Application Notes
Exploring the CsoS2 Protein Interaction Network Using Peptide Arrays
Cyanobacteria play an important role in global carbon fixation with the numerically dominant Synechococcus and Prochlorococcus contributing a
Cancer Antigen Microarrays for Profiling Autoantibodies at the Epitope Level
The additional knowledge gained by studying the response to antigens at the epitope level will help us further understand anti-tumor immunity and may also help
Exploring the range of “nonspecific” or unstructured interactions that take place at chemically complex surfaces
When developing peptide arrays for diagnostic testing, the capability to perform focused studies to define the characteristics of the interactions that occur
Technical Bulletins
Exploring the CsoS2 Protein Interaction Network Using Peptide Arrays
Cyanobacteria play an important role in global carbon fixation with the numerically dominant Synechococcus and Prochlorococcus contributing a
Cancer Antigen Microarrays for Profiling Autoantibodies at the Epitope Level
The additional knowledge gained by studying the response to antigens at the epitope level will help us further understand anti-tumor immunity and may also help
Exploring the range of “nonspecific” or unstructured interactions that take place at chemically complex surfaces
When developing peptide arrays for diagnostic testing, the capability to perform focused studies to define the characteristics of the interactions that occur
Peptide Microarray Data Analysis Using SVM-PEPARRAY
Qualitative and Quantitative Analysis of Peptide Microarray Binding Experiments Using SVM-PEPARRAY...
Peptide Microarray Design Using µPepArray Pro
The design of peptide arrays is inherently more complex than that of DNA arrays. µPepArray Pro features strong content design capabilities and
Massively Parallel Peptide Synthesis on a Microchip based on the µParaflo® Microfluidics Technology
At the core of µParaflo technology, there are three components (Figure 1): a novel solution photochemistry that uses photogenerated reagent precursor
Massively Parallel Oligonucleotide Synthesis on a Microchip based on the µParaflo® Microfluidics Technology
The scientists and engineers at our technology partner, Atactic Technologies, have developed platform technologies
µParaflo® Microfluidics Synthesis Technology
Our scientists and engineers have developed platform technologies that encompass a new class of microfluidic µParaflo reaction devices, an advanced