Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453935
Funder
Australian Research Council
Funding Amount
$220,106.00
Summary
Multi-Scale Fermentation Facility for Beverage Research. Australia's largest concentration of beverage fermentation research effort and infrastructure is arguably represented by the University of Adelaide and partners at the Waite Campus, particularly The Australian Wine Research Institute and Provisor Pty Ltd. This cluster seeks to establish an integrated, jointly managed, Multi-Scale Fermentation Facility for Beverage Research. This Facility will address critical shortages in fermentation capa ....Multi-Scale Fermentation Facility for Beverage Research. Australia's largest concentration of beverage fermentation research effort and infrastructure is arguably represented by the University of Adelaide and partners at the Waite Campus, particularly The Australian Wine Research Institute and Provisor Pty Ltd. This cluster seeks to establish an integrated, jointly managed, Multi-Scale Fermentation Facility for Beverage Research. This Facility will address critical shortages in fermentation capacity for research (volumes between 1 ml and 1000 L), offer a vertically integrated system to facilitate step-wise scale-up, allow more accurate modelling of industrial fermentations, enable greater adoption of high-throughput formats and technologies, and achieve enhanced productivity through increased system automation.Read moreRead less
Genetic and environmental basis for endosperm hardness in malting barley. Barleys with a hard endosperm do not malt as well as other barleys, leading to under-modified malt. While malts may appear to be satisfactory by bulk chemical analysis, even relatively small amounts of under-modified malt causes problems in the brewing industry, such as slow filtration rates and increasing haze formation. We aim to examine two new procedures potentially useful in determining heterogeneity in barley hardn ....Genetic and environmental basis for endosperm hardness in malting barley. Barleys with a hard endosperm do not malt as well as other barleys, leading to under-modified malt. While malts may appear to be satisfactory by bulk chemical analysis, even relatively small amounts of under-modified malt causes problems in the brewing industry, such as slow filtration rates and increasing haze formation. We aim to examine two new procedures potentially useful in determining heterogeneity in barley hardness by examining single kernels, and investigating the role of barley variety and growing conditions on hardness.This project will aid in the production and selection of more uniform barleys for the malting and brewing industries.Read moreRead less
The microbiology and biotechnology of rum production. Rum is an alcoholic beverage produced by microbial fermentation of molasses waste from the sugar industry. The microbial species responsible for the process determine rum flavour and quality by production of specific aroma compounds. The rate and extent of fermentation determine process efficiency. Several yeast and bacterial species contribute to rum fermentation but this ecology is poorly defined. Through a combination of ecological stu ....The microbiology and biotechnology of rum production. Rum is an alcoholic beverage produced by microbial fermentation of molasses waste from the sugar industry. The microbial species responsible for the process determine rum flavour and quality by production of specific aroma compounds. The rate and extent of fermentation determine process efficiency. Several yeast and bacterial species contribute to rum fermentation but this ecology is poorly defined. Through a combination of ecological studies, controlled fermentations and distillation, chemical and sensory analyses, this project will determine the impact of particular microbial species on rum flavour and process efficiency. This information will be used by the industrial partner to enchance product quality and process efficiency.Read moreRead less
Assuring the microbial safety and quality of Australian malt and barley. This project aims to ensure that Australian malt and barley is 'clean' and free of undesirable micro-organisms that may produce mycotoxins and factors that impact on brewing efficiency and beer quality. The project will determine what is the typical microbial composition and load of Australian malt and barley grown in different environments and areas benchmarked against malting barley and malt grown internationally. A set ....Assuring the microbial safety and quality of Australian malt and barley. This project aims to ensure that Australian malt and barley is 'clean' and free of undesirable micro-organisms that may produce mycotoxins and factors that impact on brewing efficiency and beer quality. The project will determine what is the typical microbial composition and load of Australian malt and barley grown in different environments and areas benchmarked against malting barley and malt grown internationally. A set of diagnostic tools are expected to be developed. The successful execution of the project is expected to highlight that Australian malt and barley is of high quality so that the health of domestic customers is ensured and it attracts a premium from our export customers.Read moreRead less
The role of redox balance and reactive oxygen species in beer stability using an integrated transcriptomic and metabolomic analysis. A better understanding of yeast redox balance will enable it to be used to predict fermentation outcomes and to link raw materials and processes to the quality of the final product. These data will produce economies in the brewing industry by the introduction of quality control regimes for raw materials and can be extrapolated to the wine industry. This will prov ....The role of redox balance and reactive oxygen species in beer stability using an integrated transcriptomic and metabolomic analysis. A better understanding of yeast redox balance will enable it to be used to predict fermentation outcomes and to link raw materials and processes to the quality of the final product. These data will produce economies in the brewing industry by the introduction of quality control regimes for raw materials and can be extrapolated to the wine industry. This will provide real economic advantage to Carlton and United Breweries which is an Australian company that has an international profile within a highly competitive industry.Read moreRead less
