A/a incompatibility in Neurospora crassa : novel suppressors and nuclear incompatibility

Vellani, Trina Sehar

January 1991

The sexual functions of the mating type gene (mt) of Neurospora crassa include specification of mating identity (Shear and Dodge, 1927) and perithecial maturation (Griffiths and DeLange, 1978; Staben and Yanofsky, 1990). The gene also acts as a vegetative incompatibility locus, so that A + a heterokaryons (Beadle and Coonradt, 1944) or A/a duplication strains (Newmeyer and Taylor, 1967) grow poorly or not at all. An intriguing question regarding the mating type gene is this: How does it control both the switch between somatic and meiotic events and heterokaryon incompatibility? Several research groups (Glass, et al., 1990; Staben and Yanofsky, 1990) are presently studying the sexual functions of the mating type genes. I present a study of the incompatibility function. Two experiments were performed. The first was a search for new suppressors of mating type-associated incompatibility, which resulted in the identification of seven new suppressors, none of which was allelic with the one known suppressor, tol. The second was the comparison of growth rates of a mating type mutant (fertile, heterokaryon compatible) in a mixed mating type heterokaryon and in a mixed mating type duplication to determine whether or not cytoplasmic incompatibility is separable from nuclear incompatibility. The results obtained suggest that the mating type mutant, am33, eliminates heterokaryon incompatibility without eliminating nuclear incompatibility. The search for suppressors was attempted in order to define more of the genes involved in A/a incompatibility. The analysis of heterokaryon versus nuclear incompatibility was done to investigate the cellular interactions involved in A/a incompatibility. / Science, Faculty of / Botany, Department of / Graduate

Mating

Genes

Sex

Cytoplasmic

Incompatibility

Heterokaryon

Mold

Effects of Early Spring and Preventative Snow Mold Fungicide Applications on DMI Sensitive and Insensitive Populations of Sclerotinia Homoeocarpa

Seaman, Marvin D

18 March 2015

Dollar spot, caused by the pathogen S. homoeocarpa (F.T. Bennett), is a common disease that infects a wide variety of turfgrasses all over the world. Yet it is significant problem on golf course putting greens and fairways consisting of creeping bentgrass (Agrostis stolonifera L.) and annual bluegrass (Poa annua L.). It is active in a wide variety of environmental conditions ranging from 16-30˚C but favors warm, humid days, followed by cool nights. Sclerotinia homoeocarpa overwinters as dormant mycelium in dead plant tissue. In the spring, germinating mycelia begin to infect leaf blades causing foliar lesions, which then spread via mycelium by means of wind, rain, animals and equipment. While there are a number of cultural practices that can reduce disease severity, frequent fungicide applications are required to maintain acceptable playing conditions on a golf course. The repeated use of fungicides with the same mode of action has led to the development of fungicide resistance of S. homoeocarpa to certain fungicide classes. Most notably, demethylase inhibitor (DMI) fungicides have been found to have varying levels of inefficacy against S. homoeocarpa across North America. The cause for reduced efficacy is suspected to the shifted sensitivity levels of many S. homoeocarpa populations, which are resulted from repeated use of the DMI fungicide. Recently, “early-spring fungicide applications” targeting to reduce initial inoculum density of dollar spot have gained popularity in an attempt to reduce dollar spot severity. In addition, preventative fungicide applications (from late October through mid-November) containing DMI fungicides have been traditionally practiced to target snow molds (caused by Microdochium nivale, Typhula spp.) in the northeastern United States. To date, there is not a clear understanding as to what effect, if any, these applications have on S. homoeocarpa DMI sensitivity or residual dollar spot control the following year. Traditional preventative snow mold applications were also investigated on the effect of S. homoeocarpa DMI sensitivity and early-season dollar spot control. The objective of this study was to investigate the effect of early-spring dollar spot application and late-fall snow mold application on S. homoeocarpa population with a bimodal distribution of DMI sensitive and insensitive isolates.

dollar spot

snow mold

early spring

Agriculture

Optimalizace technologie výroby plastového uzávěru tuby / Optimization of production technology for plastic cap tube

Majerčíková, Erika

January 2014

This thesis deals with the optimization of the production technology of the cap tube made by injection molding. Series production is set at 5 000 000 units per year; the minimum time of the production is 5 years. A literary study is developed, focusing on the technology of injection molding in molds including the possibilities of the optimization of the production by changing the structure of the mold. The practical part of the thesis is devoted to the optimization of existing mold with cold runner system for the production of the cap tube, using the hot runner system supplied by Synventive. The change of the structure of the mold involves changing the three plate mold to a two plate mold. It is about changing the fixed part of the mold in which the hot runner system is placed; it is composed of standards parts of the company HASCO. Based on the technological parameters the injection machine Krauss Maffei KM 80-380 CX is chosen. There is a technical-economical evaluation of the optimization of the production by using the hot runner system at the end of the thesis.

Návrh technologie výroby plastového krytu vrtačky / Design of manufacturing technology for the plastic cover of a drill

Hovad, Jan

January 2014

This thesis contains literary studies about plastics and injection of plastics including tools for the injection. Practical part of the thesis is focused on design manufacturing of plastic cover of drill. Manufacturing parameters, design construction of injection form, selected injection machine and technical economic evaluation are solved within the manufacturing proposal.

Multisystem Effects of Mold Inhalation: A Convergence on the Central Nervous System

Ladd, Thatcher Bondi

08 1900

Indiana University-Purdue University Indianapolis (IUPUI) / With urbanization, indoor exposure to microbial communities has changed significantly. While indoor bacterial exposure has decreased, indoor fungal exposure has increased. Along with increases in fungal species diversity, indoor air in urbanized countries is characterized by 1,000+ fold differences in mold spore density between buildings. Americans are estimated to spend ~87% of their lives in this new indoor environment, where airborne spore concentrations are unregulated. While the effects of mold exposure on certain respiratory diseases are well established, little is known about how inhaled mold affects extra-respiratory disease. Mold exposure is associated with central nervous system (CNS) symptoms in humans, but very little is known about how mold affects the CNS. Here, I show that subchronic inhalation of a common indoor mold, Aspergillus versicolor, causes neuroinflammatory gene transcription in five out of five brain regions tested, at both 1 and 2 days post inhalation. How peripheral inflammation from mold inhalation causes neuroinflammation is unknown. The mechanisms by which mold is inhaled and cleared implicate the lung, systemic circulation, and gastrointestinal tract as potential areas of immune response. After mold spores are inhaled and deposited in the lung, they are killed by antifungal immunity, cleared from the lung by the mucociliary escalator, swallowed, and excreted through the gastrointestinal tract. Molds produce many mycotoxins which enter enterohepatic recirculation with known toxic effects, including intestinal epithelial disruption. Mycotoxin concentrations in food are regulated in countries comprising ~85% of the world’s population. Inhaled molds produce these same mycotoxins, yet pulmonary exposure is unregulated. The multi-system effects of fungal exposure are poorly understood, and are part of a growing nascent field. Here, I discuss the current state of the indoor fungal environment, known health effects of mold exposure, how fungi activate the immune system, the CNS effects of a common indoor mold, how neuroinflammation from mold exposure might be occurring, future work needed for the systematic analysis of the CNS effects of mold, what is needed to determine the extent to which fungal exposure influences disease, and what might be done to mitigate those effects. / 2022-08-17

Brain

Fungi

Indoor air

Lung

Mold

Neuroinflammation

Design and Manufacture of Molding Compounds for High Reliability Microelectronics in Extreme Conditions

