Electronic Nose-Based Fusarium Detection and Deoxynivalenol Aptamer Development

Eifler, Jakob

18 July 2014

No description available.

630

Electronic Nose

Aptamer

Deoxynivalenol

DON

Fusarium

Fungi

Toxin

Metabolite

Land- und Forstwirtschaft (PPN621302791)

Studying Interactions of Gas Molecules with Nanomaterials Loaded in a Microwave Resonant Cavity

Anand, Aman

08 1900

A resonant cavity operating in TE011 mode was used to study the adsorption response of single walled carbon nanotubes (SWCNTs) and other nanomaterials for different types of gas molecules. The range of the frequency signal as a probe was chosen as geometry dependent range between 9.1 -9.8 GHz. A highly specific range can be studied for further experiments dependent on the type of molecule being investigated. It was found that for different pressures of gases and for different types of nanomaterials, there was a different response in the shifts of the probe signal for each cycle of gassing and degassing of the cavity. This dissertation suggests that microwave spectroscopy of a complex medium of gases and carbon nanotubes can be used as a highly sensitive technique to determine the complex dielectric response of different polar as well as non-polar gases when subjected to intense electromagnetic fields within the cavity. Also, as part of the experimental work, a range of other micro-porous materials was tested using the residual gas analysis (RGA) technique to determine their intrinsic absorption/adsorption characteristics when under an ultra-high vacuum environment. The scientific results obtained from this investigation, led to the development of a chemical biological sensor prototype. The method proposed is to develop operational sensors to detect toxin gases for homeland security applications and also develop sniffers to detect toxin drugs for law enforcement agency personnel.

Carbon nanotubes

toxin sensor

microwave resonant cavity

Nanostructures.

Nanostructured materials.

Carbon.

Microwaves.

Molecular dynamics.

Gases.

The bioterrorism threat by non-state actors hype or horror?

Thompson, Christopher M.

12 1900

This thesis provides a capabilities-based approach to assessing the bioterrorism threat from non-state actors. Through comparative case study, prior bioterrorism attacks are analyzed to assess capability in the three areas necessary to complete a biological weapons attack: obtaining or isolating a pathogen, weaponizing the agent, and employing or disseminating the weapon. The three cases are the Rajneeshee cult in 1984, the Aum Shinrikyo cult in the early 1990's, and the United States Postal System anthrax attacks of 2001. In contrast to current wisdom that employing biological weapons is too difficult for non-state actors, this thesis reveals a broad spectrum of capability in all studies in the areas necessary to culminate an attack. Applications of these findings must be used to assess risk generally rather than against specific groups because capability is deemed to be exptremely difficult to track. The these finds that a significant threat exists but not large enough to be over-hyped above other national security concerns. In light of this, recommendations are provided for U.S. biodefense policy emphasis in the areas of the nonproliferation regime, attribution capabilities, and defending against the changing nature of future attacks with a particular emphasis on the public health system.

Pathogenic microorganisms

National security

Anthrax

Botulinum toxin

Salmonella

Biological warfare

Bioterrorism

Biological weapons

Transcript Abundance of Photorhabdus Insect-Related (Pir) Toxin in Manduca sexta and Galleria mellonella Infections

Castagnola, Anaïs, Mulley, Geraldine, Davis, Nathaniel, Waterfield, Nicholas, Stock, S.

29 September 2016

In this study, we assessed pirAB toxin transcription in Photorhabdus luminescens laumondii (strain TT01) (Enterobacteriaceae) by comparing mRNA abundance under in vivo and in vitro conditions. In vivo assays considered both natural and forced infections with two lepidopteran hosts: Galleria mellonella and Manduca sexta. Three portals of entry were utilized for the forced infection assays: (a) integument; (b) the digestive route (via mouth and anus); and (c) the tracheal route (via spiracles). We also assessed plu4093-2 transcription during the course of a natural infection; this is when the bacteria are delivered by Heterorhabditis bacteriophora nematodes. Transcript abundance in G. mellonella was higher than in M. sexta at two of the observed time points: 15 and 18 h. Expression of pirAB plu4093-2 reached above endogenous control levels at 22 h in G. mellonella but not in M. sexta. Overall, pirAB plu4093-2 transcripts were not as highly expressed in M. sexta as in G. mellonella, from 15 to 22 h. This is the first study to directly compare pirAB plu4093-2 toxin transcript production considering different portals of entry.

