Results 351 to 360 of about 907,938 (379)
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2007
Microarray technology provides new analytical devices that allow the parallel and simultaneous detection of several thousands of probes within one sample. Microarrays, sometimes called DNA chips, are widely used in gene-expression analysis, genotyping of individuals, analysis of point mutations and single nucleotide polymorphisms (SNP) as well as other
Frank F, Bier +6 more
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Microarray technology provides new analytical devices that allow the parallel and simultaneous detection of several thousands of probes within one sample. Microarrays, sometimes called DNA chips, are widely used in gene-expression analysis, genotyping of individuals, analysis of point mutations and single nucleotide polymorphisms (SNP) as well as other
Frank F, Bier +6 more
openaire +2 more sources
Applied Physiology, Nutrition, and Metabolism, 2008
Adaptations that are the result of exercise require a multitude of changes at the level of gene expression. The mechanisms involved in regulating these changes are many, and can occur at various points in the pathways that affect gene expression. The completion of the human genome sequence, along with the genomes of related species, has provided an ...
Carl, Virtanen, Mark, Takahashi
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Adaptations that are the result of exercise require a multitude of changes at the level of gene expression. The mechanisms involved in regulating these changes are many, and can occur at various points in the pathways that affect gene expression. The completion of the human genome sequence, along with the genomes of related species, has provided an ...
Carl, Virtanen, Mark, Takahashi
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Photoimmobilization for Microarrays
Biotechnology Progress, 2006A photoimmobilization method has been developed for the preparation of microarray biochips. This photoimmobilization method makes it possible to easily covalently immobilize various types of organic molecules and cells on a chip. In addition, by using hydrophilic polymers as matrixes, it is possible to reduce nonspecific interactions with biological ...
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Cold Spring Harbor Protocols, 2019
Most laboratories will choose to order microarrays from a commercial vendor; however, microarray printing is sufficiently straightforward that even small laboratories with extensive microarray needs may find it cost-effective and worth the effort to produce their own microarrays. Printing microarrays requires a spotting robot.
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Most laboratories will choose to order microarrays from a commercial vendor; however, microarray printing is sufficiently straightforward that even small laboratories with extensive microarray needs may find it cost-effective and worth the effort to produce their own microarrays. Printing microarrays requires a spotting robot.
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2011
Glycan microarrays are presentations of multiple glycans or glycoconjugates printed on a single slide for screening with glycan-binding proteins (GBPs), which include lectins, antibodies, bacteria, and viruses. Glycans derivatized with functional groups can be immobilized onto appropriately activated glass slides to generate glycan microarrays where ...
Xuezheng, Song +3 more
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Glycan microarrays are presentations of multiple glycans or glycoconjugates printed on a single slide for screening with glycan-binding proteins (GBPs), which include lectins, antibodies, bacteria, and viruses. Glycans derivatized with functional groups can be immobilized onto appropriately activated glass slides to generate glycan microarrays where ...
Xuezheng, Song +3 more
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Current Protocols in Protein Science, 2005
AbstractWith the introduction of DNA microarrays as novel analytical tools, the determination of thousands of binding events in one reaction became possible. The developed technology platforms are not limited to nucleic acids, and, in principle, every ligand‐binding assay that works on solid phase can be miniaturized and brought into an array format ...
Stefan, Kramer +2 more
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AbstractWith the introduction of DNA microarrays as novel analytical tools, the determination of thousands of binding events in one reaction became possible. The developed technology platforms are not limited to nucleic acids, and, in principle, every ligand‐binding assay that works on solid phase can be miniaturized and brought into an array format ...
Stefan, Kramer +2 more
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Nephron Physiology, 2005
Until recently, diagnostic and prognostic assessment of diseased tissues in a Pathology laboratory relied on histological and immunohistological studies. DNA microarray technology now allows the simultaneous analysis of up to thousands of different genes in histological or cytological specimens.
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Until recently, diagnostic and prognostic assessment of diseased tissues in a Pathology laboratory relied on histological and immunohistological studies. DNA microarray technology now allows the simultaneous analysis of up to thousands of different genes in histological or cytological specimens.
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2007
Microarrays and related technologies have allowed investigators to ask biological questions in far greater detail than has previously been possible. Microarrays had a troubled beginning, but most of these problems resulted from the growing pains of this technology, which, like many new things, was initially more promise than delivery.
Grier P, Page +5 more
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Microarrays and related technologies have allowed investigators to ask biological questions in far greater detail than has previously been possible. Microarrays had a troubled beginning, but most of these problems resulted from the growing pains of this technology, which, like many new things, was initially more promise than delivery.
Grier P, Page +5 more
openaire +2 more sources
2007
DNA microarray technology has become a powerful tool in the arsenal of the molecular biologist. Capitalizing on high precision robotics and the wealth of DNA sequences annotated from the genomes of a large number of organisms, the manufacture of microarrays is now possible for the average academic laboratory with the funds and motivation.
David W, Petersen, Ernest S, Kawasaki
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DNA microarray technology has become a powerful tool in the arsenal of the molecular biologist. Capitalizing on high precision robotics and the wealth of DNA sequences annotated from the genomes of a large number of organisms, the manufacture of microarrays is now possible for the average academic laboratory with the funds and motivation.
David W, Petersen, Ernest S, Kawasaki
openaire +2 more sources