Our broad portfolio consists of multiplex panels that allow you to choose, within the panel, analytes that best meet your needs. On a separate tab you can choose the premixed cytokine format or a single plex kit.
Cell Signaling Kits & MAPmates™
Choose fixed kits that allow you to explore entire pathways or processes. Or design your own kits by choosing single plex MAPmates™, following the provided guidelines.
The following MAPmates™ should not be plexed together:
-MAPmates™ that require a different assay buffer
-Phospho-specific and total MAPmate™ pairs, e.g. total GSK3β and GSK3β (Ser 9)
-PanTyr and site-specific MAPmates™, e.g. Phospho-EGF Receptor and phospho-STAT1 (Tyr701)
-More than 1 phospho-MAPmate™ for a single target (Akt, STAT3)
-GAPDH and β-Tubulin cannot be plexed with kits or MAPmates™ containing panTyr
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Select A Species, Panel Type, Kit or Sample Type
To begin designing your MILLIPLEX® MAP kit select a species, a panel type or kit of interest.
Custom Premix Selecting "Custom Premix" option means that all of the beads you have chosen will be premixed in manufacturing before the kit is sent to you.
If you have chosen panel analytes and then choose a premix or single plex kit, you will lose that customization.
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96-Well Plate
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Add Additional Reagents (Buffer and Detection Kit is required for use with MAPmates)
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48-602MAG
Buffer Detection Kit for Magnetic Beads
1 Kit
Space Saver Option Customers purchasing multiple kits may choose to save storage space by eliminating the kit packaging and receiving their multiplex assay components in plastic bags for more compact storage.
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Advances in live cell culturing and imaging have created an effective platform for studying the effects of manipulating cellular and molecular structures. Cellular engineering, where researchers apply the principles of engineering, math, chemistry, and physics to mimicking and manipulating cellular structure and behavior, requires the ability to not only create more predictive cell cultures, but visualize them over extended periods.
Cellular engineering applications include areas like:
Cell membrane structures
Cell adhesion surfaces
Biomolecular interfaces
Cytoskeletal structure and function
Hemodynamics and cell/tissue interactions
Live cell imaging platforms also have significant value when assessing the behavior of genetically modified cells. Modern molecular biology has yielded techniques that now allow researchers to manipulate cellular processes by modifying and controlling genes, gene networks, transcription, and translation using a variety of techniques. Some of these workhorses of biomedical engineering include:
Transfection
Transfection is the process of delivering genetic material into a cell for the purpose of manipulating the host genome. Originally, the realm of host pathogen interactions, transfections are routinely done to get designed genomic constructs, proteins, or drugs into cells. Material is typically conveyed to the target cells by briefly disrupting the cell membrane by virus, chemicals, electroporation, or lipid granules. For further discussion of transfection, visit our transfection page.
Genome Editing/CRISPRs
Genome editing is a very recent molecular manipulation of genetic material, which has exploded in popularity due to its precision nature. In this technique, specific genetic sequences are inserted, removed, or swapped out of a targeted spot in the genome using engineered nucleases, aptly dubbed “molecular scissors”. These nucleases come from 4 families: