Posts Tagged ‘Protein’
Last Updated on Sunday, 18 July 2010 07:45 Written by Administrator Sunday, 18 July 2010 07:45
Protein Blotting: Methodology, Research and Diagnostic Applications
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Tags: Applications, Blotting, Diagnostic, Methodology, Protein, Research | Posted under Western Blot Books | No Comments
Last Updated on Sunday, 18 July 2010 07:45 Written by Administrator Sunday, 18 July 2010 07:45
MAP2 and synaptophysin protein expression following motor learning suggests dynamic regulation and distinct alterations coinciding with synaptogenesis … from: Neurobiology of Learning and Memory]
This digital document is a journal article from Neurobiology of Learning and Memory, published by Elsevier in 2007. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
Learning a new motor skill can induce neuronal plasticity in rats. Within motor cortex, learning-induced plasticity includes dendritic reorganization, synaptogenesis, and changes in synapse morphology. Behavioral studies have demonstrated that learning requires protein synthesis. It is likely that some of the proteins synthesized during learning are involved in, or the result of, learning-induced structural plasticity. We predicted the expression of proteins involved in neural plasticity would be altered in a learning dependent fashion. Long-Evans rats were trained on a series of motor tasks that varied in complexity, so that the effects of activity could be teased apart from the effects of learning. The motor cortices were examined for MAP2 and synaptophysin protein using Western blotting and immunohistochemistry. Western blotting revealed that expression of MAP2 was not detectably influenced by learning, whereas synaptophysin expression increased on day 1, 3, and 5 of complex motor skill learning. Expression of MAP2 does not seem to indicate difficulty of task or duration of training time, whereas increases in synaptophysin expression, which appear diffusely across the cortex, seem to be correlated with the first 5 days of motor skill learning. Similar findings with GAP-43 suggest the change in synaptophysin may coincide with synapse formation. Immunohistochemistry did not reveal any localized changes in protein expression. These data indicate a difference in learning-induced expression in the mammalian brain compared to reports in the literature, which have often focused on stimulation to induce alterations in protein expression.
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Tags: alterations, coinciding, distinct, dynamic, expression, following, from, learning, MAP2, Memory, motor, Neurobiology, Protein, regulation, suggests, synaptogenesis, synaptophysin | Posted under Western Blot Books | No Comments
Last Updated on Sunday, 18 July 2010 07:44 Written by Administrator Sunday, 18 July 2010 07:44
Making my first effort on uploading a video, just to see whether the thing works. It is part of a series of short videos clips I have recorded on how to perform Western blotting for protein determination and quantification.
Video Rating: 4 / 5
Tags: Blotting, perform, Protein, transfer, Western | Posted under Western Blot Videos | 3 Comments
Last Updated on Sunday, 18 July 2010 07:44 Written by Administrator Sunday, 18 July 2010 07:44
Western blot detection of brain material in heated meat products using myelin basic protein and neuron-specific enolase as biomarkers [An article from: Analytica Chimica Acta]
This digital document is a journal article from Analytica Chimica Acta, published by Elsevier in 2004. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
An assay based on Western blotting and detection of central nervous system (CNS)-specific antigens was developed to detect brain tissue in processed (heated) meat products. Bands of antigen-bound primary antibodies were visualised through secondary anti-antibodies labelled with peroxidase, which generated chemiluminescence documented by a photographic film. Ponceau-S staining before antibody incubation and molecular mass information on detected antigens after immunoreactions added information supporting correct identification of brain tissue in the meat products. In this approach B50/growth-associated protein (B50), glial fibrillary acidic protein (GFAP), myelin basic protein (MBP), neurofilament (NF), neuron-specific enolase (NSE) and synaptophysin (Syn) proteins were detected in raw luncheon meat and a liver product enriched with brain tissue at a level of 5% (m/m). Only MBP and NSE were considered suitable biomarkers for detection of 1% (m/m) brain tissue in meat products pasteurised at 70^oC or sterilised at 115^oC. The use of an anti-monkey MBP instead of anti-human MBP enabled speciation of the CNS material whether from bovine and ovine brains or from porcine brain tissue. This immunoblot assay potentiates the analysis of approximately 70 samples within 8h, including sample preparation and the simultaneous probing of NSE and MBP target antigens.
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Price: $ 8.95