Response surface methodology-based optimization of production media and purification of α-galactosidase in solid-state fermentation by Fusarium moniliforme NCIM 1099

Gajdhane, Sanjivani B.; Bhagwat, Prashant; Dandge, Padma B.

doi:10.1007/s13205-016-0575-7

Cited by 18 publications

(8 citation statements)

References 44 publications

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“…Interactions between the significant variables for uricase enzyme production graphically studied by three dimensional (3D) plots and two-dimensional (2D) contour plots [26]. Out of 4variables, 2 kept at optimum level while two kept at zero level, to evaluate the yield of uricase enzyme.…”

Section: Resultsmentioning

confidence: 99%

Statistical media optimization for the production of clinical uricase from Bacillus subtilis strain SP6

Pustake

Bhagwat

Dandge

2019

Heliyon

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In this study, a potent uricase producing organism was isolated by a thorough screening and identified as Bacillus subtilis strain SP6 by using 16s rDNA sequencing. Response surface methodological optimization was employed for the enhanced production of uricase from newly isolated Bacillus subtilis strain SP6. In media optimization studies, Plackett Burman (PB) design was used for the selection of the critical media components; which were further optimized using central composite design (CCD). Lactose, soya peptone, uric acid and FeSO 4 .7H 2 O were found to be the critical factors influencing the enzyme production. Optimum uricase production with these factors was deduced using central composite design. Significant level of the factors were 12.2 g/L of lactose, 12.79 g/L of soya peptone, 2.55 g/L of uric acid and 0.00325 g/L FeSO 4 .7H 2 O. Use of statistical optimization upsurges uricase yield from 1.2 U/ml to 15.87 U/ml enhancing the overall production by 13.23 fold; which confirms that the model is effective for process optimization.

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Section: Resultsmentioning

confidence: 99%

Statistical media optimization for the production of clinical uricase from Bacillus subtilis strain SP6

Pustake

Bhagwat

Dandge

2019

Heliyon

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“…In the second phase, according to the first phase results, variables with the most significant effect on the removal rate of tartaric acid were selected using Box–Behnken design and response surface methodology (RSM) to investigate their interaction effects. The Box–Behnken design determined the optimization levels through three major aspects, that is, by performing statistically designed experiments, by estimating coefficients in a mathematical model, and by predicting responses (Gajdhane, Bhagwat, & Dandge, ; Ghorbannezhad, Bay, Yolmeh, Yadollahi, & Moghadam, ; Zong et al, ).…”

Section: Methodsmentioning

confidence: 99%

Optimization of deacidification for concentrated grape juice

Yue

et al. 2019

Food Science & Nutrition

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Excessive organic acids in grape juice will not only result in poor taste but will also cause turbidity and sedimentation. Tartaric acid exerts the most significant acidity among all organic acids in grape juice. In this study, we used tartaric acid as the main target and anion‐exchange resin to remove tartaric acid from concentrated grape juice. Factors influencing the removal process were optimized by liquid chromatography with ultraviolet detection and statistical analysis for optimal deacidification of concentrated grape juice. Use of the anion‐exchange resin 335 treat the concentrated grape juice at a ratio of 1:6 (2:11.98) at 15.57°C for 4.35 hr. The tartaric acid removal rate reached 69.01%; the anion‐exchange resin 335 demonstrated the best removal effect.

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“…The Plackett-Burman design (PBD) and response surface methodology (RSM) are two commonly employed statistical techniques for optimizing biological processes. Initially PBD is used for screening purpose, after nding the signi cant variables in this initial screening they can be further improved using central composite design (CCD) in RSM (Gajdhane et al 2016;Sathish et al 2018).…”

Section: Introductionmentioning

confidence: 99%

Enhancement of α-galactosidase production using novel Actinoplanes utahensis B1 strain: sequential optimization and purification of enzyme

Balumahendra,

Venkateswarulu,

Babu

2024

World J Microbiol Biotechnol

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α-Galactosidase is an important exoglycosidase belonging to the hydrolase class of enzyme, which has therapeutic and industrial potential. It plays a crucial role in hydrolyzing α-1,6 linked terminal galacto-oligosaccharide residues such as melibiose, ra nose, and branched polysaccharides such as Galacto-glucomannans and Galactomannans. In this study Actinoplanes utahensis was explored for α-Galactosidase production, yield improvement and activity enhancement by puri cation. Initially nine media components were screened by using the Plackett-Burman design (PBD). Among these components, sucrose, soya bean our, and sodium glutamate were identi ed as best supporting nutrients for highest enzyme secretion by A. utahensis. Later, the Central Composite Design (CCD) was implemented to ne-tune the optimization of these components. Based on sequential statistical optimization methodologies, a signi cant, 3.64-fold increase in α-galactosidase production, from 16 to 58.37 U/mL was achieved.The enzyme was puri ed by ultra ltration-I followed by multimode chromatography and ultra ltration-II. The purity of the enzyme was con rmed by Sodium Dodecyl Sulphate -Polyacrylamide Agarose Gel Electrophoresis (SDS-PAGE) which revealed a single distinctive band with a molecular weight of approximately 72kDa. Additionally, it was determined that this process resulted in a 2.03fold increase in purity. The puri ed α-galactosidase showed an activity of 2304 U/mL with a speci c activity of 288 U/mg. This study demonstrates the feasibility of scalable α-galactosidase production, which has various industrial applications.

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Response surface methodology-based optimization of production media and purification of α-galactosidase in solid-state fermentation by Fusarium moniliforme NCIM 1099

Cited by 18 publications

References 44 publications

Statistical media optimization for the production of clinical uricase from Bacillus subtilis strain SP6

Statistical media optimization for the production of clinical uricase from Bacillus subtilis strain SP6

Optimization of deacidification for concentrated grape juice

Enhancement of α-galactosidase production using novel Actinoplanes utahensis B1 strain: sequential optimization and purification of enzyme

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