Skip to main content
Menu
US

ATPlite 1step 3D, 10 mL kit

ATPlite 1step 3D assay for quantitative evaluation of proliferation and cytotoxicity of mammalian cells cultured in 3D spheroids. The 1-step format only requires one addition step, and can be used for continuous processing.

For research use only. Not for use in diagnostic procedures.

Click to copy promo code to clipboard.
Save 25% when you buy this product online. Use promo code below.
LITES25
Offer valid until 12/31. Terms and conditions apply.
Feature Specification
Application Cell Viability
Assay Points 100

ATPlite 1step 3D assay for quantitative evaluation of proliferation and cytotoxicity of mammalian cells cultured in 3D spheroids. The 1-step format only requires one addition step, and can be used for continuous processing.

For research use only. Not for use in diagnostic procedures.

Click to copy promo code to clipboard.
Save 25% when you buy this product online. Use promo code below.
LITES25
Offer valid until 12/31. Terms and conditions apply.
Product Variant
Unit Size: 10 mL
Part #:
6066736
List Price
USD 102.86

Overview

ATP is a marker for cell viability because it is present in all metabolically active cells. Because ATP concentration declines rapidly when cells undergo necrosis or apoptosis, monitoring ATP is a good indicator of cytocidal, cytostatic and proliferation effects. Our ATPlite 3D and ATPlite 1step 3D luminescence assay systems use patented innovative technologies that measure cell proliferation and cytotoxicity in 3D cultured mammalian cells based on the production of light caused by the reaction of ATP with added luciferase and D-luciferin.

Our Luminescence ATP 1step 3D Assays are an Adenosine TriPhosphate (ATP) monitoring system based on firefly (Photinus pyralis) luciferase. This atp luminescence 1step 3D assay kit is the alternative to colorimetric, fluorometric, High content microscopic analysis and radioisotopic assays for the quantitative evaluation of proliferation and cytotoxicity of mammalian cells cultured cultured in 3D spheroids. ATP monitoring can be used to assess the cytocidal, cytostatic and proliferative effects of a wide range of drugs, biological response modifiers and biological compounds.

Kit Components

  • 1 vial of Lyophilized Substrate Solution
  • 1 x 10 mL of Substrate Buffer Solution
  • 1 vial of Lyophilized ATP Standard Solution
  • 1 x CellCarrier Spheroid ULA 96-well microplate (product # 6055330; 10 plates, 6055334; 40 plates)
  • 1 x OptiPlate-96 (product# 60052900 for 50 plates; 6005299 for 200 plates)
  • 4 x TopSeal-A (product # 6050185; 100 seals)
  • 1 x Quick Start Guide

Storage: Buffer and vials should be stored at 4°C. Microplates and TopSeal-A can be stored at Room Temperature.

Features and benefits:

  • Designed for continuous process systems: luminescence should be measured between 0 and 30 minutes after the last pipetting step
  • Rapid: results generated in 25 - 30 minutes
  • Simple and reproducible: only one reagent addition step, no separation steps. A final transfer step may be necessary, depending on the type of plate used for Spheroid growth.
  • Homogeneous assay: no cell harvesting or centrifugation required
  • Wide linear dynamic range: detect ATP from spheroids made by seeding as few as 200 cells, and up to 5000 cells
  • Convenient storage conditions (2 - 8 °C)
  • No DTT: Unlike most luciferase detection reagents, lites products do not contain DTT, eliminating toxic hazards, unpleasant odors and the need for hood work
  • Excellent Z' Values: All lites products offer robust, sensitive performance, with high signal-to-background ratios and excellent Z'values

Specifications

Application
Cell Viability
Assay Points
100
Automation Compatible
Yes
Brand
ATPlite 3D
Detection Modality
Luminescence
Format
Microplates
Protocol
1-step
Signal Halflife
0.5 hour
Shipping Conditions
Shipped Ambient
Unit Size
10 mL

Resources

Are you looking for resources, click on the resource type to explore further.

1-1 of 1 Resources
Flyer Icon
Flyer
Download your ATPlite flyer

Cytotoxicity, cell viability, and cell proliferation are important parameters to monitor when developing new therapeutics.

For...

Scroll Icon