THE EFFECT OF Al NANOPARTICLES ON POLYPHENOL OXIDASE ACTIVITY OF WHEAT (TRITICUM AESTİVUM L.) SEEDLINGS

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Saadat Mammadova
Nurlan Amrahov
Abidin Abdullayev
Sabina Omarova

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How to Cite
Mammadova, S., Amrahov, N., Abdullayev, A., & Omarova, S. (2022). THE EFFECT OF Al NANOPARTICLES ON POLYPHENOL OXIDASE ACTIVITY OF WHEAT (TRITICUM AESTİVUM L.) SEEDLINGS. Scientific Collection «InterConf», (107), 344–348. Retrieved from https://archive.interconf.center/index.php/conference-proceeding/article/view/268

References

Oliveira, C.M., Ferreira, A.C.S., de Freitas, V., Silva, A.M. Oxidation mechanisms occurring in wines. Food Res. Int., 2011, 44, 1115–1126.

Mayer, A.M. Polyphenol oxidases in plants and fungi: Going places? A review. Phytochemistry, 2006, 67, 2318–2331.

Fronk, P., Hartmann, H., Bauer, M., Solem, E., Jaenicke, E., Tenzer, S., Decker, H. Polyphenoloxidase from Riesling and Dornfelder wine grapes (Vitis vinifera) is a tyrosinase. Food Chem., 2015, 183, 49–57.

Wang, L., Hu, C., and Shao, L. “The antimicrobial activity of nanoparticles: present situationand prospects for the future”. International Journal of Nanomedicine, 2017, 12, 1227– 1249.

Nyapete, C. O., Benziger, A. H. H., Buckner, S. W., and Jelliss, P. A. “Fabrication andcharacterization of aluminum nano particles entrapped in hollow polymer capsules”.Nanostructures & Nano-Objects, 2018, 16, 282–287.

Clarkson, D.T. The effect of aluminium and some trivalent metal cations on cell division inthe root apices of Allium cepa. Ann Bot, 1965, 29, 309–315.