PURIFICATION AND CHARACTERIZATION OF AMYLASE EXTRACTED FROM LOCAL WHEAT PLANT

Authors

  • Sahar I. H.

DOI:

https://doi.org/10.36103/ijas.v54i5.1812

Keywords:

Extraction, amylase, optimum conditions, Sephadex G-150, stability

Abstract

This study was aimed to test four types of different plants for the purpose of selecting the optimal plant as a source of the amylase enzyme, including wheat, barley, rice, and potatoes. Among these plants, wheat was selected as the best plant source for enzyme extraction because it possessed the highest effectiveness of the enzyme specific activity (3.0 U/mg protein). Furthermore, sodium acetate buffer (0.2 M, pH 6.0) was determined to be the optimal extraction buffer with a 1:5 (w:v) ratio after 75 min, and it provided 68 U/mg protein. The enzyme was concentrated with sucrose before being purified by gel filtration chromatography using Sephadex G-150. The results demonstrated a 1.8-fold increases in final purification folds with a 332% yield of enzymes. At pH 6.0, the purified enzyme showed its highest activity and stability. The activity of the purified enzyme was most effective at 45 °C and remained stable up to 37 °C. At concentrations of 5 and 10 M, various ionic and chemical substances had an impact on amylase.

References

Adefila, O. A., M. K., Bakare, and I. O., Adewale. 2012. Characterization of an α‐amylase from sorghum (Sorghum bicolor) obtained under optimized conditions. Journal of the Institute of Brewing.118: 63-69

Amid, M., A.-M., Mohd Yazid and Z., Norkhanani, 2014. Optimization of processing parameters for extraction of amylase enzyme from dragon (Hylocereus polyrhizus) peel using response surface methodology. Scientific World Journal. 2014: 640949

Aziz, G. M., S. I., Hussein, S. D., Abbass, A. L., Ibrahim, and D. K. Abbas. 2021. Degradation of reactive dyes using immobilized peroxodase purified from Nigella sativa Iraqi Journal of Agricultural Sciences, 52(6):1365–1374.

https://doi.org/10.36103/ijas.v52i6.1476

Barker, S. A. and J. A., Shirley.1980. Microbial enzyme and bioconversion. In: Economic Microbiology. (ed. Rose, A.H.). 5:.173–186. Academic Press. London

Ben Elarbi, M., K., Halima, J., Taoufik, and B-H., Jeannette. 2009. Purification and characterization of α-amylase from safflower (Carthamus tinctorius L.) germinating seeds. C. R. Biologies Journal. 332(5): 426–432

Bernfeld P. Amylases, alpha and beta. In: Colowick SP, Kaplan NO. (Eds.), Methods in Enzymology, vol. 1. Academic Press, New York. 1955; 149–158

Bradford, M. 1976. A rapid and sensitive method for the quantitation of microgram quantities of protein using the principle of protein-dye binding. Analytical Biochemistry Journal. 72: 248-254

Cheng, C. R., K., Oldach, K., Mrva, and D., Mares.2014. Analysis of high pI α-Amy-1 gene family members expressed in late maturity α-amylase in wheat (Triticum aestivum L.). Molecular Breeding Journal. 33: 519-529

Clive, D. 2002. Aguide to protein isolation. Kluwer academic publisher. NewYork

Csiszar, J., A., Guóth, Z., Kolbert, Á., Gallé, I., Tari, S., Ciulca, and L., Erdei, 2010. Starch to protein ratio and α-amylase activities in grains of different wheat cultivars. Acta Biologica Szegediensis Journal. 54: 19-23

Dencic, S., R., De Pauw, B., Kobiljski, and V., Momcilovic. 2013. Hagberg falling number and rheological properties of wheat cultivars in wet and dry preharvest periods. Plant Production Science Journal. 16: 342-351

Egwim, E. C. and O. B., Oloyede. 2006. Comparison of α-amylase activity in some sprouting Nigerian cereals. Biokemistri Journal. 18:15-20

El Nour, M. E., S. O., Yagoub, and A., AL Jarbough. 2013. Purification and characterization of α and β-amylases isolated from millet (Pennisetum glaucum) malt. America Journal of Scienctific and Industrial Research. 4: 183-190

Faltermaier, A., D., Waters, T., Becker, E., Arendt, and M., Gastl. 2014. Common wheat (Triticum aestivum L.) and its use as a brewing cereal–a review. Journal of the Institute of Brewing.120: 1-15

Goswami, A.K., K. Jain, and B. Paul. 1977. α- and β-amylases in seed germination. Biologia Plantarum Journal. 469–471

Helland, M. H., T., Wicklund, and J. A., Narvhus. 2002. Effect of germination time on alpha amylase production and viscosity of maize porridge. Food Research International Journal. 35: 315-321

