Protein Epsilon Calculator

Enter sequences or residue counts. Calculate epsilon, A280, concentration, and mass coefficients fast with checks. Export clear chemistry results for reports and daily review.

Calculator

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Formula Used

The residue based molar extinction coefficient at 280 nm is:

ε280 = (nW × 5500) + (nY × 1490) + (nCystine × 125)

Here, nW is tryptophan count, nY is tyrosine count, and nCystine is disulfide bond count. The unit is M^-1 cm^-1.

Beer Lambert law is also used:

A = ε × c × l

A is absorbance, c is molar concentration, and l is path length in centimeters.

How to Use This Calculator

  1. Paste a protein sequence, or enter residue counts manually.
  2. Keep sequence counting enabled when using a complete sequence.
  3. Set cystine carefully. Cystine means disulfide bonds, not free cysteine.
  4. Enter molecular weight if you need mass based concentration output.
  5. Add measured A280, path length, and dilution factor.
  6. Press Calculate to view results above the form.
  7. Use CSV or PDF buttons to save the calculated report.

Example Data Table

Protein example Trp Tyr Cystine ε280 M^-1 cm^-1 MW kDa A280 at 10 µM
Small aromatic peptide 1 2 0 8480 5.2 0.0848
Lysozyme style protein 6 3 4 37970 14.3 0.3797
Albumin style protein 2 20 17 42925 66.5 0.4293

Protein Epsilon Calculation Guide

Why Epsilon Matters

Protein epsilon values help describe how strongly a protein absorbs ultraviolet light at 280 nm. The value is useful when a lab estimates protein concentration from an absorbance reading. It also helps compare constructs before purification, labeling, or storage studies.

Residue Based Calculation

The calculator uses the common residue based method. Tryptophan, tyrosine, and cystine contribute most of the signal at 280 nm. A sequence can be pasted into the form. The tool counts those residues and estimates a molar extinction coefficient. Manual counts are also available when the full sequence is unknown.

Input Quality

A good epsilon estimate depends on clean input. Remove tags, spaces, numbering, and nonstandard symbols when possible. The sequence parser ignores characters that are not amino acid letters. It then reports sequence length, selected residue counts, and an estimated molecular weight. You can also enter your own molecular weight for mature chains, cleaved tags, or glycosylated proteins.

Absorbance and Concentration

Beer Lambert law links absorbance, epsilon, concentration, and path length. When epsilon and absorbance are known, concentration can be estimated. When concentration is known, the expected A280 value can be predicted. Dilution factor support is useful for cuvette or microvolume workflows.

Cystine Handling

Cystine requires special care. The formula uses cystine, not free cysteine. One cystine means one disulfide bond formed from two cysteine residues. If the oxidation state is unknown, the automatic value is only a practical estimate. For reduced proteins, set cystine to zero.

Mass Reporting

The mass coefficient helps convert between molar and mass based reporting. It is calculated by dividing molar epsilon by molecular weight in grams per mole. This is helpful when results are reported as mg per mL instead of micromolar.

Laboratory Notes

Use the output as a planning and reporting aid. Experimental readings can still shift with buffer, pH, scattering, impurities, nucleic acids, and instrument setup. Blank the instrument correctly. Use the right path length. Check dilutions carefully. For regulated work, confirm final values with validated laboratory methods and approved records.

Practical Use

The tool is most useful during cloning, expression screening, and purification planning. It can flag proteins that lack aromatic residues. Such proteins may show weak A280 signals. In those cases, colorimetric assays, labeled standards, or amino acid analysis may give stronger confirmation for final concentration records during routine bench checks accurately.

FAQs

What is protein epsilon?

Protein epsilon is the molar extinction coefficient. It shows how strongly a protein absorbs light at a selected wavelength, usually 280 nm.

Which residues affect A280 most?

Tryptophan contributes most, followed by tyrosine. Cystine adds a smaller contribution when disulfide bonds are present.

Is cystine the same as cysteine?

No. Cystine means a disulfide bond made from two cysteine residues. Free reduced cysteine is not counted in this formula.

Can I use only manual counts?

Yes. Leave the sequence box empty or disable sequence counting. Then enter tryptophan, tyrosine, and cystine counts manually.

Why enter molecular weight?

Molecular weight allows conversion from molar results to mass based values, such as mg/mL and mass extinction coefficient.

What does dilution factor mean?

It is the factor used before measuring absorbance. A 1:10 dilution should be entered as 10.

Why is my epsilon zero?

The entered protein may have no tryptophan, tyrosine, or cystine. Review the sequence, or use another concentration method.

Is this enough for final lab reporting?

It is useful for planning and routine checks. Confirm final values using validated methods required by your laboratory protocol.

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