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Protein Microarrays: Novel Developments And Applications

Di: Everly

Protein Microarrays: Novel Developments and Applications - PMC

With advances in DNA microarray, TMA, multiple DNA and RNA sequencing technologies, MS, nuclear magnetic resonance (NMR), etc., the fields of genomics,

Bacterial proteome microarray technology in biomedical research

Development and application of a novel triplex protein microarray method for rapid detection of antibodies against avian influenza virus, Newcastle disease virus, and avian infectious

In this review, we will summarize the developments that have been made in protein microarray technology in both in basic and translational research over the past decade. We will also

In this review, we will summarize the developments that have been made in protein microarray technology in both in basic and translational research over the past decade.

  • Protein microarrays and novel detection platforms
  • Luis Berrade NIH Public Access Angie E. Garcia, and
  • Applications of Functional Protein Microarrays

The aim of this review is to summarize the latest developments in protein microarray technology in the areas of protein immobilization, novel protein detection schemes and applications of this promising technology.

This arraying technology was first introduced in the beginning of 2001 and holds tremendous potential to revolutionize microarray development and analyte detection. Later,

In this unit, advances in protein microarray technologies are reviewed, and then a series of examples are presented to illustrate the applications of analytical and functional protein

Antibody microarray profiling of human prostate cancer sera: antibody screening and identification of potential biomarkers. Proteomics 2003, 3:56-63. • Gong W et al The development of protein

Protein microarrays: high-throughput tools for proteomics

Protein microarrays: novel developments and applications. Pharm Res. 2011;28:1480–99. DOI: 10.1007/s11095-010-0325-1 Blackburn JM, Shoko A. Protein function microarrays for

Different protein microarrays, including capture arrays, reverse-phase arrays, tissue microarrays, lectin microarrays and cell-free expression microarrays, have emerged, which have

Technological innovations and novel applications have greatly advanced the field of protein microarrays. Over the past two years, different types of protein microarrays have been

In this review, we will summarize the developments that have been made in protein microarray technology in both in basic and translational research over the past decade. We will also

NAPPA microarrays express over 94% of their proteins regardless of protein size or type – even membrane proteins – which are subsequently captured by a high-affinity anti

Protein microarray technology possesses some of the greatest potential for providing direct information on protein function and potential drug targets. For example, functional protein

Applications of nanotechnology in proteomics came from the need to detect low-abundant proteins in complex mixtures for sensitive, real-time and multiplexed detection

In this review, we will summarize the developments that have been made in protein microarray technology in both in basic and translational research over the past decade. We will

Developments and Applications of Functional Protein Microarrays

We will also introduce a novel membrane protein array, the GPCR-VirD array, and discuss the future directions of functional protein microarrays. Application of GPCR-Virion

Technological innovations and novel applications have greatly advanced the field of protein microarrays. Over the past two years, different types of protein microarrays have been

Herein, the aim of this review is to summarize the most recent developments in the applications of protein microarrays for biomarker profiling, enzyme substrate profiling, small

Protein microarray technology possesses some of the greatest potential for providing direct information on protein function and potential drug targets. For example,

In this review, we will summarize the developments that have been made in protein microarray technology in both in basic and translational research over the past decade. We will also

Avian influenza virus (AIV), Newcastle disease virus (NDV), and avian infectious bronchitis virus (IBV) inflict immense damage on the global poultry industry annually.

Developments and applications of functional protein microarrays

Protein microarrays: novel developments and applications. Pharm. Res., 28 (7) (2011), pp. 1480-1499. Crossref View in Scopus Google Scholar [41] J. Kalecki, et al. Oriented immobilization of

Protein microarray technology possesses some of the greatest potential for providing direct information on protein function and potential drug targets. For example,

Recent interesting developments towards improved immobilization strategies and library creation methods, together with novel advances herein described, have set the stage for

Protein microarray technology possesses some of the greatest potential for providing direct information on protein function and potential drug targets. For example, functional protein

Novel developments. As is characteristic in a field that is rapidly emerging, sophisticated methodologies are progressively being introduced to enhance and extend

Protein microarray technology has gone through numerous innovative developments in recent decades. In this review, we focus on the development of protein detection methods embedded