The ecology and pathogenicity of the lipophilic yeasts (Malassezia species) : a study in Dubai, United Arab Emirates

Deesi, Zulfa Omar

January 2006

No description available.

579.59

Investigation of the role of extracellular mucilaginous material (ECMM) in wood decay

Vesentini, Damiano

January 2004

No description available.

579.59

Submerged culture fermentation of the Basidiomycete fungus Ganoderma lucidum for biomass formation

Fazenda, Mariana L.

January 2009

The aim of the present study was to investigate a range of bioprocess strategies aimed at the achievement of maximum biomass yield in submerged cultivation of the Basidiomycete, Ganoderma lucidum. Although there had been previous studies into cultivation of G, lucidum, these had been almost exclusively centred round maximisation of the medically interesting polysaccharide, EPS. The present work is focused on the development of fermentation strategies to achieve this aim, which was a central interest of the sponsor. Additionally, to investigate the process physiology of these complex cultures to help improve the relatively poor, understanding of the bioprocessing of this Basidiomycete fungus and to understand the influence of process variables during submerged cultivation of G. lucidum on growth, polysaccharide production and substrate consumption.

579.59

Pooling and suppression in human spatial vision

Holmes, David J.

January 2003

A distinct feature of several recent models of contrast masking is that detecting mechanisms are divisively inhibited by a broadly tuned ‘gain pool’ of narrow-band spatial pattern mechanisms. The contrast gain control provided by this ‘cross-channel’ architecture achieves contrast normalisation of early pattern mechanisms, which is important for keeping them within the non-saturating part of their biological operating characteristic. These models superseded earlier ‘within-channel’ models, which had supposed that masking arose from direct stimulation of the detecting mechanism by the mask. To reveal the extent of masking, I measured the levels produced with large ranges of pattern spatial relationships that have not been explored before. Substantial interactions between channels tuned to different orientations and spatial frequencies were found. Differnces in the masking levels produced with single and multiple component mask patterns provided insights into the summation rules within the gain pool. A widely used cross-channel masking model was tested on these data and was found to perform poorly. The model was developed and a version in which liner summation was allowed between all components within the gain pool but with the exception of the self-suppressing route typically provided the best account of the data. Subsequently, an adaptation paradigm was used to probe the processes underlying pooled responses in masking. This delivered less insight into the pooling than the other studies and areas were identified that require investigation for a new unifying model of masking and adaptation. In further experiments, levels of cross-channel masking were found to be greatly influenced by the spatio-temporal tuning of the channels involved. Old masking experiments and ideas relying on within-channel models were re-elevated in terms of contemporary cross-channel models (e.g. estimations of channel bandwidths from orientation masking functions) and this led to different conclusions than those originally arrived at. The investigation of effects with spatio-temporally superimposed patterns is focussed upon throughout this work, though it is shown how these enquiries might be extended to investigate effects across spatial and temporal position.

579.59

Optometry

Cell surface analysis of the basidiomycete yeast cryptococcus neoformans

Foster, Alexander J.

January 2004

Cell surface properties of the basidiomycete yeast Cryptococcus neoformans were investigated with a combination of novel and well proven approaches. Non-specific cell adhesion forces, as well as exposed carbohydrate and protein moieties potentially associated with specific cellular interaction, were analysed. Experimentation and analysis employed cryptococcal cells of different strains, capsular status and culture age. Investigation of cellular charge by particulate microelectrophoresis revealed encapsulated yeast forms of C. neoformans manifest a distinctive negative charge regardless of the age of cells involved; in turn, the neutral charge of acapsulate yeasts confirmed that the polysaccharide capsule, and not the cell wall, was responsible for this occurrence. Hydrophobicity was measured by MATH and HICH techniques, as well as by the attachment of polystyrene microspheres. All three techniques, where applicable, found C. neoformans yeast to be consistently hydrophilic; this state varied little regardless of strain and culture age. Cell surface carbohydrates and protein were investigated with novel fluorescent tagging protocols, flow cytometry and confocal microscopy. Cell surface carbohydrate was identified by controlled oxidation in association with biotin hydrazide and fluorescein-streptavidin tagging. Marked amounts of carbohydrate were measured and observed on the cell wall surface of cryptococcal yeasts. Furthermore, tagging of carbohydrates with selective fluorescent lectins supported the identification, measurement and observation of substantial amounts of mannose, glucose and N-acetyl-glucosamine. Cryptococcal cell surface protein was identified using sulfo-NHS-biotin with fluorescein-streptavidin, and then readily quantified by flow cytometry.

579.59

Pharmacy ; Biological Sciences