logo
AAT Bioquest

Bucculite™ XdU Cell Proliferation Fluorescence Imaging Kit *Green Fluorescence*

Monitoring cell proliferation is one of the most reliable methods to assess cell viability, cell cycles and genotoxicity. An essential way to detect cell proliferation is to measure DNA synthesis in the presence of thymidine during the S-phase of cells growth. Bucculite™ XdU Cell Proliferation Fluorescence Imaging Kit uses XdU which is incorporated into cellular DNA during DNA synthesis. After fixing cells, the incorporated XdU is labelled with iFluor® 488 MTA. The resulted iFluor® 488-labeled DNA formed in cells is imaged with a FITC filter set. Bucculite™ XdU Cell Proliferation Fluorescence Imaging Kit provides an alternative to anti-BrdU antibody-based assay and EdU click chemistry-based assay. It is sensitive and might be used for measuring active DNA synthesis at single-cell level.

Example protocol

AT A GLANCE

Protocol Summary
  1. Prepare cells (100 µL/well for a 96-well plate or 25 µL/well for a 384-well plate)
  2. Add 2X XdU working solution 100 µL/well for a 96-well plate
  3. Incubate at 37 ºC for 3 hours
  4. Remove the media and fix cells with 100 µL ice cold 90% Methanol in PBS for 15 minutes at room temperature
  5. Remove Fixation buffer and wash three times with PBS
  6. Add 1X iFluor™ 488-MTA working solution (100 µL/well) and stain for 30 mins at room temperature
  7. Remove working solution in each well and wash cells with 1X Washing Buffer three times
  8. Add 100 µL 1X Washing Buffer /well and observe under fluorescence microscope with a FITC filter set 

CELL PREPARATION

For guidelines on cell sample preparation, please visit https://www.aatbio.com/resources/guides/cell-sample-preparation.html

PREPARATION OF STOCK SOLUTIONS

Unless otherwise noted, all unused stock solutions should be divided into single-use aliquots and stored at -20 °C after preparation. Avoid repeated freeze-thaw cycles.

1. XdU stock solution (1000X)
Add 500 µL DMSO (Component E) into XdU (Component A) to make 1000X stock solution. Note: This 1000X concentration was developed with HeLa cells with an optimized XdU concentration. Growth medium, cell density, cell type variations, and other factors may influence the labeling. We recommend testing a range of FOL-FdU concentrations to determine the optimal concentration for your cell type and experimental conditions.

2. iFluor™ 488-MTA stock solution (400X)
Add 50 µL of DMSO (Component E) to iFluor™ 488-MTA (Component B) to make 400 X iFluor™ 488-MTA stock solution

PREPARATION OF WORKING SOLUTION

1. XdU working solution (2X)
Dilute 1000X XdU stock solution by 500 folds in complete medium to prepare a 2X XdU working solution.

2. iFluor™ 488-MTA working solution (1X)
Add 2.5 µL 400X iFluor™ 488-MTA stock solution to 1 mL Staining Buffer (Component C) to prepare 1X iFluor™ 488-MTA working solution.

3. Washing Buffer (1X)
Add 1 mL 10X washing buffer (Component D) to 9 mL PBS to make 1X Washing Buffer.

SAMPLE EXPERIMENTAL PROTOCOL

Prepare Cells
  1. For adherent cells: Plate cells overnight in growth medium at 10,000 to 40,000 cells/well/100 µL for a 96-well plate or 2,500 to 10,000 cells/well/20 µL for a 384-well plate.
  2. For non-adherent cells: Centrifuge the cells from the culture medium and suspend the cell pellets in culture medium at 1-2 X 106 cells/ml (10 mL for one 96-well plate). Note: Each cell line should be evaluated on an individual basis to determine the optimal cell density. 

Labeling Cells with XdU
  1. Add an equal volume of the 2X XdU working solution to the volume of media containing cells to be treated to obtain a 1X XdU solution in each well. We do not recommend replacing all of the media, because this could affect the rate of cell proliferation.
  2. Incubate the cells for the 3 hours under conditions optimal for the cell type. The time of XdU exposure to the cells allows for direct measurement of cells synthesizing DNA. The incubation time depends on the cell growth rate. 

