Jayne L. Brookman

Glucoamylase : green fluorescent protein fusions to monitor protein secretion in Aspergillus niger

A glucoamylase::green fluorescent protein fusion (GLA::sGFP) was constructed which allows the green fluorescent protein to be used as an in vivo reporter of protein secretion in Aspergillus niger. Two secretory fusions were designed for secretion of GLA::sGFP which employed slightly different lengths of the glucoamylase protein (GLA499 and GLA514). Expression of GLA::sGFP revealed that fluorescence was localized in the hyphal cell walls and septa, and that fluorescence was most intense at hyphal apices. Extracellular GLA::sGFP was detectable by Western blotting only in the supernatant of young cultures grown in soya milk medium. In older cultures, acidification of the medium and induction of proteases were probably responsible for the loss of extracellular and cell wall fluorescence and the inability to detect GLA::sGFP by Western analysis. A strain containing the GLA::sGFP construct was subjected to UV mutagenesis and survivors screened for mutations in the general secretory pathway. Three mutants were isolated that were unable to form a halo on either starch or gelatin medium. All three mutants grew poorly compared to the parental strain. Fluorescence microscopy revealed that for two of the mutants, GLA::sGFP accumulated intracellularly with no evidence of wall fluorescence, whereas for the third mutant, wall fluorescence was observed with no evidence of intracellular accumulation. These results indicate that the GLA::sGFP fusion constructs can be used as convenient fluorescent markers to study the dynamics of protein secretion in vivo and as a tool in the isolation of mutants in the general secretory pathway.

Identification and characterization of anaerobic gut fungi using molecular methodologies based on ribosomal ITS1 and 18S rRNA.

The gut fungi are an unusual group of zoosporic fungi occupying a unique ecological niche, the anaerobic environment of the rumen. They exhibit two basic forms, with nuclear migration throughout the hyphal mass for polycentric species and with concentration of nuclear material in a zoosporangium for monocentric species. Differentiation between isolates of these fungi is difficult using conventional techniques. In this study, DNA-based methodologies were used to examine the relationships within and between two genera of monocentric gut fungi gathered from various geographical locations and host animals. The ribosomal ITS1 sequence from 16 mono- and 4 polycentric isolates was PCR-amplified and sequenced; the sequences obtained were aligned with published sequences and phylogenetic analyses were performed. These analyses clearly differentiate between the two genera and reflect the previously published physiological conclusions that Neocallimastix spp. constitute a more closely related genus than the relatively divergent genus Piromyces. The analyses place two type species N. frontalis and N. hurleyensis together but, contrary to a recent suggestion in the literature, place them apart from the other agreed species N. patriciarum. In situ hybridization and slot-blotting were investigated as potential methods for detection of and differentiation between monocentric gut fungi. DNA slot-blot analysis using ribosomal sequences is able to differentiate between gut fungal genera and thus has considerable potential for use in ecological studies of these organisms.

Molecular genetics in Aspergillus fumigatus

Manipulation of the genome of the human pathogen Aspergillus fumigatus is not well developed. Approaches and data from related model organisms are being used to develop molecular genetic systems in A. fumigatus; for example, the molecular typing of strains during infection. A genome-sequencing programme has begun and will form the basis for future development.

Epitope mapping of monoclonal antibodies by mass spectrometry : Identification of protein antigens in complex biological systems

We describe the application of immunoaffinity extraction and mass spectrometry to the analysis of Ty1 Gag protein in lysates of Saccharomyces cerevisiae. A magnetic bead-conjugated monoclonal antibody was used to achieve selective extraction, the specificity of which was established by matrix-assisted laser desorption/ionization mass spectrometric (MS) analysis of an extract of the lysate of cells overexpressing the Ty1 Gag protein. MS analysis of similar extracts of lysates following tryptic hydrolysis confirmed selective extraction of the epitope-containing peptide fragment. Sufficient sensitivity was achieved to allow the application of this approach to the analysis of lysates of wild-type cells. Furthermore, the sequence of the epitope-containing peptide was confirmed by electrospray-tandem MS. To our knowledge, this constitutes the first report of the application of immunoaffinity extraction and tandem MS analysis to the characterization of an antigen recovered from a complex cellular system.

Anaerobic fungal populations

Brookman, J. L., Nicholson, M. J. (2005). Molecular fingerprinting techniques for genotypic analysis of pure cultures and microbial communities. In, Methods of Gut Microbial Ecology for Ruminants, Makkar, H. P. S. McSweeney, C. S. (Eds), ISBN:1402037902, pp. 139-150

Identification of a novel class of annexin genes

The annexins are a family of calcium‐ and phospholipid‐binding proteins that have been widely studied in animals. Investigation of annexins in the fungus Aspergillus fumigatus identified a novel annexin‐like gene (ANXC4) as well as two conventional annexins (ANXC3.1 and ANXC3.2). The genes were initially identified by bioinformatics, and sequences were then determined experimentally. Reverse transcription polymerase chain reaction indicated that all three genes were expressed. ANXC4 lacked calcium‐binding consensus sequences and had a 553 residue N‐terminal tail. However, bioinformatics indicated that ANXC4 is an annexin and homologues were identified in other filamentous fungi. ANXC4 therefore represents a new grouping within the annexin family.