Molecular Weight Determination of Carbonic Anhydrase with the BI-MwA
J. McConville, J. Bodycomb,
Size-exclusion chromatography (GPC/SEC) has been a useful technique for the determination of molecular weights of proteins. However, its usefulness is limited by the requirement for calibration of the GPC/SEC columns with “standards comprising proteins of known molecular weight but which may not be of the same chemistry as the unknown protein. Then depending on the eluent it is possible that certain proteins might adhere to the stationary phase during elution, yielding erroneous molecular weight determinations.
A better approach is to equip the GPC/SECsystem with a light scattering detector, enabling accurate molecular weight determinations without the need for column calibration. In this application note, we illustrate the power of this method by determining the molecular weight of carbonic anhydrase under standard chromatography conditions.
Light scattering data is typically analyzed with the Zimm equation:
Here, K is the Debye constant, a constant of the polymer/solvent system and proportional to the square of the refractive
index increment, dn/dc¹. Polymer concentration, c, is determined when sample solutions are prepared, and ΔR is proportional
to the excess scattered intensity and measured by the BI-MwA. q is the scattering vector².
The ParSEC software calculates absolute concentration and molecular weight as a function of elution volume by generating partial Zimm plots based on the Zimm equation and extrapolating the light scattering data to zero angle. Naturally, extrapolation to zero concentration is impossible since concentration dependent data is unavailable. But, like all modern SEC-LS software ParSEC allows a correction for the second virial coefficient. For this protein, a molecular weight of 28,760 g/mol was obtained which is in excellent agreement with the expected value of 29,000 g/mol.
The data show that the BI-MwA can be used to accurately calculate the absolute molecular weight of monomer and dimer peaks of proteins without the need for column calibration.
Experimental Conditions
Analyte: Carbonic Anhydrase from Bovine Erythrocytes
Concentration: 4.59 mg/mL
Injection Volume: 50 microliters
Eluent: phosphate buffered saline (PBS) at pH 7.5
Flow Rate: 0.5 mL/min
Column: Superdex 200 10/300 column
RI detector: BI-DNDC/F
Light Scattering Detector: BI-MwA
Software: ParSEC “Enhanced” multi-detector chromatography software
1: For vertically polarized light, as in the case of the BI-MwA and other modern light scattering instruments, K = 4 π² n²
(dn/dc)²/(Nλ4) where n is the solvent refractive index, N is Avogadro’s number, and λ is the wavelength of the laser in vacuum.
2: q= (4πn/λ)sin(Θ/2). Here, n is the refractive index of the solvent, λ is wavelength, and Θ is the scattering angle.
With kind permission of Brookhaven Instruments Corp.