Add to ORKGIn order to construct high-density, high content arrays, we have used cDNA libraries as a source of thousands of proteins and have developed a successful system for expression and purification of thousands of proteins in parallel. We have used these proteins to generate high density protein arrays on glass slides and demonstrates their potential applications in the profiling of the antibody repertoire of auto-immune patients, and the determination of the specificity or crossreactivity of antibodies. The optimization of antibody arrays will also be described
Protein array technology has begun to play a significant role in the study of protein-protein intera...
This chapter describes the production of a cDNA expression library from human fetal brain, the const...
There is burgeoning interest in protein microarrays, but a source of thousands of nonredundant, puri...
In order to construct high-density, high content arrays, we have used cDNA libraries as a source of ...
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...
Affinity proteomics, represented by antibody arrays, is a multiplex technology for high-throughput p...
Because of our access to human genome data and ever improving genome sequencing and proteome analysi...
Abstract The number of cancer and autoimmune disease diagnoses increases in our society, which place...
Two new technologies (tissue microarrays (TMAs) and proteomics) have generated a great amount of dat...
There is burgeoning interest in protein microarrays, but a source of thousands of non-redundant, pur...
This work focus on the generation and application of high-density protein arrays to study autoimmune...
Antibody-based microarrays are a new powerful proteomic technology that can be used to generate rapi...
This work focus on the generation and application of high-density protein arrays to study autoimmune...
There is burgeoning interest in protein microarrays, but a source of thousands of nonredundant, puri...
Protein array technology has begun to play a significant role in the study of protein-protein intera...
This chapter describes the production of a cDNA expression library from human fetal brain, the const...
There is burgeoning interest in protein microarrays, but a source of thousands of nonredundant, puri...
In order to construct high-density, high content arrays, we have used cDNA libraries as a source of ...
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...
Affinity proteomics, represented by antibody arrays, is a multiplex technology for high-throughput p...
Because of our access to human genome data and ever improving genome sequencing and proteome analysi...
Abstract The number of cancer and autoimmune disease diagnoses increases in our society, which place...
Two new technologies (tissue microarrays (TMAs) and proteomics) have generated a great amount of dat...
There is burgeoning interest in protein microarrays, but a source of thousands of non-redundant, pur...
This work focus on the generation and application of high-density protein arrays to study autoimmune...
Antibody-based microarrays are a new powerful proteomic technology that can be used to generate rapi...
This work focus on the generation and application of high-density protein arrays to study autoimmune...
There is burgeoning interest in protein microarrays, but a source of thousands of nonredundant, puri...
Protein array technology has begun to play a significant role in the study of protein-protein intera...
This chapter describes the production of a cDNA expression library from human fetal brain, the const...
There is burgeoning interest in protein microarrays, but a source of thousands of nonredundant, puri...