Microarray Reagents

Reagents for reactive surfaces

PolyAn provides washing and blocking buffers that are optimized for PolyAn's 2D- and 3D-reactive surfaces. The PolyAn-buffers promotes highly efficient coupling of biomolecules and increases the signal/noise ratio by minimizing unspecific binding.

Super G Blocking Buffer, 100mL

Id 105100
Title Super G Blocking Buffer, 100mL
Substrate
Format
Mean Diameter
Color Labeling
Surface Modifications
Solids Content
Product Dimensions
Packaging
Packaging Volume
Package Weight 0.2625
Dimensions
Hts Code
Description Super G Blocking Buffer optimizes the use of nitrocellulose for protein assays using fluorescence detection. Results with Super G show significant reduction in fluorescence background while maintaining the high protein-binding capacity of porous nitrocell
Image

Reagents for Nitrocellulose Film Slides

Grace Bio-Labs microarray regents have been specifically formulated to achieve the full potential of porous nitrocellulose, accelerating experimental design and data collection and validation. They provide reliable tools for the development of reproducible and sensitive microarray-based assays, from printing to the long-term preservation of the printed nitrocellulose film slide. Retention of protein function and structure are guaranteed during downstream microarray applications.

The Protein Array Assay System and the Reverse Phase Array System provide each a set of reagents necessary to obtain optimal results for forward phase microarrays applications (antibody and antigen capture array) and reverse phase protein array (protein expression profiling, biomarker discovery etc.).

Super G Blocking Buffer, 100mL

Id 105100
Title Super G Blocking Buffer, 100mL
Substrate
Format
Mean Diameter
Color Labeling
Surface Modifications
Solids Content
Product Dimensions
Packaging
Packaging Volume
Package Weight 0.2625
Dimensions
Hts Code
Description Super G Blocking Buffer optimizes the use of nitrocellulose for protein assays using fluorescence detection. Results with Super G show significant reduction in fluorescence background while maintaining the high protein-binding capacity of porous nitrocell
Image