2012 Promega catalogue
2012 Promega catalogue
2012 Promega catalogue
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Life<br />
Science<br />
Catalog<br />
<strong>2012</strong><br />
Worldwide Contact List<br />
Section<br />
Contents<br />
Table of<br />
Contents<br />
Cell Signaling<br />
138<br />
cAMP-Glo Max Assay<br />
Product Size Cat.# Price ($)<br />
cAMP-Glo Max Assay 2 plates V1681 517.00<br />
For Research Use Only. Not for Use in Diagnostic Procedures.<br />
20 plates V1682 Pls. Enq.<br />
10 × 20 plates V1683 Pls. Enq.<br />
Description: The cAMP-Glo Max Assay is a homogeneous, bioluminescent<br />
and high-throughput assay to measure cyclic AMP (cAMP) levels in cells.<br />
Compounds that modulate GPCRs coupled with adenylate cyclase typically alter<br />
intracellular cAMP levels. The cAMP-Glo Max Assay monitors cAMP levels<br />
in cells in response to the effect of agonists, antagonists or test compounds on<br />
G protein-coupled receptors (GPCRs). The assay is based on the principle that<br />
cyclic AMP (cAMP) stimulates protein kinase A (PKA) holoenzyme activity,<br />
decreasing available ATP and leading to decreased light production in a<br />
coupled luciferase reaction.<br />
This improved version combines the lysis and cAMP reaction buffers into the<br />
cAMP-Glo ONE Buffer. This new format streamlines the protocol and reduces<br />
the time needed to complete the assay. The new ONE Buffer is supplied at a<br />
5X concentration, which provides increased flexibility for starting cell culture<br />
volumes.<br />
The cAMP-Glo Max Assay can be performed in 96-, 384- or 1536-well<br />
plates. The cells are induced with a test compound for an appropriate period<br />
of time to modulate cAMP levels. After induction, cells are lysed, and the cAMP<br />
released stimulates protein kinase A in the reagent. The Kinase-Glo ® Reagent<br />
is then added to terminate the PKA reaction and detect the remaining ATP via<br />
a luciferase reaction. Plates are read using a microplate-reading luminometer.<br />
The half-life for the luminescent signal is greater than 4 hours allowing ample<br />
time to read the plates and eliminates the need for luminometers with reagent<br />
injectors.<br />
Features:<br />
• Fast and Easy to Use:<br />
Improved—Lysis and cAMP detection steps combined (cAMP-Glo ONE<br />
Buffer).<br />
ONE Buffer—5X concentration provides better flexibility for starting cell<br />
culture volumes.<br />
Assay can be completed in approximately 30 minutes.<br />
• Excellent Signal-to-Noise Ratios:<br />
Best signal:background ratio of all the cAMP assays.<br />
Signal:Background >200 (with cAMP), >15 (on cells).<br />
Easily scalable to 1536-well plate formats and beyond.<br />
• Proven Luminescent Technology:<br />
Powered by Ultra-Glo Recombinant Luciferase.<br />
No interference by fluorescent compounds.<br />
Non-radioactive.<br />
Storage Conditions: Store the system at –20°C. Before use, completely thaw<br />
all components at room temperature, except for the Protein Kinase A, which<br />
should be kept on ice when not at –20°C. After thawing, mix all components<br />
thoroughly before use. Once prepared, the cAMP detection solution (cAMP-<br />
Glo ONE Buffer with Protein Kinase A) should not be frozen. Once prepared,<br />
the Kinase-Glo ® Reagent should be dispensed into aliquots and stored at<br />
–20°C. See the product label for the expiration date.<br />
Protocol Part#<br />
cAMP-Glo Max Assay Technical Manual TM347<br />
GloSensor cAMP Assay<br />
Product Size Cat.# Price ($)<br />
GloSensor cAMP HEK293 Cell Line 2 vials E1261 Pls. Enq.<br />
pGloSensor-22F cAMP Plasmid 20 µg E2301 Pls. Enq.<br />
pGloSensor-20F cAMP Plasmid 20 µg E1171 Pls. Enq.<br />
GloSensor cAMP Reagent 25 mg E1290 Pls. Enq.<br />
For Research Use Only. Not for Use in Diagnostic Procedures.<br />
250 mg E1291 Pls. Enq.<br />
Description: The GloSensor cAMP Assay presents a novel approach to<br />
measuring cAMP levels in live cells. cAMP is a key second messenger involved<br />
in signal transduction of GPCRs acting through Gα-s and Gα-i proteins. The<br />
new assay is based on the GloSensor Technology, a genetically modified<br />
form of firefly luciferase into which a cAMP-binding protein moiety has been<br />
inserted. Upon binding of cAMP, conformational change is induced leading to<br />
increased light output. This live-cell assay excels at kinetic and modulation<br />
studies of signaling through cAMP.<br />
Researchers can use the GloSensor cAMP Assay by transiently expressing<br />
a receptor of interest and the biosensor in the cell line of choice. Alternatively,<br />
stably transfected cell lines with both the biosensor and the receptor of interest<br />
can be made. The protocol is simple: Cells are pre-equilibrated with<br />
GloSensor cAMP Reagent for approximately 2 hours; then cells are treated<br />
with specific agonists/antagonists or compounds, and luminescence is<br />
measured after 10–30 minutes. No other reagent additions or manipulations<br />
are required. Most any common luminometer with injectors is sufficient to read<br />
the assay. GloSensor cAMP Reagent is required for use with this assay per<br />
the GloSensor Limited Use Label License.<br />
Choosing the Appropriate Plasmid<br />
We offer two variants of the biosensor, and we recommend the pGloSensor-<br />
22F cAMP Plasmid as the first choice for most applications.<br />
pGloSensor-22F cAMP Plasmid.<br />
Following cell-free expression in vitro, the version encoded by this construct<br />
shows an increased EC 50 for activation together with increased signal-tobackground<br />
ratio at cAMP saturation relative to the version encoded by the<br />
pGloSensor-20F cAMP construct. In general, we have observed similar<br />
relationships between the two constructs when their performance is compared<br />
in living cells.<br />
pGloSensor-20F cAMP Plasmid.<br />
The version encoded by this construct performs well in HEK293 cells at 37°C.<br />
Luminescence from the pGloSensor-22F cAMP Plasmid construct can be<br />
more difficult to detect at physiologic temperatures.<br />
For a more thorough explanation of the general performance differences<br />
between the two plasmids, please consult Section 3.B, Recommendations on<br />
Choice of GloSensor Plasmid, in the Technical Manual (#TM076).<br />
Features:<br />
• Best-in-Class Performance: High Z´ and large signal:background ratio<br />
values. Ideally suited to HTS/uHTS. Up to 1,000-fold changes in light<br />
output obtained.<br />
• Live-Cell, Non-Lytic Assay Format: “Zero-step assay” greatly facilitates<br />
HTS/uHTS. Easy monitoring of cAMP in live cells enables a more complete<br />
analysis of receptor biology.<br />
• High Sensitivity and Increased Biological Relevance: Easy detection<br />
of low-abundance, endogenous receptors; direct detection of Gi-coupled<br />
receptor activation and inverse agonist activity in the absence of added<br />
forskolin. PDE inhibitors not needed.<br />
Storage Conditions: Store the pGloSensor cAMP Plasmid at –20°C and<br />
the GloSensor cAMP Reagent at –70°C. Store the resuspended GloSensor<br />
cAMP Reagent at –70°C in single-use aliquots.<br />
Protocol Part#<br />
GloSensor cAMP Assay Technical Manual TM076<br />
For complete and up-to-date product information visit: www.promega.com/catalog
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