The characterization and identification of pertussis toxin receptors /

Sindt, Kathleen Ann.

January 1997

Thesis (Ph. D.)--University of Virginia, 1997. / Spine title: Characterization of PT receptors. Includes bibliographical references (111-128). Also available online through Digital Dissertations.

Improved methods of detection for the difficult to identify marine toxin, Okadaic acid /

Harper, Terry L.

January 2005

Thesis (M.S.)--University of North Carolina at Wilmington, 2005. / Includes bibliographical references (leaves: [52]-58)

Genetic investigation and characterization of killer toxins secreted by non-Saccharomyces yeasts

Mehlomakulu, Ngwekazi Nwabisa

04 1900

Thesis (PhD)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: In the current study, two isolates showing killer activity against several wine yeast species in a previous study were identified to strain level and found to belong to the yeast species Candida pyralidae. The identified yeast strains and a Kluyveromyces wickerhamii yeast strain used as a control exhibited killer activity against B. bruxellensis known for its spoilage characteristics in red wine, and against several strains of the genus Brettanomyces on white and red grape juice medium. The killer yeasts inhibited neither the growth of S. cerevisiae nor that of the lactic acid bacteria Oenococcus oeni and Lactobacillus plantarum strains. Yeasts are reported to secrete killer toxins, which can play a role in yeast microbial interactions under winemaking conditions. The C. pyralidae strains were found to secrete two novel killer toxins, designated CpKT1 and CpKT2. These killer toxins were stable and active under winemaking conditions, pH 3.5 - 4.5 and temperature ranges between 15 and 25°C. Ethanol and sugar concentrations found during winemaking did not affect the activity and stability of these killer toxins. Although, the killer toxins differed with regards to their biochemical and environmental stability and activity, they were found to have a similar mode of action. The killer toxins induced a fungistatic effect on B. bruxellensis sensitive cells in addition to binding to the cell wall of the sensitive cells, inducing cell surface and plasma membrane damage as did the Kwkt killer toxin secreted by K. wickerhamii. According to the author’s knowledge this is the first report on the identification of novel killer toxins secreted by C. pyralidae strains isolated from a wine environment as well as the identification of the mode of action of killer toxins on B. bruxellensis cells. This indeed provides great research scope in this field. The exoproteomes consisting of the killer toxins Kwkt, CpKT1 and CpKT2 revealed the presence of exo-glucanases and glucosidases, respectively. The enzymes KwExg1 (exoglucanase) and KwSun4 (glucosidase) retrieved from K. wickerhamii’s exoproteome were identified as the potential toxins, but their killer activity could not be confirmed. These findings suggest that hydrolytic enzymes possess killer activity, as previously reported in literature. However, further investigation is needed to identify the killer toxins characterized in this study. / AFRIKAANSE OPSOMMING: In die huidige studie is twee isolate wat in ’n vorige studie “killer” aktiwiteit teenoor verskeie wyngisspesies vertoon het, tot op rasvlak geïdentifiseer en daar is gevind dat hulle aan die gisspesie Candida pyralidae behoort. Die geïdentifiseerde gisrasse en ’n Kluyveromyces wickerhamii gisras wat as kontrole gebruik is, het “killer” aktiwiteit getoon teenoor B. bruxellensis, wat bekend is vir sy bederfkarakter in rooi wyn, en ook teenoor verskeie rasse van die genus Brettanomyces in wit en rooi druiwesapmedium. Die “killer” giste het nie die groei van óf S. cerevisiae óf van die melksuurbakteria Oenococcus oeni en Lactobacillus plantarum-rasse geïnhibeer nie. Giste word berig om “killer” gifstowwe uit te skei, wat ’n rol kan speel in gis mikrobiese interaksies onder wynbereidingstoestande. Die C. pyralidae-rasse is gevind om twee nuwe “killer” gifstowwe af te skei, wat CpKT1 en CpKT2 genoem is. Hierdie “killer” gifstowwe was stabiel en aktief onder wynbereidingstoestande, pH 3.5 - 4.5 en temperatuur tussen 15 en 25°C. Die etanol- en suikerkonsentrasies wat onder wynbereiding voorkom, het nie die aktiwiteit en stabiliteit van hierdie “killer” gifstowwe beïnvloed nie. Hoewel die “killer” gifstowwe met betrekking tot hulle biochemiese en omgewingstabiliteit en aktiwiteit verskil het, is daar gevind dat hulle ’n eenderse modus van aksie het. Die “killer” gifstowwe het ’n fungistatiese effek op B. bruxellensis sensitiewe selle geïnduseer, buiten dat dit aan die selwand van die sensitiewe selle gebind het, en het seloppervlak- en plasma-membraanskade geïnduseer, net soos die Kwkt “killer” gifstof wat deur K. wickerhamii afgeskei is. So ver die skrywer weet, is hierdie die eerste verslag van die identifisering van nuwe “killer” gifstowwe wat deur C. pyralidae rasse afgeskei word wat uit ’n wynomgewing geïsoleer is, asook van die identifikasie van die modus van aksie van “killer” gifstof op B. bruxellensis selle. Dit verbreed dus beslis die navorsingsomvang van hierdie gebied. Die eksoproteome, bestaande uit die “killer” gifstowwe Kwkt, CpKT1 en CpKT2, het die teenwoordigheid van ekso-glukanases en glukosidases onderskeidelik onthul. Die ensieme KwExg1 (eksoglukanase) en KwSun4 (glukosidase) wat vanuit K. wickerhamii se eksoproteoom herwin is, is as die potensiële gifstowwe geïdentifiseer, maar hulle “killer” aktiwiteit kon nie bevestig word nie. Hierdie bevindings suggereer dat hidrolitiese ensieme “killer” aktiwiteit besit, soos voorheen in die literatuur berig is. Verdere ondersoeke word egter benodig om die “killer” gifstowwe wat in hierdie studie gekarakteriseer is, te identifiseer.

