BCA Assay and Lowry Assays - IT (2024)

Figure 1. The first step is the chelation of copper with protein in an alkaline environment to form a blue-colored complex. In this reaction, peptides containing three or more amino acid residues form a colored chelate complex with cupric ions in an alkaline environment containing sodium potassium tartrate.

Figure 2. In the second step, BCA reagent, a highly sensitive and selective colorimetric detection reagent, reacts with the cuprous cation (Cu+) that was formed in the first step and produces a purple-color.

Figure 3. The Pierce Dilution-Free Rapid Gold BCA Assay reduces setup time by up to 80% compared to other protein assays. The assays were conducted following the manufacturer’s protocols in a microplate format. Five cell lysates and five pure proteins were prepared to give a total of ten samples. Standard curves for the BCA and Bradford assays were generated through serial dilution of 2 mg/mL bovine serum albumin (BSA) standard. The standard curve for the Pierce Dilution-Free Rapid Gold BCA Assay was generated using Pierce Dilution-Free BSA Protein Standards (included with the kit) packaged in a multichannel pipette-friendly tube strip. Four of the ten samples were expected to have a starting concentration of >2 mg/mL, which necessitated a sample dilution step for the BCA and Bradford assays, whereas samples were not required to be diluted for the Dilution-Free Rapid Gold BCA Assay. Samples were then mixed with working reagent from each assay and incubated according to the manufacturer’s instructions.

Figure 4. Pierce Dilution-Free Rapid Gold BCA Protein Assay generates a linear standard curve across a wide dynamic range (0–10 mg/mL). Standard curves were produced for the Pierce Dilution-Free Rapid Gold BCA Protein Assay and the Quick Start Bradford Protein Assay (Bio-Rad) with purified BSA in 0.9% saline (0–10 mg/mL). Both assays were conducted using the manufacturer’s protocols in a microplate format. Absorbance readings were taken using the Thermo Scientific Varioskan LUX Multimode Microplate Reader.

Figure 5. Protein quantification results of the Pierce Dilution-Free Rapid Gold BCA Protein Assay and the Quick Start Bradford Protein Assay compared to samples of known concentration. Both assays were conducted in a microplate format, according to the respective manufacturers’ protocols. For the Bradford assay, 5 μL of sample was added to 250 μL of the Bradford working reagent and incubated at room temperature for 5 minutes. For the Dilution-Free Rapid Gold BCA Protein Assay, 10 μL of sample was added to 200 μL of Dilution-Free Rapid Gold BCA working reagent and incubated at room temperature for 5 minutes. Known concentrations of protein samples were based on manufacturers’ indicated concentrations and were confirmed by absorbance at 280 nm.

Figure 6. BCA Protein Assay Kit with Dilution-Free BSA Protein Standards, multichannel pipe compatible protocol.

Figure 7. Dilution-Free Rapid Gold BCA Protein Assay Kit protocol.

Figure 8. Reaction schematic for the Pierce Modified Lowry Protein Assay Kit.

Figure 9. Pierce Modified Lowry Protein Assay protocol

BCA kits overview

• Dilution-Free Rapid Gold BCA Protein Assay – green to yellow (A480 nm), 2-component, precise, detergent compatible assay to measure total protein vs. protein standard in 5 minutes at room temperature
• BCA Protein Assay with Dilution-Free BSA Protein Standards – green-to-purple (A562 nm), 2-component, precise, detergent-compatible assay reagent to measure total protein concentration vs. protein standard in 30 minutes at 37°C.
• BCA Protein Assay - Reducing Agent Compatible – reducing agent–compatible version of our BCA Reagent Kit to measure protein concentration in samples containing DTT or BME thiol-reductants.
• Micro BCA Protein Assay – special 3-component version of our BCA Reagent Kit to measure total protein concentration of dilute protein solutions (0.5 to 20 μg/mL).

Chemistry of BCA-based protein assays

The Pierce BCA Protein Assays combines the well-known reduction of Cu²⁺ to Cu⁺ by protein in an alkaline medium (also known as the biuret reaction) with the highly sensitive and selective colorimetric detection of the cuprous cation (Cu⁺) by bicinchoninic acid (BCA).

The BCA-copper complex is water-soluble and exhibits a strong linear absorbance at 562 nm with increasing protein concentrations. The purple color may be measured at any wavelength between 550 and 570 nm with minimal (less than 10%) loss of signal. The signal induced by the BCA reagent is approximately 100 times more sensitive (lower limit of detection) than the signal using the biuret reagent.

