Sökning: "Industrial Validation"
Visar resultat 1 - 5 av 185 avhandlingar innehållade orden Industrial Validation.
1. Protein microarrays for validation of affinity binders
Sammanfattning : Is specificity an important issue regarding affinity reagents? What about the validation of affinity reagents today, is it good enough? This depends on the application and the producer of the reagent. Validation should be the most important marketing argument that can be found. LÄS MER
2. Genetic Traits Beneficial for Xylose Utilization by Recombinant Saccharomyces cerevisiae
Sammanfattning : Saccharomyces cerevisiae ferments hexoses in lignocellulosic hydrolysates under anaerobic conditions with high rates and ethanol yields. However, S. cerevisiae is naturally unable to utilize the pentose fraction of the hydrolysates. Xylose is the most abundant pentose sugar, and although recombinant S. LÄS MER
3. Detection and Characterisation of Salmonella in Animal Feed Samples by PCR-Based Methods
Sammanfattning : Animal feed is a recognised source of Salmonella enterica for farm livestock and may also indirectly cause infection in people consuming foods of animal origin. It is therefore important to have rapid, reproducible and specific methods for the detection of Salmonella in feed, and for the characterisation of strains for further epidemiological investigations or to trace the source of contamination in a production facility. LÄS MER
4. Non-linear model applied on composites exhibiting inelastic behavior: development and validation
Sammanfattning : The polymeric composite materials are in high demand by industries where light and strong materials are required. Although manmade fiber (e.g. glass, carbon, aramid fibers) are most often used to reinforce polymers, natural fibers due to their environmental friendliness and sustainability have been also considered. LÄS MER
5. Understanding and improving microbial cell factories through Large Scale Data-approaches
Sammanfattning : Since the advent of high-throughput genome sequencing methods in the mid-2000s, molecular biology has rapidly transitioned towards data-intensive science. Recent technological developments have increased the accessibility of omics experiments by decreasing the cost, while the concurrent design of new algorithms have improved the computational work-flow needed to analyse the large datasets generated. LÄS MER