Application of functional genomics to study early fermentation parameters and flavour development in industrial fermentations. The aim of this research is to use genome-wide analyses to identify yeast genes involved in flavour compound production in order to manipulate the flavour profiles of industrial fermentations. This will identify those metabolic pathways and cellular processes that are important in the maintenance of flavour production during fermentation and give extensive insight into t ....Application of functional genomics to study early fermentation parameters and flavour development in industrial fermentations. The aim of this research is to use genome-wide analyses to identify yeast genes involved in flavour compound production in order to manipulate the flavour profiles of industrial fermentations. This will identify those metabolic pathways and cellular processes that are important in the maintenance of flavour production during fermentation and give extensive insight into the way metabolism changes during the fermentation process. Flavour is a major component of the product of fermented beverages and its development and maintenance in the finished product is of primary concern to the brewing and wine industries. This research will lead to a more competitive Australian-owned company with a major stake in the beer and wine industry.Read moreRead less
Exploiting novel yeast attributes to produce industrial strains with better fermentative and processing qualities. Food and beverage fermentations are problematic processes, largely due to limitations of the yeast being used. This laboratory has indentified in individual yeast strains highly desirable fermentative characteristics or else the ability to over-produce compounds that benefit product processing. Pursuing the commercial potential of these findings is the specific objective of this pro ....Exploiting novel yeast attributes to produce industrial strains with better fermentative and processing qualities. Food and beverage fermentations are problematic processes, largely due to limitations of the yeast being used. This laboratory has indentified in individual yeast strains highly desirable fermentative characteristics or else the ability to over-produce compounds that benefit product processing. Pursuing the commercial potential of these findings is the specific objective of this proposal. Thus we will extend our collaboration with Coopers Brewery through this new project area with the aims of a) producing optimised, hybrid (non-GMO) strains with combinations of desirable fermentation properties, b) develop novel processing or quality-enhancing treatments while c) generating a high caliber PhD graduate with extensive industry experience.Read moreRead less
Evaluation of High-Power Ultrasound as an Innovative Tool for Sanitation, Colour/Flavour Extraction and Fermentation Enhancement in Wine Making. The multibillion-dollar wine industry forms a significant part of the Australian economy especially in regional areas. The application of high power ultrasound (HPU) to the cleaning and disinfection of wine barrels as well as for the enhancement of wine through improved fermentation and extraction of flavours and colours from grapes will have significan ....Evaluation of High-Power Ultrasound as an Innovative Tool for Sanitation, Colour/Flavour Extraction and Fermentation Enhancement in Wine Making. The multibillion-dollar wine industry forms a significant part of the Australian economy especially in regional areas. The application of high power ultrasound (HPU) to the cleaning and disinfection of wine barrels as well as for the enhancement of wine through improved fermentation and extraction of flavours and colours from grapes will have significant benefits to this industry. It is essential that Australia also capitalise on the benefits that this technology can provide in improved processing and products, lower costs, reduction in environmental pollution, water re-use and replacement of "dirty" energy. In this way the impact on this industry will help cement Australia's position in the world wine market long into the future.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347746
Funder
Australian Research Council
Funding Amount
$199,000.00
Summary
Circular-dichroism stopped-flow spectrometer for rapid molecular interactions and membrane transport. A stopped-flow spectroscope is requested that can capture the rapid kinetics of changes in conformation of biopolymers, macromolecules and chiral catalysts as they interact with other molecules. This includes measurement of rapid transport of solutes through membrane proteins in lipid membranes. The versatile instrument can also determine circular dichroism spectra of peptides, proteins, tannins ....Circular-dichroism stopped-flow spectrometer for rapid molecular interactions and membrane transport. A stopped-flow spectroscope is requested that can capture the rapid kinetics of changes in conformation of biopolymers, macromolecules and chiral catalysts as they interact with other molecules. This includes measurement of rapid transport of solutes through membrane proteins in lipid membranes. The versatile instrument can also determine circular dichroism spectra of peptides, proteins, tannins, pigment complexes and chiral catalysts that is required within several existing collaborations to understand the tertiary structures, stability and interactions between the complex molecules. The instrument will significantly strengthen research on macromolecules and polymers that have applications in the wine industry, nanotechnology, and biotechnology.Read moreRead less
Role of mRNA polyadenylation control in gene expression. Several benefits would come from a more complete understanding of the function of the messenger RNA poly(A) tail. It is frequently targeted by mechanisms that control cellular protein synthesis. This is most evident in developmental biology, where tail length control regulates maternal mRNA expression. Our previous work suggests that it has much wider importance for cellular function than previously thought and thus its study will produce ....Role of mRNA polyadenylation control in gene expression. Several benefits would come from a more complete understanding of the function of the messenger RNA poly(A) tail. It is frequently targeted by mechanisms that control cellular protein synthesis. This is most evident in developmental biology, where tail length control regulates maternal mRNA expression. Our previous work suggests that it has much wider importance for cellular function than previously thought and thus its study will produce knowledge of broad relevance to modern life sciences and its applications in medicine and biotechnology. Finally, a better understanding of yeast cellular biology is of benefit to the food and biotechnology sector of industry.Read moreRead less