Add to ORKGHigh-throughput protein arrays allow the miniaturized and parallel analysis of large numbers of diagnostic markers in complex samples. Using automated colony picking and gridding, cDNA or antibody libraries can be expressed and screened as clone arrays. Protein microarrays are constructed from recombinantly expressed, purified, and yet functional proteins, entailing a range of optimized expression systems. Antibody microarrays are becoming a robust format for expression profiling of whole genomes. Alternative systems, such as aptamer, PROfusion™, nano- and microfluidic arrays are all at proof-of-concept stage. Differential protein profiles have been used as molecular diagnostics for cancer and autoimmune diseases and might ultimately be app...
In the quest for deciphering disease-associated biomarkers, high-performing tools for multiplexed pr...
Antibody-based microarray is a novel proteomic technology setting a new standard for molecular profi...
Technological innovations and novel applications have greatly advanced the field of protein microarr...
High-throughput protein arrays allow the miniaturized and parallel analysis of large numbers of diag...
High-throughput protein arrays allow the miniaturized and parallel analysis of large numbers of diag...
Antibody-based microarrays are a rapidly emerging technology that has advanced from the first proof-...
In order to construct high-density, high content arrays, we have used cDNA libraries as a source of ...
Antibody-based microarrays are a new powerful proteomic technology that can be used to generate rapi...
Protein microarrays represent a powerful technology with the potential to serve as tools for the det...
Antibody-based microarrays are among the novel classes of rapidly evolving proteomic technologies th...
AbstractProtein microarrays are potentially powerful tools in biochemistry and molecular biology. Tw...
Using a large phage antibody library, a protein microarray spotted directly with phage-displayed ant...
In the quest for deciphering disease-associated biomarkers, high-performing tools for multiplexed pr...
Two new technologies (tissue microarrays (TMAs) and proteomics) have generated a great amount of dat...
Protein microarray technology is of high recent interest, especially for generating confirmatory and...
In the quest for deciphering disease-associated biomarkers, high-performing tools for multiplexed pr...
Antibody-based microarray is a novel proteomic technology setting a new standard for molecular profi...
Technological innovations and novel applications have greatly advanced the field of protein microarr...
High-throughput protein arrays allow the miniaturized and parallel analysis of large numbers of diag...
High-throughput protein arrays allow the miniaturized and parallel analysis of large numbers of diag...
Antibody-based microarrays are a rapidly emerging technology that has advanced from the first proof-...
In order to construct high-density, high content arrays, we have used cDNA libraries as a source of ...
Antibody-based microarrays are a new powerful proteomic technology that can be used to generate rapi...
Protein microarrays represent a powerful technology with the potential to serve as tools for the det...
Antibody-based microarrays are among the novel classes of rapidly evolving proteomic technologies th...
AbstractProtein microarrays are potentially powerful tools in biochemistry and molecular biology. Tw...
Using a large phage antibody library, a protein microarray spotted directly with phage-displayed ant...
In the quest for deciphering disease-associated biomarkers, high-performing tools for multiplexed pr...
Two new technologies (tissue microarrays (TMAs) and proteomics) have generated a great amount of dat...
Protein microarray technology is of high recent interest, especially for generating confirmatory and...
In the quest for deciphering disease-associated biomarkers, high-performing tools for multiplexed pr...
Antibody-based microarray is a novel proteomic technology setting a new standard for molecular profi...
Technological innovations and novel applications have greatly advanced the field of protein microarr...