Live Chat
Today's Hours: 8:00am - 10:00pm
Lane Medical Library

Search

Filter Results

Did You Mean:

Search Results

Sort by
relevance
  • Book
    Summary: "The advent of nanotechnology has unleashed enormous prospects for the development of new products and applications for a wide range of industrial and consumer sectors. The new technological developments have already opened up a multibillion dollar industry in recent years, the global market impact of which is expected to reach US$1 trillion by 2015, with around 2 million workers. While the majority of manufacturing and use of nanoscale materials occurs in the United States, the European Union, with its around 30 percent global share of the sector, is not lagging far behind in this field. Like other sectors, nanotechnology promises to revolutionize the whole food chain--from production to processing, storage, and development of innovative materials, products and applications. Although the potential applications of nanotechnoloy are wide ranging, the current applications in the food and agricultural sectors are relatively few, because the science is still newly emergent. An overview of more than 800 nanotechnology-based consumer products that are currently available worldwide, suggests that only around 10 percent of these are foods, beverages and food packaging products. However, nanotechnology-derived products and applications in these sectors have been steadily increasing in recent years, and are predicted to grow rapidly in the future. This is because the new technologies have a great potential to address many of the industry's current needs." - p. 3
    Digital Access WHO 2010
    Print Access Request
    Location
    Version
    Call Number
    Items
    Books: General Collection (Downstairs)
    2010
    RA601 .F36 2010
    1
  • Article
    Wulf E, Deboben A, Bautz FA, Faulstich H, Wieland T.
    Proc Natl Acad Sci U S A. 1979 Sep;76(9):4498-502.
    A fluorescent derivative of phalloidin has been synthesized possessing high affinity to filamentous actin. This compound was used for visualization of actin-containing structures in eukaryotic nonmuscle cells. Due to its low molecular weight (1250), fixation for formaldehyde was sufficient to render the membrane permeable for the labeled peptide. Bundles of microfilaments are the predominant pattern in the flat rat kangaroo PtK1 cells, whereas a net of concentric fibers characterizes the more spherical bovine kidney MDBK cells. Specificity of staining was confirmed by competition experiments with unlabeled phalloidin.
    Digital Access Access Options