K. P. Manubhai scite author profile

The complexity involving protein array technology reflects in the fact that instrumentation and data analysis are subject to change depending on the biological question, technical compatibility of instruments and software used in each experiment. Industry has played a pivotal role in establishing standards for future deliberations in sustenance of these technologies in the form of protein array chips, arrayers, scanning devices, and data analysis software. This has enhanced the outreach of protein microarray technology to researchers across the globe. These have encouraged a surge in the adaptation of "nonclassical" approaches such as DNA-based protein arrays, micro-contact printing, label-free protein detection, and algorithms for data analysis. This review provides a unique overview of these industrial solutions available for protein microarray based studies. It aims at assessing the developments in various commercial platforms, thus providing a holistic overview of various modalities, options, and compatibility; summarizing the journey of this powerful high-throughput technology.

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Protein microarray applications: Autoantibody detection and posttranslational modification

Atak

Mukherjee

Jain

et al. 2016

Proteomics

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The discovery of DNA microarrays was a major milestone in genomics; however, it could not adequately predict the structure or dynamics of underlying protein entities, which are the ultimate effector molecules in a cell. Protein microarrays allow simultaneous study of thousands of proteins/peptides, and various advancements in array technologies have made this platform suitable for several diagnostic and functional studies. Antibody arrays enable researchers to quantify the abundance of target proteins in biological fluids and assess PTMs by using the antibodies. Protein microarrays have been used to assess protein-protein interactions, protein-ligand interactions, and autoantibody profiling in various disease conditions. Here, we summarize different microarray platforms with focus on its biological and clinical applications in autoantibody profiling and PTM studies. We also enumerate the potential of tissue microarrays to validate findings from protein arrays as well as other approaches, highlighting their significance in proteomics.

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Serum Profiling for Identification of Autoantibody Signatures in Diseases Using Protein Microarrays

Gupta

Manubhai

Mukherjee

et al. 2017

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Protein microarrays are platforms for studying protein-protein interactions and identifying disease-related self-antigens/autoantigens, which elicit an immune response in a high-throughput format. Protein arrays have been extensively used over the past two decades for several clinical applications. By using this platform, serum containing autoantibodies against potential self-antigens can be screened on proteome-wide arrays, harboring a large repertoire of full-length human proteins. Identification of such autoantigens can help deducing early diagnostic, as well as, prognostic markers in case of malignancies, autoimmune disorders, and other systemic diseases. Here, we provide an overview of the protein microarray technology along with details of an established method to study autoantibody profiles from patient sera.

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Targeted Proteomics Workshop and International Symposium (IIT Bombay, Mumbai, India): An Accelerator for Global Proteomics

Atak

Mehta

Gollapalli

et al. 2016

OMICS: A Journal of Integrative Biology

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K. P. Manubhai

An overview of innovations and industrial solutions in Protein Microarray Technology

Protein microarray applications: Autoantibody detection and posttranslational modification

Serum Profiling for Identification of Autoantibody Signatures in Diseases Using Protein Microarrays

Targeted Proteomics Workshop and International Symposium (IIT Bombay, Mumbai, India): An Accelerator for Global Proteomics

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