qPCR Double Delta Ct Analysis in 4 Easy Steps (2024)

You are at the airport burning away time with a report due tomorrow morning for your professor. You have your data. Why not take advantage of the time and calculate the expression fold change for the genes you have tested in that first qPCR experiment you did last week?

It’s easy – I’ll show you how.

Check Your Method

There are two main ways to analyze qPCR data: double delta Ct analysis and the relative standard curve method (Pfaffl method). Both methods make assumptions and have their limitations, so the method you should use for your analysis will depend on your experimental design.

The double delta Ct analysis assumes that:

there is equal primer efficiency between primer sets (i.e. within 5%);
there is near 100% amplification efficacy of the reference and the target genes;
the internal control genes are constantly expressed and aren’t affected by the treatment.

The method generally caters to experiments with a large number of DNA samples and a low number of genes to be tested.

The relative standard curve method assumes that:

there are equal efficiencies between the control and the treated samples.

This method works better if you have fewer DNA samples but a larger number of genes to test.

What You Need for Double Delta Ct Analysis

qPCR Ct values (raw data) for:
- the housekeeping gene: control and experimental conditions;
- the gene of interest: control and experimental conditions;
An Excel spreadsheet.

And that’s it! No expensive software required.

Here is a quick summary of the key steps in the double delta Ct analysis (for a detailed explanation read this paper).

4 Steps for Double Delta Ct Analysis

1. Take the average of the Ct values for the housekeeping gene and the gene being tested in the experimental and control conditions, returning 4 values. The 4 values are Gene being Tested Experimental (TE), Gene being Tested Control (TC), Housekeeping Gene Experimental (HE), and Housekeeping Gene Control (HC).

Average Experimental C_t Value	Average Experimental C_t Value	Average Control C_t Value	Average Control C_t Value	\DeltaC_t Value (Experimental)	∆C_t Value (Control)
TE	HE	TC	HC	\DeltaCTE	\DeltaCTC
21.27	20.23	19.60	19.27	1.03	0.33

2. Calculate the differences between experimental values (TE – HE) and the control values (TC – HC). These are your ΔCt values for the experimental (∆CTE) and control (∆CTC) conditions, respectively.

3. Then, calculate the difference between the \DeltaCT values for the experimental and the control conditions (\DeltaCTE – \DeltaCTC) to arrive at the double delta Ct value (\Delta\DeltaCt).

4. Since all calculations are in logarithm base 2, every time there is twice as much DNA, your Ct values decrease by 1 and will not halve. You need to calculate the value of 2^{-\Delta\Delta C_{t}} to get the expression fold change.

\DeltaC_t Value (Experimental)	\DeltaC_t Value (Control)	\Delta\DeltaC_t Value	Expression Fold Change
\DeltaCTE	\DeltaCTC	\Delta\DeltaCt	2^{-\Delta\Delta C_{t}}
1.03	0.33	0.70	0.615572207

What Does the Value Mean?

Now that you have your value for fold change, what does it actually mean? This value is the fold change of your gene of interest in the test condition, relative to the control condition, which has all been normalized to your housekeeping gene.

To make it a little clearer – you can think about it as a percentage. A fold change of 1 means that there is 100% as much gene expression in your test condition as in your control condition – so there is no change between the experimental group and the control group. A fold-change value above 1 is showing upregulation of the gene of interest relative to the control (1.2-fold change = 120% gene expression relative to control, 5 = 500%, 10 = 1,000%, etc.). Values below 1 are indicative of gene downregulation relative to the control (fold change of 0.5 is 50% gene expression relative to control, so half as much expression as in the control, etc.).

You can present these data as fold-change bar charts, graphing the control conditions equal to 1. You can also use statistical analyses to check the significance of the changes, e.g. using an analysis of variance (ANOVA) or t-tests, whatever is appropriate for your experimental set-up!

Using these steps you can conduct your qPCR analysis wherever you are, even if you’re on a road trip. To make things even easier, you can create an Excel template to use each time. Then you will only have to input your data and you will astonish others with your alacrity in conducting analyses!

Need more qPCR help? Discover our top 11 qPCR papers and improve your qPCR data and analysis.

