What are the different methods used to do protein quantification?

The three most commonly used of these methods are: the Biuret assay, the Lowry assay, and the Bradford assay. This assay is based on copper binding to proteins under alkaline condi- tions.

How does the Pierce assay work?

The assay is based on a dye-metal complex that binds to proteins in an acidic solution. Upon binding, the reddish dye-metal complex changes to green, resulting in an absorbance shift measurable at 660 nm.

How does the Pierce BCA Protein Assay work?

The BCA Protein Assay combines the well-known reduction of Cu2+ to Cu1+ by protein in an alkaline medium with the highly sensitive and selective colorimetric detection of the cuprous cation (Cu1+) by bicinchoninic acid (BCA).

How does UV measure protein concentration?

Procedure

  1. Warm up the UV lamp (about 15 min.)
  2. Adjust wavelength to 280 nm.
  3. Calibrate to zero absorbance with buffer solution only.
  4. Measure absorbance of the protein solution.
  5. Adjust wavelength to 260 nm.
  6. Calibrate to zero absorbance with buffer solution only.
  7. Measure absorbance of the protein solution.

Which is the best protein assay?

Top 5 Protein Quantification Assays

  • Bicinchoninic Acid (BCA) This colorimetric, two-step assay was originally developed in 1985 – making it a baby compared with the 64-year-old Lowry assay!
  • Bradford.
  • Folin-Lowry.
  • Kjeldahl.
  • Ultraviolet Absorption.

How do you quantify protein in BCA?

The BCA assay requires two chemical reactions in order to produce the purple colored product that can be measured by spectrophotometry at 562 nm. The most common instrument used to measure this product is a plate reader, because a standard protein concentration curve is needed to produce a truly quantitative result.

How do you quantify protein concentration?

Protein concentration can be estimated by measuring the UV absorbance at 280 nm; proteins show a strong peak here due to absorbance from Tryptophan and Tyrosine residues (commonly referred to as A 280).

How do you calculate the molar concentration of a protein?

The simple formula is: ( µg/mL ) = ( µM ) * ( MW in KD) , ( ng/mL ) = ( nM ) * ( MW in KD) , ( pg/mL ) = ( pM ) * ( MW in KD) . For example: If the protein molar concentration is labeled as 2 µM, and the MW of the protein is 40 KD, then this protein product’s mass concentration will be 2 ( µM ) * 40 ( KD ) = 80 µg/mL.

Is Lowry better than Bradford?

Furthermore, the Bradford method gives quick results than Lowry protein assay. However, both methods are highly sensitive methods and are subject to interferences from various substances.

Why choose therthermo scientific Pierce protein assays?

Thermo Scientific Pierce Protein Assays provide a wide range of options for accurate protein concentration determination based on assay time, sensitivity, compatibility, standard curve linearity, and protein-to-protein variation.

What is the Pierce BCA protein assay kit?

Pierce BCA Protein Assay Kit is a two-component, high-precision, detergent-compatible protein assay for determination of protein concentration. Pierce BCA reagents provide accurate determination of protein concentration with most sample types encountered in protein research. The Pierce BCA assay can be used to assess yields in whole cell…

How accurate are Pierce rapid gold and Bradford protein assays?

Accuracy of the Pierce Rapid Gold BCA Protein Assay and Bradford Protein Assay with known protein mixes. Both assays were conducted according to the respective manufacturers’ protocols, in a microplate format. Known concentrations were based on manufacturers’ indicated concentrations and confirmed by absorbance at 280 nm.

What is the Pierce Modified Lowry protein assay?

The Pierce Modified Lowry Protein Assay is based on the colorimetric method introduced by Oliver H. Lowry in 1951. The Pierce modified assay replaces two of the assay’s traditional unstable reagents with a single, more stable one. The Pierce Modified Lowry Protein Assay is an enhanced biuret assay involving copper-chelation chemistry.