Photorhabdus luminescens laumondii

pir toxin

pirA and pirB transcript detection

portal of entry

tissue specificity

Understanding the link between interleukin 17 and vaccine-induced protection in tuberculosis

Griffiths, Kristin Lisa

January 2012

Tuberculosis (TB), caused by infection with Mycobacterium tuberculosis (M.tb), remains a global health problem and although BCG offers some protection against childhood disseminated disease and other mycobacterial infections, its efficacy against pulmonary TB varies between 0 and 80%. Modified Vaccinia virus Ankara expressing antigen 85A (MVA85A) is a novel TB vaccine designed to boost mycobacterium-specific CD4+ T cell response primed by BCG. MVA85A induces strong interferon (IFN)-γ responses, a cytokine known to be essential for protection following M.tb infection. A strong IFN-γ response is not a correlate of protection and in terms of the adaptive response, interleukin (IL)-17 is emerging as an important cytokine following vaccination as it is thought to help boost IFN-γ production by CD4+ T cells. This thesis shows that MVA85A induces IL-17 in PBMC and whole blood of human BCG – MVA85A vaccinees. This is replicated in mice receiving BCG – MVA85A intranasally. The administration of cholera toxin (CT) with BCG enhances IL-17 and confers improved protection following M.tb challenge, which is partially dependent on IL-17 and on the mucosal route of administration. Since CT is not a suitable adjuvant in humans, an alternative IL-17-inducing pathway was investigated. In human BCG – MVA85A-vaccinated volunteers, blocking the hydrolysing ability of the CD39, an apyrase responsible for hydrolysing pro-inflammatory ATP, enhances IL-17 production. Challenge of BCG – MVA85A-vaccinated CD39-/- mice with M.tb slightly improved the protective capacity of the vaccine, suggesting that a pathway dependent on ATP-driven inflammation may be a target for improving the immunogenicity of a vaccine against M.tb disease. Overall, this thesis has confirmed the important role of IL-17 in vaccine-induced protection against TB disease and identifies a possible target pathway for improvement of a novel vaccine.

616.99

Role of ROK and PKC in Permeabilized Rabbit Femoral Artery

Clelland, Lyndsay Jacquelyn

01 January 2007

Discoveries made with KCl-induced contractions have elucidated the more complex reactions involved in GPCRs signaling; once the mechanisms of smooth muscle Ca2+ sensitization and desensitization are fully understood, then the development of advanced treatments for vascular disorders such as hypertension, cerebral and coronary vasospasm, and vascular hyporeactivity following hemorrhagic shock may be possible. Studies have shown that KCl-induced contractions induce Ca2+-sensitization. Therefore, we tested the hypothesis that KCl induced Ca2+-sensitization is due to ROK activation by the increase in [Ca2+]i. To test this hypothesis, rabbit femoral arteries were permeabilized with 20µg/ml α-toxin and 1% Triton X-100 and subjected to different calcium concentrations in the presence or absence of various ROK inhibitors. For a comparison we also used various PKC and MLCK inhibitors and repeated these experiments in intact tissues. We found that either [Ca2+]i alone does not directly activate ROK or the permeabilization technique itself disrupts the normal ROK signaling system. Secondary findings revealed that α-toxin activates PKC pathways; in both chemically permeabilized preparations proteases also appear to be activated and MLCK is the primary kinase responsible for contraction.

Permeabilized

ROK

PKC

Femoral Artery

Smooth Muscle

Triton X-100

Alpha Toxin

Life Sciences

Physiology

Studium biochemických vlastností PDE8A1: Příprava experimentálního systému v živých buňkách / Assessing biochemical properties of PDE8A1: Design of experimental system in living cells"

Galica, Tomáš

January 2012

4 Abstract Phosphodiesterases (PDEs), enzymes that hydrolyze cyclic nucleotides, are important components of signal transduction pathways in eukaryotic cells. Second messenger 3'-5'- cyclic adenosine monophosphate (cAMP) is hydrolyzed by specific PDEs. By controlling concentration levels of cAMP in cell, PDEs preserve favorable environment for successful transmission of the cAMP signal. Moreover, PDEs are activated by protein kinase A (PKA) in response to elevated cAMP concentration, which is a feature crucial for signal termination. PDE8A1 is a high-affinity cAMP-specific IBMX insensitive phosphodiesterase, an enzyme important for cAMP signaling. However, mostly due to a lack of specific inhibitor, its role has not been assessed in detail. This thesis reports cloning of PDE8A1, identification of its posttranslational modifications and subcellular localization, as well as an alternative approach to address PDE biology by the use of cyclase toxin from Bordetella pertussis. Keywords: phosphodiesterase, cAMP, posttranslational modification, myristoylation, palmitoylation, adenylate cyclase toxin

Neopragmatism and the dual-use issue : a topology of visions

Walther, Gerald

January 2013

In the wake of the 2001 anthrax attacks in the US, States Parties to the Biological and Toxin Weapons Convention started to discuss the potential malign application of biological research and technology. This thesis examines how this issue of dual-use has been developed, discussed, and how solutions have been proposed. In order to do so, the thesis follows a neopragmatist approach. As a neopragmatist methodology is largely underdeveloped, the thesis explores some of the key aspects of neopragmatism, specifically its openness to various methods and theories, by directly applying it to the topic. As a result of this approach, the thesis starts with exploratory empirical research, which follows Bruno Latour’s Actor Network Theory. This research reviews how the problem of dual-use has been discussed in three communities: politics and security, ethics, and science. One of the results is that dual-use has primarily been discussed in the security community while the other two were only marginally involved. The proposed solution to the problem by the security community is to place the burden of responsibility on the scientific community. The second part of the thesis then uses theory, Niklas Luhmann’s social systems theory and Martin Heidegger’s work on questioning technology, to critically challenge this solution developed in the security community. The thesis concludes by identifying approaches to help deal with the dual-use issue. It also examines how the adoption of a neopragmatist methodology has influenced and guided the thesis.