Originally published July 9, 2016. Reviewed and updated on February 8, 2021.

FAQs

How to calculate double delta CT? ›

ΔΔCT = ΔCT(a target sample)−ΔCT(a reference sample) = (CT_D − CT_B)−(CT_C − CT_A). The final result of this method is presented as the fold change of target gene expression in a target sample relative to a reference sample, normalized to a reference gene.

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What is the difference between the 2 delta CT method and the 2 delta CT method? ›

The "2^-delta ct method" calculates 2^-delta ct values for individual groups and compares these values between groups (independent samples). The "2^-delta delta ct method" calculates 2^-delta delta ct values from paired samples and compares these to 1.

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What is the 2 DCT method? ›

For the evaluation of the expression level of each miRNA was used the Ct (threshold cycle) method quantification. The threshold cycle (Ct) is defined as the PCR cycle at which the fluorescent signal of the reporter dye crosses an arbitrarily placed threshold.

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What is delta CT in qPCR? ›

Basically, ∆Ct is the difference in Ct values for your gene of interest and your housekeeping gene for a given sample. This is to essentially normalise the gene of interest to a gene which is not affected by your experiment. Using the ∆∆ Ct formula to calculate gene expression.

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How to analyse qPCR results? ›

There are two main ways to analyze qPCR data: double delta Ct analysis and the relative standard curve method (Pfaffl method). Both methods make assumptions and have their limitations, so the method you should use for your analysis will depend on your experimental design.

Get More Info Here ›

How do you perform a DCT? ›

To perform DCT Transformation on an image, first we have to fetch image file information (pixel value in term of integer having range 0 – 255) which we divides in block of 8 X 8 matrix and then we apply discrete cosine transform on that block of data.

What is the formula for DCT? ›

The DCT Transform Matrix

For an M-by-M matrix A , T*A is an M-by-M matrix whose columns contain the one-dimensional DCT of the columns of A . The two-dimensional DCT of A can be computed as B=T*A*T' . Since T is a real orthonormal matrix, its inverse is the same as its transpose.

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What is the process of DCT? ›

In a DCT algorithm, an image (or frame in an image sequence) is divided into square blocks which are processed independently from each other, then the DCT of these blocks is taken, and the resulting DCT coefficients are quantized. This process can cause blocking artifacts, primarily at high data compression ratios.

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What is a good Ct value for qPCR? ›

Lower C_q values (typically below 29 cycles) indicate high amounts of the target sequence. Higher C_q values (above 38 cycles) mean lower amounts of your target nucleic acid. High C_q values can also indicate problems with the target or the PCR set-up, as outlined later in the pitfalls section of this article.

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What is the ∆ ∆ cq method? ›

Overall, ∆∆Cq yields a normalized, relative gene expression value. This is accomplished by normalization of a gene target with experimental treatment to an endogenous reference gene(s) whose expression should remain unchanged by the treatment.

What does Delta RN mean in qPCR? ›

The Rn value, or normalized reporter value, is the fluorescent signal from SYBR Green normalized to (divided by) the signal of the passive reference dye for a given reaction. The delta Rn value is the Rn value of an experimental reaction minus the Rn value of the baseline signal generated by the instrument.

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What is the formula for delta of 2 numbers? ›

If you have a random pair of numbers and you want to know the delta – or difference – between them, just subtract the smaller one from the larger one. For example, the delta between 3 and 6 is (6 - 3) = 3. If one of the numbers is negative, add the two numbers together.

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How do you calculate Delta CT SD? ›

Also in one of the most used guide to qPCR, "Guide to Performing Relative Quantitation of Gene Expression Using Real-Time Quantitative PCR" (Applied Biosystems), SD is calculated as above mentioned: SD DeltaCt = {(SD of c-myc)^2 + (SD of GAPDH)^2}^1/2 .

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How do you calculate the delta of a cost? ›

Say a call option has a value of $10, and the underlying asset has a price of $20. The underlying asset increases in price to $23, and the option value corresponds by increasing to $11. The delta is equal to: ($11-$10)/($23-$20) = 0.33.