An agarose gel electrophoretic method for analysis of hyaluronan molecular weight distribution

HG Lee, MK Cowman - Analytical biochemistry, 1994 - Elsevier
HG Lee, MK Cowman
Analytical biochemistry, 1994Elsevier
An electrophoretic method is described for determining the molecular weight distribution of
hyaluronan (HA). The method involves separation of HA by electrophoresis on a 0.5%
agarose gel, followed by detection of HA using the cationic dye Stains-All (3, 3′-dimethyl-9-
methyl-4, 5, 4′ 5′-dibenzothiacarbocyanine). The recommended sample load is 7 μg.
Calibration of the method with HA standards of known molecular weight has established a
linear relationship between electrophoretic mobility and the logarithm of the weight-average …
An electrophoretic method is described for determining the molecular weight distribution of hyaluronan (HA). The method involves separation of HA by electrophoresis on a 0.5% agarose gel, followed by detection of HA using the cationic dye Stains-All (3,3′-dimethyl-9-methyl-4,5,4′5′-dibenzothiacarbocyanine). The recommended sample load is 7 μg. Calibration of the method with HA standards of known molecular weight has established a linear relationship between electrophoretic mobility and the logarithm of the weight-average molecular weight over the range of approximately 0.2-6 × 106. The separated HA pattern may also be visualized after electrotransfer of HA from the agarose gel to a nylon membrane. The membrane may be stained with the dye alcian blue. Alternatively, specific detection of HA from impure samples can be achieved by probing the nylon membrane with biotin-labeled HA-binding protein and subsequent interaction with a streptavidin-linked gold reagent and silver staining for amplification. The electrophoretic method was used to analyze HA in two different liquid connective tissues. Normal human knee joint synovial fluid showed a narrow HA molecular weight distribution, with a peak at 6-7 × 106. Owl monkey vitreous HA also showed a narrow molecular weight distribution, with a peak at 5-6 × 106. These results agree well with available published data and indicate the applicability of the method to the analysis of impure HA samples which may be available in limited amounts.
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