Brettanomyces bruxellensis

Wine and wine making -- Microbiology

Killer toxins -- Genetics

UCTD

Effects of bacterial toxins on the proliferation, osteogenic differentiation and toll-like receptor expressions of humanmesenchymal stromal cells

Mo, Fung-ying, Irene., 毛鳳英.

January 2006

published_or_final_version / abstract / Paediatrics and Adolescent Medicine / Master / Master of Philosophy

Bacterial toxins.

Stem cells.

Cell proliferation.

Cell differentiation.

Gene expression.

Nanoporous polymeric adsorbents for blood purification

Roche, Iain

January 2009

This thesis is concerned with applying engineering principles to the use of polymeric nanoporous adsorbents for use in blood purification to obtain original knowledge. Styrene divinylbenzene copolymer nanoporous adsorbents offer a potential means to remove middle molecular (MM) sized molecules when in direct contact with blood. (Continues...).

615.5

Molecular characterisation of the interaction of microbes with the insulin pathway

Nisr, Raid Bahr

January 2012

Exposure to microorganisms is considered an environmental factor which can contribute to diabetes mellitus via cytotoxicity or autoimmune responses against pancreatic cells. Firstly, the effects on rat insulinoma pancreatic β-cell line of secondary metabolites pyrrolnitrin (Burkholderia spp), phenazine compounds (Pseudomonas aeruginosa and Burkholderia spp) were investigated. Both compounds separately showed significant cytotoxicity after 24 h and at concentrations of 10 & 100 ng/ml potentiated insulin gene transcription, Ca2+ content and glucose-stimulated insulin secretion (GSIS). Furthermore, the outward membrane current was inhibited by phenazine (100 ng/ml) or pyrrolnitrin (10 or 100 ng/ml). Secondly, the capacity of 45 microbial species to bind insulin was screened in order to assess how common insulin binding was amongst microorganisms Burkholderia multivorans, B. cenocepacia and Aeromonas salmonicida bound insulin. A genomic library of B. multivorans was constructed in λ Zap Express and screened successfully for insulin binding recombinants. Recombinant phagemids p1 & p2 were excised, p1, encoded an insulin binding protein (IBP1 30 kDa) with homology to the iron complex siderophore receptor. For p2, two IBPs were detected at 20 & 30 kDa (IBP2 & IBP3), representing an intracellular and outer membrane peptide transporter. Comparison of IBP1 and human insulin receptor (HIR) produced 6 linear epitopes, and for IBP2 & IBP3 produced 3 epitopes. Thirdly, glutamic acid decarboxylase GAD65 is a major pancreatic autoantigen contributing to autoimmune diabetes. To assess the likelihood that microorganisms possess epitopes that mimic regions on GAD, 45 microbial species were tested for homology. This was facilitated by purifying recombinant GAD protein which was used to produce GAD antiserum. Four E. coli cross-reacting proteins were identified using mass spectrometry, outer-membrane protein A, formate dehydrogenase, superoxide dismutase and DNA starvation protein. Epitopes occurred at the C-terminal region of GAD65 (residues 419–565), a region previously reported to be targeted by autoantibodies. This study suggests that pyrrolnitrin and phenazine are cytotoxic to pancreatic β-cells and B. multivorans IBPs linear epitopes may be diabetogenic, particularly in patients with cystic fibrosis related diabetes (CFRD) who suffer a long term infections with Pseudomonas and Burkholderia species. Furthermore, microbial GAD epitopes could potentially induce an autoimmune response leading to diabetes.

616.4622

The Removal of Linseed Oil Vapors by Biodegradation

Sukplang, Patamaporn

08 1900

Linseed oil is very important in industry but its use is limited due to noxious vapors produced by oxidation on exposure to air. Since some of the products are toxic, release of linseed oil vapors to the environment is normally prohibited. In order to remove the odorous compounds, a biofilter system based on bacterial metabolism was designed and the major premises of bioremediation were studied. A total of five bacterial strains capable of using linseed oil vapors as their sources of carbon and energy were isolated from soil. The individual organisms were also mixed to form a bacterial consortium. The mixed population was able to degrade linseed oil vapors with more than 99 per cent efficiency. According to this research, a successful biodegradation system was designed and, theoretically, this system could be applied to the removal of linseed oil vapors in any industrial plant air stream.

linseed oil

vapors

toxins

bacteria

Linseed oil.

