Researchers have invented a technique in which DNA assays -- the key to personalized medicine -- can be read and evaluated with no need of elaborate chemical labeling or sophisticated instrumentation.
Advances in material science combined with nanofabrication and computational design have led to the discovery of label-free protein microarray techniques. These techniques are of enormous benefit for ...
The field of proteomics has undergone rapid advancements over the last decade and protein microarrays have emerged as a promising technological platform for the challenging task of studying complex ...
A new palm-sized microarray that holds 1,200 individual cultures of fungi or bacteria could enable faster, more efficient drug discovery, according to a new study. A new palm-sized microarray that ...
Just as the printing press revolutionized the creation of reading matter, a "nano-printing" technique developed at MIT could enable the mass production of nano-devices currently built one at a time.
Reviewed by Dr. Tomislav Meštrović, MD, Ph.D. The microarray is a very recent development in the field of biotechnology. Scientists are now able to understand the gene functions of any organism by ...
The main application of microarrays is gene expression analysis, but other uses for these arrays continue to grow in popularity. Laura Bonetta reports on the use of this technology to analyze other ...
High-Throughput and Multiplexed Assays Augment Biomarker Discovery and Diagnostics High-throughput proteomics using microarray-based technology and proteome chips is accelerating protein-biomarker ...
Protein microarrays labelled with fluorophores constitute a versatile platform for high-throughput analysis of protein interactions, expression levels and post-translational modifications. In a ...
BERKELEY, CA — The dream of personalized medicine — in which diagnostics, risk predictions and treatment decisions are based on a patient's genetic profile — may be on the verge of being expanded ...
A new palm-sized microarray that holds 1,200 individual cultures of fungi or bacteria could enable faster, more efficient drug discovery, according to a study published in mBio®, the online ...
Based on electrostatic repulsion — in which objects with the same electrical charge repel one another — the technique is relatively simple and inexpensive to implement, and can be carried out in a ...
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