Pierce Dilution-Free Rapid Gold BCA protein assay uses the same copper reduction method as traditional BCA assay with a unique copper chelator. In the second step of the color development reaction, the Pierce Dilution-Free Rapid Gold BCA chelator reacts with the reduced (cuprous) cation (Cu+) that was formed in step one to produce an intensely gold-colored reaction product. The copper complex exhibits a strong linear absorbance at 480 nm with increasing protein concentrations.

Dilution-free BSA protein standards are available separately or as part of other BCA protein assays. Compared to the Bradford Assay or Pierce BCA Protein assay kit, the Dilution-Free Rapid Gold BCA Protein Assay reduces assay setup by up to 80% by eliminating the need to dilute samples and standards. Additionally, it only requires a 5-minute, room temperature incubation. The dilution-free BSA protein standards are also available in the BCA Protein Assay Kit with Dilution-Free BSA Protein Standards.

BCA protein quantification

One of the major advantages of the BCA assay is that it produces a linear response curve. This response curve allows accurate determination of unknown protein concentrations and provides a higher dynamic range than other standard assays.

BCA Protein Assay with Dilution-Free BSA Protein Standards

The Pierce BCA Protein Assay can be performed using two different formats based upon the dynamic range needed to detect the protein concentration of an unknown sample. This BCA assay detects protein concentrations from 20–2,000 μg/mL using a two-component system: Reagent A, a carbonate buffer containing BCA reagent, and Reagent B, a cupric sulfate solution, which are combined to make an apple green–colored working solution that turns purple after 30 minutes at 37°C in the presence of protein. Since the color reaction is not a true endpoint reaction, considerable protocol flexibility is allowed with the Pierce BCA Protein Assay. By increasing the incubation temperature, the sensitivity of the assay can be increased. When using the enhanced tube protocol (i.e., incubating at 60°C for 30 minutes), the working range for the assay shifts to 5–250 μg/mL, facilitating detection of more dilute samples.

Dilution-Free Rapid Gold BCA Protein Assay Kit protocol

The Dilution-Free Rapid Gold BCA Protein Assay provides the high sensitivity and linearity associated with the BCA assay but performed within a fraction of the time. Simply mix the BCA working solution, add samples and dilution-free standards to your microplate, incubate for 5 minutes at room temperature, and read the absorbance.

Lowry assay principles

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.

Chemistry of the Pierce Modified Lowry Assay

The Pierce Modified Lowry Protein Assay is an enhanced biuret assay involving copper-chelation chemistry. Although the mechanism of color formation for the Pierce Modified Lowry Protein Assay is similar to that of the Pierce BCA Protein Assay, there are several significant differences between the two. While the precise mechanism for color formation using the Pierce Modified Lowry Protein Assay is not completely understood, it is known that the reaction occurs as two distinct steps. First, protein reacts with alkaline cupric sulfate in the presence of tartrate during a 10-minute incubation at room temperature. During this incubation, a tetradentate copper complex forms from four peptide bonds and one atom of copper, which is light blue in color (this is the “biuret reaction”). Following the incubation, the Folin phenol reagent is added. It is believed that the color enhancement occurs when the tetradentate copper complex transfers electrons to the phosphom*olybdic–phosphotungstic acid complex (the Folin phenol reagent). The reduced phosphom*olybdic–phosphotungstic acid complex produced by this reaction is intensely blue in color.

Manuals & protocols

• User Guide: Pierce Dilution-Free Rapid Gold BCA Protein Assay Kit
• User Guide: Pierce BCA Protein Assay Kit with Dilution-Free BSA Protein Standards
• User Guide: Pierce BCA Protein Assay Kit − Reducing Agent Compatible
• User Guide: Micro BCA Protein Assay Kit
• User Guide: Modified Lowry Protein Assay Kit

Application & technical guides

• Technical handbook: Protein Assays
• Tech Tip: Determine acceptable wavelengths for measuring protein assays
• Tech Tip: Eliminate interfering substances from samples for BCA Protein Assay
• Tech Tip: How to use a protein assay standard curve
• Tech Tip: Protein assay compatibility table

Other literature

• Liberate yourself with Pierce Dilution-Free protein assays