremia, levels are characteristically less than 2.0 x 10⁵copies/mL.</p><p> The second project utilized a combination of cross-sectional and longitudinal studies to estimate the prevalence of <i>M. ovis</i> infection from a cohort of naturally-infected pregnant ewes, assess changes in their bacterial loads, and determine the incidence of <i>M. ovis</i> in lambs pre- and post-weaning. The prevalence of <i>M. ovis</i> infection in ewes was not found to be significantly different during pregnancy, and before and after weaning of the lambs, with prevalence estimates of 45% (95% CI, 23.1 – 68.5), 36% (95% CI, 17.9 – 57.4), and 44%, (95% CI, 24.4 – 65.1), respectively. Bacterial loads of the ewes from the cross-sectional study ranged from 10⁴to 10⁹copies/mL of blood, with the median bacterial load at 10⁵ copies/mL of blood. While higher bacterial loads are typical of an acute infection, none of the ewes in this study had overt clinical signs. The data suggest that <i>M. ovis</i> loads may be higher in pregnant sheep, particularly in ewes half-way through pregnancy. Most of the <i>M. ovis</i> infections in the study lambs were detected post-weaning which suggests that transplacental or transmammary infection of <i>M. ovis</i> are unlikely routes.</p><p> In the third study, a subset of <i>M. ovis</i> genes for use in a multi-locus sequence typing assay (MLST) were evaluated. Next-generation sequencing was performed to generate data from pooled DNA amplicons in order to identify single nucleotide polymorphisms (SNPs) of <i>M. ovis </i>from five genes. Evaluation of the quality and depths of coverage for the reads and SNPs indicated that the pooled DNA amplicons produced reads and SNPs having high quality and sufficient depth. This pooling technique is a cost-effective alternative to whole-genome sequencing. While the MLST has good discriminatory power and may be used to identify genetically distant and divergent clusters of <i>M. ovis</i> from different geographical origins, within a herd the discrimination power is low, which may hamper its usefulness in transmission studies. </p><p> The fourth and final study was the development of a loop-mediated isothermal amplification (LAMP) assay targeting the dnaK gene of <i>M. ovis</i>, with comparison of the assay to conventional PCR (cPCR). The metal ion indicator hydroxynaphthol blue (HNB) was added prior to the reaction, which allowed for visual detection of LAMP-positive samples as indicated by a color change from violet to sky blue. <i>Mycoplasma ovis</i> was consistently detected in 45 minutes with the LAMP assay at a reaction temperature of 64°C, with more infected sheep being detected than by cPCR. Therefore, the LAMP assay is fast and reliable in the detection of <i>M. ovis</i>. The developed LAMP assay may have applications in diagnostics, surveillance and disease management as well as prevalence studies. However, a more robust molecular technique is necessary for <i>M. ovis</i> isolate or stain discrimination to investigate transmission or disease spread in an outbreak.</p><p> </p><p> In conclusion, three new molecular tools for the detection of <i>M. ovis</i> in goats and sheep were developed as results of these studies. We have shown that the qPCR assay is an efficient tool for detection and quantification of <i>M. ovis</i> loads in blood from both of these species. On the other hand, the value of the LAMP assay is for reliable detection of infection (not quantification), especially in resource-limited situations. The five-locus MLST protocol developed herein, a typing assay based on the polymorphism of five gene sequences, is a laborious technique requiring DNA extraction, PCR amplification, purification and sequencing of target loci. The value of this technique is not as a routine diagnostic, but rather it may be used to better understand the genetic diversity of <i>M. ovis</i> and investigate strain variations. Most importantly, the scheme is sufficiently robust to allow direct genotyping of <i>M. ovis</i> in total blood DNA extracts without culture isolation. The MLST approach may prove useful as a tool for future investigations of transmission and disease spread. These studies have also expanded our understanding of the infection dynamics of <i>M. ovis</i> in pregnant sheep and lambs. It is shown herein that despite the high prevalence and sometimes high bacterial loads in pregnant ewes, <i>M. ovis</i> does not appear to be transmitted to the lambs in utero or during the perinatal period. The lambs become infected mostly after weaning; this may suggest a protective effect during the pre-weaning period and/or subsequent exposure/infection from their environment. </p><br>

Microbiology

Mycoplasma ovis

qPCR

multi-locus sequence typing

Loop-mediated isothermal amplification

sheep

goats

hemoplasma

Estudo do comportamento da fadiga de baixo ciclo em altas temperaturas do aço inoxidável AISI 420. / Analysis of the low cycle fatigue behavior at high temperatures in a stainless steel AISI 420.

