Protein crystallization is a key assay for structural studies of proteins. The protocols for crystallization of protein are challenging due to the stringent requirement for pure samples and control of environmental conditions during the crystallization process. Vapor diffusion using hanging drop is a preferred method for obtaining quality crystals with…
Grace Bio-Labs microarray surface chemistry is based on the well-known protein-binding properties of nitrocellulose. A range of different formulations have…
Grace Bio-Labs microarray regents have been specifically formulated to achieve the full potential of porous nitrocellulose, accelerating experimental design and…
ProPlates® were specifically designed to enable automated robotic liquid handling. Two main configurations are available: The ProPlate® Microtiter Plate is comprised…
CoverWell ™ perfusion press-to-seal covers form water-tight, multiwell cell incubation or cytochemistry chambers when pressed to coverslips or microscope slides.…
SecureSeal™ Hybridization Chambers are thin, silicone-gasketed chambers providing optimal surface-to-volume fluid dynamics for hybridization assays on large or multiple specimens…
SecureSeal™ Hybridization Chambers are thin, silicone-gasketed chambers providing optimal surface-to-volume fluid dynamics for hybridization assays on large or multiple specimens…
FastWells™ are sticky, flexible silicone gaskets that form hydrophobic reagent barriers around specimens without messy adhesives or special slides. Gaskets may…
HybriSlips™ are rigid, light-weight, thin plastic coverslips that minimize friction and facilitate uniform reagent distribution during incubation steps which require…
ProPlates® were specifically designed to enable automated robotic liquid handling. Two main configurations are available: The ProPlate® Microtiter Plate is comprised…
Silicone isolator™ sheet material allows researchers to create their own removable hydrophobic barriers to isolate specimens. Where additional sealing is…
APPLICATIONS:
Protein and DNA arrays ;
Immunohistochemistry;
Fluorescence In situ Hybridization (FISH) ;
Biopolymers and hydrogel formulation ;
Cryogenic-transmission electron microscopy (Cryo-TEM) ;
Microwave crystallization ;
Ultra-small-angle X-ray scattering (USAXS) ;
Tissue ingeneering;
Live cell lithography” (LCL);
Imaging spacers are ultra-thin adhesive spacers which peel-and-stick to coverglass or microscope slides to confine specimens without compression. Layer multiple…
CoverWell ™ imaging chambers are designed to stabilize and support thick and free-floating specimens for confocal microscopy and imaging applications.…
CoverWell ™ perfusion press-to-seal covers form water-tight, multiwell cell incubation or cytochemistry chambers when pressed to coverslips or microscope slides.…
FastWells™ are sticky, flexible silicone gaskets that form hydrophobic reagent barriers around specimens without messy adhesives or special slides. Gaskets may…
CultureWell™ chambered coverglass products consist of removable and reusable, non-cytotoxic silicone gaskets secured to number 1.5 German coverglass. Chambered coverglass…
Silicone isolator™ sheet material allows researchers to create their own removable hydrophobic barriers to isolate specimens. Where additional sealing is…
APPLICATIONS:
Protein and DNA arrays ;
Immunohistochemistry ;
Fluorescence In-situ Hybridization (FISH) ;
Biopolymers and hydrogel formulation;
Cryogenic-transmission electron microscopy (Cryo-TEM) ;
X-ray scattering ;
Microwave crystallization ;
Ultra-small-angle X-ray scattering (USAXS) ;
Tissue engineering Live cell lithography (LCL);
Cell-based assays have expanded in use, and reduced in sample requirements over the past decade, driven by technologies that have improved the culture and monitoring of cell functions on a miniature scale. One of our… READ MORE +
Reverse phase protein arrays (RPPA) are designed for sensitive quantitation of a target protein in a very small sample of tissue lysate, and multiplex analysis of many samples in one experiment. This technology holds great… READ MORE +
Antigen Discovery Inc.’s protein microarrays allow for highly multiplexed assays the generate hundreds, thousands and tens of thousands data points for each sample tested. Antigen Discovery Inc., our collaborators and our customers have leveraged this… READ MORE +
A SYSTEMS APPROACH TO QUANTITATIVE MULTIPLEXED RPPA’S Presented by: Michael A. Shultz, PhD RPPA Workshop in Kobe, Japan November, 2013 Porous nitrocellulose film (PNC) is the substrate of choice for RPPA largely because of its… READ MORE +
Insight into the dynamics of pathogenic infectivity has been greatly enhanced by studies using whole proteome microarray technology [1]. Techniques allowing high throughput production of recombinant proteins representing comprehensive antigenic potential of pathogenic bacteria and… READ MORE +
Near Infrared Detection with Porous Nitrocellulose Films Improves Sensitivity for Protein Arrays. Despite some clear performance advantages of porous nitrocellulose Film-Slides for protein arrays, one objection to their use is the inherent fluorescence background detected… READ MORE +