327.1

Identification and characterization of Clostridium sordellii toxin gene regulator

Sirigi Reddy, Apoorva Reddy

January 1900

Master of Science / Division of Biology / Revathi Govind / Toxigenic Clostridium sordellii causes uncommon but highly lethal infections in humans and animals. Recently, an increased incidence of C. sordellii infections has been reported in women undergoing obstetric interventions. Pathogenic strains of C. sordellii produce numerous virulence factors, including sordellilysin, phospholipase, neuraminidase, and two large clostridial glucosylating toxins, TcsL and TcsH. Recent studies have demonstrated that TcsL toxin is an essential virulence factor for the pathogenicity of C. sordellii. In this study, we identified and characterized TcsR as the toxin gene (tcsL) regulator in C. sordellii. High-throughput sequencing of two C. sordellii strains revealed that tcsR lies within a genomic region that encodes TcsL, TcsH, and TcsE, a putative holin. By using ClosTron technology, we inactivated the tcsR gene in strain ATCC 9714. Toxin production and tcsL transcription were decreased in the tcsR mutant strain. However, the complemented tcsR mutant produced large amounts of toxins, similar to the parental strain. Expression of the Clostridium difficile toxin gene regulator tcdR also restored toxin production to the C. sordellii tcsR mutant, showing that these sigma factors are functionally interchangeable.

Clostridium sordellii

Toxin gene regulator

TcsR

Apoorva Reddy

Sirigi Reddy

Revathi Govind

Biology (0306)

Microbiology (0410)

Regulation of sodium transport across epithelia derived from human mammary gland

Wang, Qian

January 1900

Doctor of Philosophy / Department of Anatomy and Physiology / Bruce D. Schultz / The first aim of this project is to define the cellular mechanisms that account for the low Na[superscript]+ concentration in human milk. MCF10A cells, which were derived from human mammary epithelium and grown on permeable supports, exhibit amiloride- and benzamil-sensitive short circuit current (I[subscript]sc), suggesting activity of the epithelial Na[superscript]+ channel, ENaC. When cultured in the presence of cholera toxin (Ctx), MCF10A cells exhibit greater amiloride sensitive I[subscript]sc at all time points tested, an effect that is not reduced with Ctx washout for 12 hours or by cytosolic pathways inhibitors. Ctx increases the abundance of both beta and gamma-ENaC in the apical membrane and increases its monoubiquitination but without changing total protein and mRNA levels. Additionally, Ctx increases the levels of both the phosphorylated and the nonphosphorylated forms of Nedd4-2, a ubiquitin-protein ligase that regulates ENaC degradation. The results reveal a novel mechanism in human mammary gland epithelia by which Ctx regulates ENaC-mediated Na[superscript]+ transport. The second project aim is to develop a protocol to isolate mammary gland epithelia for subsequent in vitro culture. Caprine (1[superscript]0CME) and bovine mammary epithelia (1[superscript]0BME) were isolated and cultured on permeable supports to study hormone- and neurotransmitter-sensitive ion transport. Both 1[superscript]0CME and 1[superscript]0BME cells were passed for multiple subcultures and all passages formed electrically tight barriers. 1[superscript]0CME were cultured in the presence of hydrocortisone and exhibited high electrical resistance and amiloride-sensitive I[subscript]sc, suggesting the presence of ENaC-mediated Na[superscript]+ transport. 1[superscript]0BME were grown in a complex media in the presence or absence of dexamethasone. In contrast to 1[superscript]0CME, 1[superscript]0BME exhibited no detectable amiloride-sensitive I[subscript]sc in either culture condition. However, 1[superscript]0BME monolayers responded to an adrenergic agonist, norepinephrine, and a cholinergic agonist, carbamylcholine, with rapid increases in I[subscript]sc. Thus, this protocol for isolation and primary cell culture can be used for future studies that focus on mammary epithelial cell regulation and functions. In conclusion, the results from these projects demonstrate that mammary epithelial cells form electrically tight monolayers and can exhibit neurotransmitter- and/or hormone-induced net ion transport. The mechanisms that regulate Na[superscript]+ transport across mammary gland may provide clues to prevent or treat mastitis.

Epithelial sodium channel (ENaC)

Sodium transport

Mamamry epithelia

Cholera toxin

Short circuit current Isc

Physiology (0719)