Garcia, Andres

12 1900

The widespread use of electronics in more avenues of consumer use is increasing. Applications range from medical instrumentation that directly can affect someone's life, down hole sensors for oil and gas, aerospace, aeronautics, and automotive electronics. The increased power density and harsh environment makes the reliability of the packaging a vital part of the reliability of the device. The increased importance of analog devices in these applications, their high voltage and high temperature resilience is resulting in challenges that have not been dealt with before. In particular packaging where insulative properties are vital use polymer resins modified by ceramic fillers. The distinct dielectric properties of the resin and the filler result in charge storage and release of the polarization currents in the composite that have had unpredictable consequences on reliability. The objective of this effort is therefore to investigate a technique that can be used to measure the polarization in filled polymer resins and evaluate reliable molding compounds. A valuable approach to measure polarization in polymers where charge release is tied to the glass transition in the polymer is referred to as thermally stimulated depolarization current (TSDC) technique. In this dissertation a new TSDC measurement system was designed and fabricated. The instrument is an assembly of several components that are automated via a LabVIEW program that gives the user flexibility to test different dielectric compounds at high temperatures and high voltage. The temperature control is enabled through the use of dry air convection heating at a very slow rate enabling controlled heating and cooling. Charge trapping and de-trapping processes were investigated in order to obtain information on insulating polymeric composites and how to optimize it. A number of material properties were investigated. First, polarization due to charges on the filer were investigated using composites containing charged and uncharged particles using quartz and ion exchange montmorillonite silicates in an epoxy matrix. The thermally-activated charge release shows a difference in the composite characteristics and preparation. This difference indicates that the trap levels depend on the de-trapping process and on the chemical nature of the trap site. Using a numerical approach to the release spectra, a model was developed to examine through short time testing, important parameters such as glass transition temperature, residual polarization, depolarization peak, window polarization modeling and activation energy of relaxations. Second the design of mold compounds that could combine manufacturing (temperature of molding), geometric (thickness of packaging material), composition (amount and size of filler) effects was developed using a novel design of experiments approach. The statistical DOE enabled the determination of which causes should be considered when designing a mold compound that has minimal polarization both as singular variables as well as combined variables. Finally, the DOE approach was used to develop a high temperature reliable molding compound through use of combined fillers of thermally conductive and nonconductive fillers having different shapes. Through the systematic approach to developing a technique and designing a mold compound addressing the multiple impacts on reliability of packaging, the dissertation provides an approach to the design, selection, performance and durability of molding compounds.

Dielectrics

insulators

polarization

mold compounds

design of experiments

Mold Induced Asthma: Not all Molds are Created Equal

Mintz-Cole, Rachael A.

January 2012

No description available.

Immunology

Cladosporium cladosporioides

Aspergillus versicolor

mold

asthma

Modeling and experimental verification of pressure prediction in the in-mold coating process for thermoplastic substrates

Bhagavatula, Narayan L.

14 July 2006

No description available.

In-Mold coating

flow simulation

control volume

Indicators of Mold Growth in Indoor Environments

Vice, Scott Jackson

18 September 2000

The following investigation stems from the idea of using metabolic byproducts produced by mold as indicators of its presence in indoor environments in place of investigating airborne fungi by traditional particulate sampling techniques. VOCs and carbon dioxide are both examined in order to evaluate their usefulness as possible metabolic indicators of mold growth. A specially designed purge and trap laboratory setup was built and operated for the study of molds growing on specific media. Key variables for the operation of the apparatus include sampling time and sampling flow rate as well as other environmental conditions such as temperature. Carbon dioxide serves as a good marker for fungal activity, but is difficult to attribute to mold growth when studying non-closed loop systems. Many VOCs were collected but detection limits were often too high for the quantities collected. / Master of Science

VOCs

air

CO2

mold

pollution

indoor

fungi

Návrh technologie výroby závitové koncovky z plastu / Technology design manufacturing threaded plastic ends

Vrátný, Martin

January 2017

This diploma thesis submits a proposal of technology design manufacturing threaded plastic ends. In the first part it deals with literary studies of plastics and plastic injection molding. In the second part is the design of an injection form for the specified component. Part of the practical part is also the right choice of material and the injection mold, which was designed based on the calculations of technological parameters. In the conclusion of this thesis is technical economic evaluation.