Immobilization of Urease from Pigeonpea (Cajanus cajan) on Agar Tablets and Its Application in Urea Assay

Mulagalapalli, Swati; Kumar, Sandeep; Kalathur, Ravi Charan Reddy; Kayastha, Arvind M.

doi:10.1007/s12010-007-0022-7

Cited by 27 publications

(10 citation statements)

References 31 publications

(35 reference statements)

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“…In the present case, lower glycosylation in case of urease from C. ensiformis is responsible for lesser immobilization efficiency than urease from C. cajan (www.brenda-enzymes.org). The immobilization efficiencies of urease obtained from C. ensiformis and C. cajan onto AuNps are significantly higher than previous reports on urease immobilization onto various matrices [9][10][11][12][13][14][15][16][17][21][22][23][24][25][26]. …”

Section: Optimization Of Nano-urease From C Ensiformis and C Cajanmentioning

confidence: 67%

“…Partitioning effects on K m have been discussed in various reports on enzyme immobilization [33][34][35]. Nano-ureases from C. ensiformis and C. cajan have significantly improved kinetic parameters with respect to previous studies on urease immobilization [12][13][14][15][16][17][18][21][22][23][24][25][26].…”

Section: Steady State Kineticsmentioning

confidence: 99%

“…It is one of the most desirable matrices for enzyme immobilization due to its very small size, it minimizes diffusional constrains and provides large surface area for enzyme attachment. Urease immobilization is one of the mosteffective ways for its various industrial applications which imparts stability and improvement in physico-chemical parameters [9][10][11][12]. Urease immobilization onto various nano-particles like titanium oxide, iron oxide, glycidyl methacrylate grafted sodium alginate, etc.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Response surface analysis of nano-ureases from Canavalia ensiformis and Cajanus cajan

Dwevedi

Routh

Yadav

et al. 2011

International Journal of Biological Macromolecules

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Section: Optimization Of Nano-urease From C Ensiformis and C Cajanmentioning

confidence: 67%

Section: Steady State Kineticsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Response surface analysis of nano-ureases from Canavalia ensiformis and Cajanus cajan

Dwevedi

Routh

Yadav

et al. 2011

International Journal of Biological Macromolecules

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“…The results showed that the optimum temperature of free tannase was 45 C, whereas that of immobilized tannase was 35 C (Figure 1a).The optimum temperature decreased by 10 C after immobilization. Generally, immobilization may enhance or not change the optimum temperature of enzyme (Neerupma et al, 2006;Mulagalapalli et al, 2007;Makkar, 1982;Roila et al, 2007;Bruno et al, 2005). There are few reports that immobilization decreases the optimum temperature.…”

Section: Characteristics Of Immobilized Tannasementioning

confidence: 99%

Immobilization and Characterization of Tannase and its Haze-removing

Xia

Gao

et al. 2009

Food sci. technol. int.

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Tannase was effectively immobilized on alginate by the method of crosslinking-entrapment-crosslinking with a high activity recovery of 76.6%. The properties of immobilized tannase were investigated. Its optimum temperature was determined to be 35 C, decreasing 10 C compared with that of free enzyme, whereas the optimum pH of 5.0 did not change. The thermal and pH stabilities of immobilized tannase increased to some degree. The kinetic parameter, Km, for immobilized tannase was estimated to be 11.6 Â 10 À4 mol/L. Fe 2þ and Mn 2þ could activate the activity of immobilized tannase. The immobilized tannase was also applied to treat the tea beverage to investigate its haze-removing effect. The content of non-estern catechins in green tea, black tea and oolong tea increased by 52.17%, 12.94% and 8.83%, respectively. The content of estern catechins in green tea, oolong tea and black tea decreased by 20.0%, 16.68% and 5.04%, respectively. The anti-sediment effect of green tea infusion treated with immobilized tannase was significantly increased. The storage stability and reusability of the immobilized tannase were improved greatly, with 72.5% activity retention after stored for 42 days and 86.9% residual activity after repeatedly used for 30 times.

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“… 16 Due to the higher lifetime and stability of chemically bonded enzymes, chemical immobilization (CI) of urease is more feasible 17 than physical adsorption 18 or encapsulation, 19–21 although CI leads to some enzyme activity loss. 22 In this context, the immobilization of urease on cellulose, 9 chitosan, 23 alginate, 24 gelatin, 25 and agar 26 have been tried to achieve urea biosensors. 27,28 Kumar et al 24 prepared the biosensor alginate@urease and compared it with chitosan@urease for urea detection.…”

Section: Introductionmentioning

confidence: 99%

Urease covalently immobilized on cotton-derived nanocellulose-dialdehyde for urea detection and urea-based multicomponent synthesis of tetrahydro-pyrazolopyridines in water

Tamaddon

Arab

2019

RSC Adv.

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Immobilization of Urease from Pigeonpea (Cajanus cajan) on Agar Tablets and Its Application in Urea Assay

Cited by 27 publications

References 31 publications

Response surface analysis of nano-ureases from Canavalia ensiformis and Cajanus cajan

Response surface analysis of nano-ureases from Canavalia ensiformis and Cajanus cajan

Immobilization and Characterization of Tannase and its Haze-removing

Urease covalently immobilized on cotton-derived nanocellulose-dialdehyde for urea detection and urea-based multicomponent synthesis of tetrahydro-pyrazolopyridines in water

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