What is an oligo calculator?

An oligo calculator calculates the physical and chemical properties of a short DNA or RNA sequence including melting temperature (Tm), molecular weight, GC content, extinction coefficient at 260 nm, and resuspension volume.

How do I calculate the Tm of an oligonucleotide?

The most accurate method for 8–40 nt oligos is the nearest-neighbor thermodynamic method. For longer sequences use the salt-adjusted formula. The basic Wallace rule (2AT + 4GC) is suitable only for quick estimates of very short oligos.

How do I use an oligo resuspension calculator?

Enter the nmol amount from your vial and your desired stock concentration (commonly 100 µM). The calculator divides nmol by µM to give the volume in µL to add. For example, 10 nmol ÷ 100 µM = 100 µL.

What is a good Tm for a PCR primer?

For PCR, aim for primer Tm between 55–65°C, with forward and reverse primers within 5°C of each other. Set annealing temperature 3–5°C below the lower Tm. GC content between 40–60% is optimal.

What is the difference between ssDNA and dsDNA molecular weight?

ssDNA MW = (A×313.21) + (T×304.2) + (C×289.18) + (G×329.21) − 61.96. dsDNA MW is approximately double the ssDNA MW minus 61.96 for the second strand.

Oligo Calculator — Tm, Molecular Weight, Resuspension & GC% | Calcgator

🧬 Molecular Biology Tool

Oligo Calculator

Calculate melting temperature (Tm), molecular weight, GC%, extinction coefficient and resuspension volume for any DNA or RNA oligonucleotide. Instant — no login needed.

✓ 3 Tm methods ✓ DNA & RNA ✓ ssDNA / dsDNA ✓ Resuspension ✓ PCR quality ✓ Free forever

Tm methods

DNA+RNA

Molecule types

Calculators in one

Cost forever

Enter sequence (5′ → 3′)

Type:

5′ mod:

Na⁺ (mM)

Primer conc. (nM)

A260 (optional)

Key Properties

🌡️ Melting Temperature — All 3 Methods

Method	Tm (°C)	Annealing	Best For	Accuracy

Base Composition

PCR Primer Quality Assessment

💡 Primer Design Suggestions

Oligo Resuspension Calculator

Calculate how much buffer/water to add to your lyophilized oligo to reach your target concentration.

Oligo amount received Printed on your vial or spec sheet

Target stock concentration 100 µM is the standard stock

µM

If using OD₂₆₀ — ext. coefficient

L/mol·cm

Diluent / buffer

Add to your oligo

— µL

Allow lyophilized oligo to reach room temperature before opening (≥5 min)

Add — µL of TE buffer to the vial

Vortex briefly (10–15 s), spin down. Let sit 1 min. This is your stock solution.

Dilute 1:10 → 10 µM working solution. Store stock at −20°C.

📊 Quick Resuspension Reference (nmol → µL)

Amount (nmol)	100 µM (stock)	50 µM	10 µM (working)
5 nmol	50 µL	100 µL	500 µL
10 nmol	100 µL	200 µL	1,000 µL
25 nmol	250 µL	500 µL	2,500 µL
50 nmol	500 µL	1,000 µL	5,000 µL

Oligo Dilution Calculator

Calculate how to dilute your stock solution to a desired working concentration (C₁V₁ = C₂V₂).

Stock concentration (C₁)

µM

Stock volume available

µL

↓

Target concentration (C₂)

µM

Final volume needed (V₂)

µL

💡 Primer Design Tips

🎯

Optimal length: 18–25 ntLong enough for specificity, short enough for efficient synthesis.

🧮

Balance GC at 3′ endEnd with 1–3 G/C bases. Avoid 4+ in a row (GC clamp problem).

🔁

Avoid self-complementarity3+ consecutive complementary bases at 3′ end cause primer-dimers.

🌡️

Match primer Tm valuesKeep forward and reverse Tm within 5°C for clean amplification.

🌡️

3 Methods for Accurate Tm

All three industry-standard melting temperature methods: the basic Wallace rule (2AT + 4GC), the salt-adjusted formula (best for 14–50 nt), and the nearest-neighbor thermodynamic model (most accurate for 8–40 nt). Use nearest-neighbor for PCR primer design.

💧

Resuspension Built In

Most oligo calculators force you to open a separate tool for resuspension. Ours includes it in the same page. Enter the nmol amount from your vial, set your target stock concentration (usually 100 µM), and get the exact volume of TE buffer to add — plus step-by-step instructions.

📊

PCR Quality Check

Calcgator's oligo calculator assesses your primer across 5 quality dimensions: length, GC content, GC balance at the 3′ end, repeat sequences and Tm suitability for PCR. It flags issues and explains how to fix them — before you order synthesis.

An oligo calculator (or oligocalc) calculates the physical and chemical properties of a short DNA or RNA sequence: melting temperature (Tm), molecular weight, GC percentage, extinction coefficient at 260 nm, and resuspension volume. Researchers use these values when designing PCR primers, probes, CRISPR guide RNAs, siRNAs and sequencing primers.

For oligonucleotides between 8 and 40 nt, the nearest-neighbor thermodynamic method is the most accurate. It accounts for stacking interactions between adjacent base pairs, not just GC count. The salt-adjusted formula is preferred for longer sequences. The Wallace rule (Tm = 2AT + 4GC) is simplest but least accurate — use only for very short oligos (<13 nt) or quick estimates.

Enter the nmol amount printed on your oligo vial (actual yield — not the synthesis scale ordered). Enter your desired stock concentration — 100 µM is standard for PCR primers. The calculator divides: Volume (µL) = nmol ÷ µM. For example, 10 nmol ÷ 100 µM = 100 µL of TE buffer or nuclease-free water.

Stock concentration (usually 100 µM) is the concentrated master solution stored long-term at −20°C. Working concentration (usually 10 µM) is a diluted aliquot kept at 4°C for regular use. This protects your stock from repeated freeze-thaw cycles. Final primer concentration in a PCR reaction is typically 200–500 nM per primer.

Optimal GC content for PCR primers is 40–60%. Below 40%, the Tm will be low, increasing non-specific amplification. Above 60%, secondary structures like hairpins become more likely. End the primer with a GC clamp — 1–2 G or C bases at the 3′ end — which improves binding efficiency.

For ssDNA: MW = (A × 313.21) + (T × 304.2) + (C × 289.18) + (G × 329.21) − 61.96. The −61.96 accounts for the loss of water during strand formation. For dsDNA, calculate both strands and sum them. For RNA, replace T (304.2) with U (306.17) and add 159.0 for the 5′ triphosphate if calculating a transcript.

Community wish list:

Buffer molarity Cell dilution Gel loading PCR efficiency Protein MW

Oligo Calculator

3 Methods for Accurate Tm

Resuspension Built In

PCR Quality Check

Oligo calculator questions

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