Abstract
Hyaluronic acid (HA) concentration is an important parameter in fermentation process. Currently, carbazole assay is widely used for HA content determination in routine analysis. However, this method is time-consuming, environment polluting and has the risk of microbial contamination, as well as the results lag behind fermentation process. This paper attempted the feasibility to predict the concentration of HA in fermentation broth by using near infrared (NIR) spectroscopy in transmission mode. In this work, a total of 56 samples of fermentation broth from 7 batches were analyzed, which contained HA in the range of 2.35–9.69 g/L. Different data preprocessing methods were applied to construct calibration models. The final optimal model was obtained with first derivative using Savitzky–Golay smoothing (9 points window, second-order polynomial) and partial least squares (PLS) regression with leave-one-block-out cross validation. The correlation coefficient and Root Mean Square Error of prediction set is 0.98 and 0.43 g/L, respectively, which show the possibility of NIR as a rapid method for microanalysis and to be a promising tool for a rapid assay in HA fermentation.
Highlights
Hyaluronic acid (HA) is a high-molecular weight biopolysaccharide, discovered in 1934 by Meyer and Palmer in the vitreous of bovine eyes
The aim of the present work was to examine the potential of near infrared (NIR) spectroscopy for such purpose
After applying di®erent spectral preprocessing methods, it was found with arst derivative using Savitzky–Golay smoothing (9 points window, second order polynomial), the absorbance values at 6000–5970 cmÀ1 that were detected exhibiting obvious HA concentration correlation
Summary
Hyaluronic acid (HA) is a high-molecular weight biopolysaccharide, discovered in 1934 by Meyer and Palmer in the vitreous of bovine eyes. It is found in most connective tissues and is concentrated in synovial °uid, the vitreous °uid of the. This is an Open Access article published by World Scientic Publishing Company. HA from microbial fermentation is receiving increased attention for avoidance of cross-species viral infection and the use of hazardous solvents.[3,4]
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