César Augusto de Jesus Falcão

07 June 2002

Os ensaios tradicionais de fadiga realizados à temperatura constante nem sempre são capazes de reproduzir os mecanismos atuantes na solicitação anisotérmica. Por isto, novas técnicas mais avançadas de ensaios à temperatura variável foram desenvolvidas recentemente como a Fadiga Térmica (FT) e a Fadiga Termomecânica (FTM). A parte experimental deste trabalho incluiu a implementação e a descrição da metodologia de um sistema de ensaio para a FTM. Além disto, também foi determinada a propriedade mecânica de fadiga de baixo ciclo para o aço inoxidável AISI 420, utilizado na fabricação de palhetas de turbinas a gás para a geração de energia em usinas de açúcar e álcool. Os ensaios de fadiga isotérmica foram realizados a 490&#176C, ou seja, na máxima temperatura do ciclo anisotérmico. Já os ensaios anisotérmicos foram realizados na faixa de temperatura entre 260-490&#176C e nas condições em fase e fora de fase. A curva tensão deformação cíclica foi obtida pelo método convencional para os ensaios isotérmicos, sendo que o material sofreu endurecimento cíclico. Os ensaios em fase apresentaram vida ligeiramente menor do que os ensaios fora de fase. Não foram observados mecanismos ativados pela temperatura como fluência e oxidação, na faixa de temperatura dos ensaios anisotérmicos, assim, o mecanismo determinante para o processo de falha dos corpos de prova foi a fadiga pura. O comportamento dos resultados de FTM fora de fase foi melhor estimado pelo modelo de acúmulo de dano do que os resultados para a condição em fase. A análise microestrutural e fratográfica após os ensaios de fadiga revelou que os carbonetos de cromo continuaram dispersos na matriz. As trincas nuc1earama partir da superfície externa dos corpos de prova tubulares e se propagaram transgranularmente para o interior do metal. / The traditional fatigue test performed at elevated and constant temperature not always is able to reproduce the mechanisms acting during thermal loading. Therefore, new advanced testing techniques at variable temperatures were recently developed, and they are called Thermal Fatigue (TF) and Thermomechanical Fatigue (TMF). The experimental part of this work includes the TMF methodology implementation and description, as well as the Isothermal Fatigue (IF) and TMF results from an AISI 420 stainless steel, regularly used to produce gas turbine blades for power generation in sugar and alcohol industry. The isothermal fatigue tests were carried out at 490&#176C, the maximum temperature reached during the thermal cycle, and the TMF tests were performed in the temperature range of 260-490&#176C, in the inphase and out-of-phase loading conditions. The cyclic stress-strain curve was obtained by the conventional method, and the results showed that this material strain hardens. The TMF in phase tests exhibited a fatigue life shorter than the out-of-phase tests. It was not observed, in this range of temperature, any temperature activated micromechanism of failure, such as creep or oxidation mechanisms. Therefore, it was concluded that the only mechanisms acting during the TMF tests was fatigue. The damage accumulation model better fit the TMF results behavior, for the out-ofphase loading condition than the in-phase results. The microstructural and fractographic analyses showed that the chromium carbides continued generally distributed on the matrix after both types of fatigue testing. It was also noted that the fatigue cracks always were nucleated at the specimen external surface, and propagated transgranularly into the materials substrate.

Aço inoxidável

Fadiga isotérmica

Fadiga termomecânica

Metodologia

Fatigue

Isothermal fatigue

Methodology

Stainless steel