Abstract Self-assembling protein microarrays arrays can be used to study protein-protein interactions, protein-drug interactions, search for enzyme substrates, and as tools to search for disease ...

A protein microarray consists of the immobilization of proteins in organized rows and columns upon a support structure. The structure of the protein microarray allows for high-throughput analysis ...

Using microscope slides, precision robots and other off-the-shelf equipment, researchers have created protein microarrays that can measure the function of thousands of proteins simultaneously ...

This review outlines protein microarray techniques that are currently being used for analytical and function-based proteomics, providing a detailed analysis of recent advances in this technology.

Detection Techniques for Protein Microarrays In order to keep pace with rapid advancements in protein microarray technology, detection systems have also been significantly improved. Important ...

A designed polypeptide scaffold contains a surface immobilization domain and a target capture domain for flexible protein arraying. 'Microarray' might just be the hottest buzzword in biology today ...

These three must be tightly merged with each other in order to provide accurate and best protein detection. The following are some of the label-free protein microarray detection methods.

Microarrays have advanced significantly over the years, which is a good thing as genomics would not exist if not for that progress. Protein microarray development, however, has not seen as much ...

In addition to screening for protein–protein interactions, the microarray method can also be used to identify substrates for enzymes such as protein kinases, or to screen small molecule ...

Protein microarrays are one aspect of highly automated, large-scale biological screening technologies, the other is nucleic acid arrays.

Proteins serve as the molecular workhorses governing virtually every biological process, making their quantitative analysis crucial for understanding cellular dynamics, disease mechanisms, and ...

The global market for Protein Microarrays was estimated at US$4.6 Billion in 2023 and is projected to reach US$7.2 Billion by 2030, growing at a CAGR of 6.8% from 2023 to 2030. This comprehensive ...