Thymidine Incorporation Assays

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Overview
What do I need to run this assay
- Filtration format
- Cytostar-T format
Products and catalog numbers
Choose the right thymidine
Protocol-in-brief
Typical protocol for CytoStar-T assay
Application notes
Citations
Other 爱游戏平台注册登录 cell proliferation technologies

Overview

Cell proliferation studies based on the thymidine incorporation assay are employed frequently in immunological, cancer, stem cells, and pharmaceutical research to assess the ability both of natural and synthetic compounds to stimulate or inhibit the proliferation of lymphocytes and other cells.

Cell proliferation assays measure the incorporation of a radiolabeled DNA precursor, ³H- or ¹⁴C- thymidine, into the replication strands of DNA produced during cell division. Cultures are typically set up in microplates. The labeled DNA is usually captured with a cell harvester on glass fiber filters discs, which are then placed in liquid scintillation counting vials or directly harvested into a filter plate for counting on a scintillation beta-counter. The assay can also be performed using a scintillating Cytostar-T® plate, which requires no filtration step or scintillation cocktail.

Thymidine uptake assay

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What do I need to run this assay

Filtration format

Reagents available from 爱游戏平台注册登录 :

Radiolabeled thymidine (see next section)
TC-treated microplates for cell culturing (we recommend CulturPlates™)
Glass fiber filters (UniFilter plates or Filtermat)
Scintillation cocktail or Meltilex® solid scintillant (Cat. No. 1450-441) (if using Filtermat)
Scintillation vials (if using filter discs)
Cell harvester
TopSeal-A™ (Cat. No. 6050185) and BackSeal (Cat. No. 6005199) (if using UniFilter plates)
Radiometric detector (such as a Tri-Carb® liquid scintillation counter, or a high-throughput detector such as a TopCount® or MicroBeta®)

Reagents available from other suppliers:

Stimulation factors
Trypsin
Wash buffer (e.g. PBS)

Cytostar-T format

Cytostar-T plates (Cat. No. RPNQ0162 for 96-well, RPNQ0165 for 384-well)
TopSeal-A™ adhesive plate seal (Cat. No. 6050185)
White backseal, if counting from the top (Cat. No. 6005199)
Radiolabeled thymidine (see next section)
High-throughput radiometric detector (such as a TopCount or MicroBeta)
Cell culture medium, buffer for labeling
Stimulation factors

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Products and catalog numbers

Thymidine radiochemicals

Application	Compound	Specific activity	Rad. conc. (mCi/mL)	Packaging buffer	Storage temp.	Notes	Cat. number
DNA proliferation	Thymidine, [methyl-¹⁴C]	40-60 mCi/mmol	0.1	Steri-packaged, aqueous solution	5°C		NEC568
	Thymidine, [methyl-¹⁴C]	50-62 mCi/mmol	0.05	Steri-packaged, aqueous solution	5°C		NEC568D
	Thymidine, [methyl-³H]	2 Ci/mmol	1	Steri-packaged, aqueous solution	5°C	Recommend use within one month of receipt	NET027A
		6.7 Ci/mmol	1	Steri-packaged, aqueous solution	5°C	Recommend use within one month of receipt	NET027
		20 Ci/mmol	1	Steri-packaged, aqueous solution	5°C	Recommend use within one month of receipt	NET027X
		20 Ci/mmol	1	70% ethanol	-20°C		NET027E
		23-27 Ci/mmol	1	10% ethanol	5°C		NET027L
		40-60 Ci/mmol	1	2% ethanol	5°C		NET027W
		70-90 Ci/mmol	1	Steri-packaged, aqueous solution	5°C	Recommend use within one month of receipt	NET027Z
		100-130 Ci/mmol	1	2% ethanol	5°C	Recommend use within one month of receipt	NET512V
Total nucleic acid proliferation	Thymidine, [2-¹⁴C]	>50 mCi/mmol	0.1	Steri-packaged, aqueous solution	5°C		NEC156
	Thymidine, [6-³H]	>10 Ci/mmol	1	Steri-packaged, aqueous solution	5°C		NET355
	Thymidine, [6-³H]	5-6 Ci/mmol	1	Steri-packaged, aqueous solution	5°C		NET355L
DNA probe labeling	Deoxythymidine triphosphate, [methyl-³H]	10-25 Ci/mmol	1	50% ethanol	-20°C		NET221H
		70-90 Ci/mmol	1	50% ethanol	-20°C		NET221X
		70-90 Ci/mmol	2.5	10 mM Tricine buffer pH 7.6	-80°C		NET221A

