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Post by aqt on Mar 25, 2010 17:09:12 GMT -5
Characteristic protein expression patterns are observable in individual cells, communities of cells, organs, and whole organisms. Importantly, there are detectable differences in the patterns of protein expression in healthy versus compromised systems. Biomarkers can be used to measure the characteristic and dynamic pattern of protein expression that reflects the state of biological systems. At Pacific Northwest National Laboratory (PNNL) we are exploring the potential of biomarkers for medical applications, risk assessment, and early detection of disease and damage. Scientists at PNNL are working to use biomarkers to detect cancers and diabetes, predict ecosystem change and damage, understand nanomaterial impact on respiratory health, and measure the response to zoonotic agents.
Disease Biomarkers
Is Morgellons our protein expression?
depending on genetics/antibodies?
Everyone gets the same exposure...only "some" can't integrate....or "won't" integrate depending on proteins expressed?...protein amyloid fibers...depending on protein expression?
and gene expression.....insects/spikes/worms/hexagons/glass/ect.....depending on genetic expression?
I think so.
aqt
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Post by aqt on Mar 25, 2010 17:45:03 GMT -5
gene expression gene expression The manifestation of the effects of a gene by the production of the particular protein, polypeptide, or type of RNA whose synthesis it controls. Individual genes can be ‘switched on’ (exert their effects) or ‘switched off’ according to the needs and circumstances of the cell at a particular time. A number of mechanisms are thought to be responsible for the control of gene expression; the Jacob–Monod hypothesis postulates the mechanism operating in prokaryotes (see operon). Control of gene expression is known to be more complicated in eukaryotes, which possess various control mechanisms not seen in prokaryotes. For example, the methylation of cytosine bases of specific genes in eukaryotic DNA is observed in cells in which the gene is not expressed; if DNA methylation is prevented by the use of inhibitory chemicals, this can cause certain genes to be expressed. In multicellular organisms, expression of the right genes in the right order at the right times is particularly crucial during embryonic development and cell differentiation. This involves subtle and complex interplay of chemical signals with the embryo's genes, in patterns that vary between different types of organism (see differentiation). Abnormalities of gene expression may result in the death of cells, or their uncontrolled growth, as in cancer. See also transcriptomics. www.encyclopedia.com/doc/1O6-geneexpression.html
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Post by aqt on Mar 25, 2010 17:52:07 GMT -5
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Post by aqt on Mar 25, 2010 17:55:07 GMT -5
content.nejm.org/cgi/content/short/351/20/2087Intermediate Filament Proteins and Their Associated Diseases The human genome contains at least 65 functional genes encoding intermediate filament proteins, placing them among the 100 largest gene families in humans.4 More than 30 diseases are related . . . [Full Text of this Article] aqt
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Post by aqt on Mar 25, 2010 18:04:21 GMT -5
Interacting-Protein–Related Diseases www.immortalhumans.com/incorrect-protein-folding/check out this crew....this is exactly what they are on about....HUMANKINDS DRIVE TOWARDS BIOLOGICAL IMMORTALITY all about protein misfolding...... interesting that a group who is striving for biological immortality is reading/posting information about misfolding of proteins....could these misfolded proteins be our fibers?
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