Vapors -- Biodegradation.

The development of dendrimer-gold composite based electrochemical immunosensor for the detection of cholera toxin in water

14 January 2014

M.Tech. (Chemistry) / Please read abstract in the full-text document

Water - Toxicology

Cholera toxins

Biosensors

Dendrimers

Gold

Electrochemical sensors

Immunoassay test strip for Microcystin-LR detection

Unknown Date

Microcystin-LR (MCLR) is hepatotoxic to animals and humans with disruption of liver structure causing cytoskeletal damage, necrosis and pooling of blood in the liver, leading to large increase in liver weight. It is also a strong liver tumor promoter and protein phosphatase inhibitor. Microcysin-LR binds protein phosphatases 1 and 2A, and influences regulation of cellular protein phosphorylation. In the present study, a colloidal gold based immunoassay test strip was developed for Microcystin-LR detection. The detection limit was found to be 1 ng/mL. 5 nm colloidal gold test strips exhibits more efficient for detection, compared with 20 nm colloidal gold test strips. The interaction between Microcystin-LR antibody (immunoglobulin G) and colloidal gold nanoparticles was investigated by various analytical methods, including Ultraviolet/Visible (UV/VIS), Fourier Transform Infrared (FTIR) and Fluorescence spectroscopy as well as transmission electron microscopy (TEM). / by Jiesi Xu. / Thesis (M.S.)--Florida Atlantic University, 2010. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2010. Mode of access: World Wide Web.

Immunoassay

Biosensors

Environmental chemistry

Cyanobacterial toxins

Drinking water--Microbiology

Transcriptoma da glândula de veneno de Bothrops atrox. / Transcriptome of Bothrops atrox venom gland.

Neiva, Márcia

14 April 2011

A espécie Bothrops atrox é responsável por grande parte dos acidentes no estado do Amazonas. No entanto, ainda são poucos os estudos sobre as toxinas que compõem o veneno dessa serpente, os mecanismos envolvidos na sintomatologia dos acidentes, bem como de formas de inibição. Os soros antiveneno utilizados atualmente com o objetivo de neutralizar as atividades sistêmicas e locais dos venenos mostraram reatividade cruzada entre componentes dos venenos de serpentes do gênero Bofhrops (MOURA DA SILVA et al., 1990). No entanto alguns componentes do veneno não apresentaram essa reatividade (SILES-VILARROEL et al.., 1974), mostrando a existência de toxinas espécie específicas.Os venenos de serpentes estão sujeitos a grandes variações induzidas por diversos aspectos ontogenéticos e influencia do habitat. Assim, essas variações podem gerar toxinas espécie específicas cujos mecanismos de ação ainda são desconhecidos e que os anticorpos presentes nos antivenenos disponíveis não sejam capazes de reconhecer e neutralizar eficientemente. O gênero Bothrops possui espécies extremamente variáveis, algumas de difícil classificação taxonõmica, e novas espécies têm sido descobertas recentemente. Como contribuição para o acúmulo de informações a respeito das diferentes composições do veneno do gênero Bothrops, e para o conhecimento de toxinas já isoladas e as ainda não isoladas na espécie tipo Bothrops atrox, foi construída uma biblioteca de cDNA da glândula de veneno.Os dados obtidos são importantes para a elaboração de um painel da expressão gênica dessa espécie e permitirá a identificação de toxinas que podem ser comuns ou não ao veneno de outras espécies do gênero. Aliado a isso, esses dados permitirão a correlação com o estudo proteõmico, e possivelmente fornecerão subsídios para a melhoria da terapêutica empregada no tratamento dos casos envenamento na região. / The species Bothrops atrox is responsible for most accidents in state of Amazonas. However, there are few studies on toxins that make up the venom of this snake, mechanisms involved in symptomatology of accidents, as well as inhibition forms. Sera antivenom currently used in order to neutralize the systemic and local activities of the venoms showed cross-reactivity between components of the venom of Bothrops (MOURA DA SILVA et al., 1990). However some components of the venom showed no reactivity (SILES-VILARROEL et al., 1974), indicating the existence of species-specific toxins. Snake venoms are subject to large variations induced by several aspects and influences of ontogenetic habitat. Thus, these variations can produce toxins whose mechanisms of species-specific action are still unknown and antibodies present in available antivenoms maybe not are capable to recognize and neutralize some toxins efficiently. Bothrops species have highly variable, some of difficult taxonomic classification and new species have been discovered recently. As a contribution to gain of information about of different compositions of Bothrops venom and to knowledge of toxins not yet isolated and the isolated in Bothrops atrox type species we constructed a venom gland cDNA library . The data obtained are important for the development of gene expression panel of this species and enable the identification of toxins common or not in the venom of other species. These data will allow correlation with the proteomic study, and possibly provide input for improving the therapeutic used in the treatment of accidents cases in the region.

Bothrops

Bothrops

Serpentes

Snakes

Toxinas

Toxins

Transcriptoma

Transcriptoma

Venenos

Venoms