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Choose the right thymidine

Notes

Total vs. DNA only proliferation: Thymidine will label both DNA and RNA. ³H-methyl-thymidine (thymidine labeled on the methyl group) will only label DNA.
Stability vs. toxicity: Formulations containing ethanol will last longer in storage, however may kill cells. Formulations without ethanol are less toxic to cells, but have a shorter shelf life.
Ease vs. flexibility: fixed specific activity means that the same volume can be used everytime. Products with variable specific activities tend to have higher specific activities (and therefore more signal); however the volume needs to be calculated each time.
Level of proliferation: high specific activity will give more signal, but will be less stable in storage
Proliferation vs. probes: Thymidine and methyl thymidine are used for proliferation studies, while thymidine triphosphate is used for probe labeling, because triphosphate is unable to penetrate the cell membrane.

Radiolabeled thymidine table

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Protocol-in-brief

Protocol

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Typical protocol for CytoStar-T assay

Sample protocol for 384-well CytoStar-T Plate

Grow cells to subconfluence in complete medium. Grow cells at 37°C in a humidified atmosphere with 5% CO₂ in 162 cm² flasks. Passage cells at 1:10. Exponentially growing cells exhibit best uptake.
Release the cells by trypsinization and estimate cell density in the resulting suspension.
Dilute the suspension in complete medium to the selected seeding density and dispense 40 μL/well. Incubate overnight at 37°C, 5% CO₂.
Remove overnight media from the wells and wash with 50 μL sterile PBS/well. Dilute [methyl-¹⁴C] thymidine to 0.625 μCi/mL in assay medium. Add 80 μL [methyl-¹⁴C] thymidine to the wells to give a final concentration of 0.05 μCi/mL.
Add [methyl-¹⁴C] thymidine to medium-only for solution control wells (background counts).
Cover the plates with a clear plastic plate seal and count the plates immediately.
Remove plate seal carefully and replace with plate lid. Return counted plate to the incubator. Count plate at appropriate intervals (e.g. every 24 hours up to 72 hours).
Check cells regularly under the microscope for growth and morphology.
Optional: Cells from individual wells may be trypsin released and counted at intervals to determine cell numbers (Cytostar-T signal is cell density dependent).
Optional: At termination of the experiment, uptake may be confirmed by liquid scintillation counting of cells.

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Application notes

1. Kivelä, P. et al. Filter counting applications with the MicroBeta² Microplate Counter. 爱游戏平台注册登录 Application Note (2009). Cell Proliferation Assay on MicroBeta²

2. Härkönen, P.L. et al. Cell Proliferation Assay by Using MicroBeta ³H-Thymidine Incorporation. 爱游戏平台注册登录 Application Note (2001). Cell Proliferation Assay by Using MicroBeta 3H-Thymidine Incorporation

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Citations

Inglis, J.J., Simelyte, E., McCann, F.E., Criado, G. & Williams, R.O. Protocol for the induction of arthritis in C57BL/6 mice. Nat Protoc 3, 612-618 (2008). Link
Liu, S. & Yamauchi, H. p27-Associated G1 arrest induced by hinokitiol in human malignant melanoma cells is mediated via down-regulation of pRb, Skp2 ubiquitin ligase, and impairment of Cdk2 function. Cancer Lett 286, 240-249 (2009). Link
Munier, C.M.L., Zaunders, J.J., Ip, S., Cooper, D.A. & Kelleher, A.D. A culture amplified multi-parametric intracellular cytokine assay (CAMP-ICC) for enhanced detection of antigen specific T-cell responses. J. Immunol. Methods 345, 1-16 (2009). Link
Lee-Hoeflich, S.T. et al. A central role for HER3 in HER2-amplified breast cancer: implications for targeted therapy. Cancer Res 68, 5878-5887 (2008). Link
Sommerfeld, M.R. et al. In vitro metabolic and mitogenic signaling of insulin glargine and its metabolites. PLoS ONE 5, e9540 (2010). Link

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Other 爱游戏平台注册登录 cell proliferation technologies

DELFIA fluorescent cell proliferation assay
ATPLite™ 1-step luminescent assay
ATPLite luminescent assay

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