Proteins are likely to organize into complexes that assemble and disassemble depending on cellular needs. When Ϸ800 yeast strains expressing GFP-tagged proteins were grown to stationary phase, a surprising number of proteins involved in intermediary metabolism and stress response were observed to form punctate cytoplasmic foci. The formation of these discrete physical structures was confirmed by immunofluorescence and mass spectrometry of untagged proteins. The purine biosynthetic enzyme Ade4-GFP formed foci in the absence of adenine, and cycling between punctate and diffuse phenotypes could be controlled by adenine subtraction and addition. Similarly, glutamine synthetase (Gln1-GFP) foci cycled reversibly in the absence and presence of glucose. The structures were neither targeted for vacuolar or autophagosome degradation nor colocalized with P bodies or major organelles. Thus, upon nutrient depletion we observe widespread protein assemblies displaying nutrient-specific formation and dissolution.aggregation ͉ metabolism ͉ microscopy ͉ proteomics ͉ quiescence
A number of aptamers have been selected against cell surface biomarkers or against eukaryotic tissue culture cells themselves. To determine the general utility of aptamers for assessing the cell surface proteome, we developed a standardized flow cytometry assay and carried out a comprehensive study with 7 different aptamers and 14 different cell lines. By examining how aptamers performed with a variety of cell lines, we identified difficulties in using aptamers for cell typing. While there are some aptamers that show excellent correlation between cell surface binding and the expression of a biomarker on the cell surface, other aptamers showed nonspecific binding by flow cytometry. For example, it has recently been claimed that an anti-PTK7 (protein tyrosine kinase 7) aptamer identified a new biomarker for leukemia cells, but data with the additional cell lines shows that it is possible that the aptamer instead identifies a propensity for adherence. Better understanding and controlling for the role of background and nonspecific binding to cells should open the way to using arrays of aptamers for describing and quantifying the cell surface proteome.
Both scientists and the public would benefit from improved communication of basic scientific research and from integrating scientists into education outreach, but opportunities to support these efforts are limited. We have developed two low-cost programs—"Present Your PhD Thesis to a 12-Year-Old" and "Shadow a Scientist”—that combine training in science communication with outreach to area middle schools. We assessed the outcomes of these programs and found a 2-fold benefit: scientists improve their communication skills by explaining basic science research to a general audience, and students' enthusiasm for science and their scientific knowledge are increased. Here we present details about both programs, along with our assessment of them, and discuss the feasibility of exporting these programs to other universities.
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