Cell Fixation
  1. After incubation, remove the media and add 100 µL ice cold 90% Methanol in PBS (not provided, Methanol/PBS, v/v is 90/10) to each well, and incubate for 15 minutes at room temperature.
  2. Remove the fixation buffer and wash the cells in each well twice with PBS. 

Stain Cells
  1. Add 100 µL/well (96-well plate) or 50 µL/well (384-well plate) of 1X iFluor™ 488-MTA working solution in the cell plate. Incubate cells with working solution at room temperature for 30 minutes, protected from light.
  2. Remove working solution in each well.
  3. Wash cells with 1X Washing Buffer three times, and add 100 µL Washing Buffer /well after wash. Note: If Hoechst 33342 stain is needed, make 5-10 µg/mL Hoechst 33342 solution in 1X Washing Buffer and stain for 30 mins.
  4. Observe the fluorescence signal in cells using fluorescence microscope with a FITC filter set. 

Citations

View all 2 citations: Citation Explorer
Downregulation of AKT/mTOR signaling pathway for Salmonella-mediated autophagy in human anaplastic thyroid cancer
Authors: Wu, Li-Hsien and Pangilinan, Christian R and Lee, Che-Hsin
Journal: Journal of Cancer (2022): 3268--3279
STK4 antisense RNA 1-p53 affects osteosarcoma
Authors: Hou, Jingyu and Yao, Weitao and Liu, Guoqing and Wu, Fangxing and Yan, Qiang and Guo, Liangyu and Wang, Chuchu
Journal: (2022)
Page updated on November 20, 2024

Ordering information

Price
Unit size
Catalog Number22326
Quantity
Add to cart

Additional ordering information

Telephone1-800-990-8053
Fax1-800-609-2943
Emailsales@aatbio.com
InternationalSee distributors
Bulk requestInquire
Custom sizeInquire
Technical SupportContact us
Purchase orderSend to sales@aatbio.com
ShippingStandard overnight for United States, inquire for international
Request quotation

Storage, safety and handling

H-phraseH303, H313, H333
Hazard symbolXN
Intended useResearch Use Only (RUO)
R-phraseR20, R21, R22
UNSPSC12171501

Platform

Fluorescence microscope

ExcitationFITC filter set
EmissionFITC filter set
Recommended plateBlack wall, clear bottom

Components

S-phase HeLa cells were detected with Bucculite™ XdU Cell Proliferation Fluorescence Imaging Kit (Cat#22326). HeLa cells at 50,000 cells/well/100 μL were seeded overnight in a 96-well black wall/clear bottom plate. Cells were treated with XdU at 37 ºC for 3 hours, and fixed with Methanol/PBS (90/10).  After fixation, cells were stained with iFluor® 488-MTA for 30 min in staining buffer, and then washed three times with 1X washing Buffer. 100µL 5 µg/ml Hoechst 33342 solution in 1X Washing Buffer were added to each well and the fluorescence images were visualized with FITC filter for S phase cells (Green) and with DAPI filter nuclear for all cells (Blue).
S-phase HeLa cells were detected with Bucculite™ XdU Cell Proliferation Fluorescence Imaging Kit (Cat#22326). HeLa cells at 50,000 cells/well/100 μL were seeded overnight in a 96-well black wall/clear bottom plate. Cells were treated with XdU at 37 ºC for 3 hours, and fixed with Methanol/PBS (90/10).  After fixation, cells were stained with iFluor® 488-MTA for 30 min in staining buffer, and then washed three times with 1X washing Buffer. 100µL 5 µg/ml Hoechst 33342 solution in 1X Washing Buffer were added to each well and the fluorescence images were visualized with FITC filter for S phase cells (Green) and with DAPI filter nuclear for all cells (Blue).
S-phase HeLa cells were detected with Bucculite™ XdU Cell Proliferation Fluorescence Imaging Kit (Cat#22326). HeLa cells at 50,000 cells/well/100 μL were seeded overnight in a 96-well black wall/clear bottom plate. Cells were treated with XdU at 37 ºC for 3 hours, and fixed with Methanol/PBS (90/10).  After fixation, cells were stained with iFluor® 488-MTA for 30 min in staining buffer, and then washed three times with 1X washing Buffer. 100µL 5 µg/ml Hoechst 33342 solution in 1X Washing Buffer were added to each well and the fluorescence images were visualized with FITC filter for S phase cells (Green) and with DAPI filter nuclear for all cells (Blue).