Hussain, I., F., Siddique, M. S., Mahmood, and S. I., Ahmed. 2013. A review of the microbiological aspect of α-amylase production. International Journal of Agriculture and Biology. 15: 1029-1034

Hussein, S.I., 2019. Efficiency of immobilized polyphenol oxidase on some textile dyes degradation using batch operation system by packed bed bioreactor. Iraqi Journal of Agricultural Sciences. 50 (3): 943–950. https:// doi: 10.36103/ijas.v50i3.711

Hussein, S.I., A. F. Kaluf, M. A. Sameh, M.A. and M. T. Salah, 2021. Determination of the optimum conditions for urease inhibition extracted from some local plants. Iraqi Journal of Agricultural Sciences. 52(4):802-809. https://doi: 10.36103/ijas.v52i4.1389

Maher, H. R., and E. A. Cordes, 1971. Biochemistry of Bacterial Growth. 3rd ed. Blackwell Scienitific publication, Oxfored

Mahmood, S., G. S., Memuna, I., Muhammad, N., Muhammad, and S., Quratulain. 2018. Partial characterization of α-amylase produced from Aspergillus niger using potato peel as substrate. Punjab University Journal of Zoology. 33(1): 22-27

Mar, S.S., H., Mori, J., Lee, K., Fukuda, W., Saburi, A., Fukuhara, M., Okuyama, S., Chiba, and A., Kumura. 2003. Purification, characterization and sequence analysis of two α-amylase isoforms from aziki bean (Vigna angularis) showing different affinity β-cyclodextrin sepharose. Bioscience Biotechnology and Biochemistry Journal. 67 (5): 1080–1093

Mizobutsi, G.P., F.L., Finger, R.A., Ribeiro, R., Puschmann, L.L.de M., Neves, and W.F., da Mota. 2010. Effect of pH and temperature on peroxidase and polyphenoloxidase activities of litchi pericarp. The Journal of Agricultural Science. 67 (2): 213–217

Mohamed, S., J. Khan, O. Al-Bar, and R. El-shishtawy. 2014. Immobilization of trichoderma harzianum α-amylase on treated wool: optimization and characterization. Molecules Journal. 19(6):8027–8038

Muralikrishna, G. and M., Nirmala. 2005. Cereal α-amylases an overview. Carbohydrate polymers Journal. 60: 163-173

Nilsang, S., S., Lertsiri, M., Suphantharika, and A., Assavanig. 2005. Optimization of enzymatic hydrolysis of fish soluble concentrate by commercial proteases. Journal of Food Engineering. 70 (4): 571–578

Parkin,K.L., in: T. Nagodawithana, and G. Reed (Eds.), 1993. Food Processing, 3rd ed., Academic Press, New York, pp. 7–36

Predescu, N.C., C., Papuc, V., Nicorescu, I., Gajaila, G.V., Goran, C. D., and G. Petcu,, Stefan. 2016. The influence of solid-to-solvent ratio and extraction method on total phenolic content, flavonoid content and antioxidant properties of some ethanolic plant extracts. Revista De Chimie Journal. 67: 1922–1927

Saboury, A.A. and F., Karbassi. 2000. Thermodynamic studies on the interaction of calcium ions with alpha-amylase. Thermochimica Acta Journal. 362:121–129

Saini, H. S., S., Ritu, D., Anjali and M., Shikha. 2016. Extraction, partial purification and characterization of amylase from apple (Malus pumila). International Journal of Food and Nutritional Science. 5(3)

Salih, H. N. and S. I. Hussein. 2022. Assessment of purified collagenase inhibition activity from Staphylococcus aureus HN77 by some local plants. Iraqi Journal of Agricultural Sciences, 53(5):1035–1047. https://doi: 10.36103/ijas. v53i5.1617

Segel, J. J. 1976. Biochemical Calculation. John Wiley and sons

Teba J. H. and S. I. Hussein. 2022. Development of bioprocesses for production and purification of L-asparaginase from Staphylococcus aureus, and in vitro efficacy against human breast cancer cell line. Iraqi Journal of Agricultural Sciences. 53(6):1525- 1538. https://doi.org/10.36103/ijas.v53i6.1668

Tortora G. J., B. R. Funke, and C. L. Case, 2004. Microbiology, (8th ed.). Pearson Education, Inc. San Francisco, New York.

Downloads

Published

2023-10-29

Issue

Section

Articles

How to Cite

Sahar I. H. (2023). PURIFICATION AND CHARACTERIZATION OF AMYLASE EXTRACTED FROM LOCAL WHEAT PLANT. IRAQI JOURNAL OF AGRICULTURAL SCIENCES, 54(5), 1183-1192. https://doi.org/10.36103/ijas.v54i5.1812

Similar Articles

111-120 of 256

You may also start an advanced similarity search for this article.