Preview

Topical biotechnology

Advanced search

БИОХИМИЯ И ПОТЕНЦИАЛЬНОЕ ПРИМЕНЕНИЕ ПОЛИАМИНОКСИДАЗ И ОКСИДАЗ D-АМИНОКИСЛОТ В БИОТЕХНОЛОГИИ

https://doi.org/10.20914/2304-4691-2025-3-8-9

About the Authors

Д. Атрошенко
ФИЦ Биотехнологии РАН
Russian Federation


Е. Сергеев
ФИЦ Биотехнологии РАН
Russian Federation


Д. Головина
ФИЦ Биотехнологии РАН
Russian Federation


В. Тишков
ФИЦ Биотехнологии РАН
Russian Federation


References

1. Casero R.A., Murray Stewart T., Pegg A.E. Polyamine metabolism and cancer: treatments, challenges and opportunities // Nature Reviews Cancer. 2018. Vol. 18. № 11. P. 681-695

2. Saiki S., Sasazawa Y., Fujimaki M. et al. A metabolic profile of polyamines in Parkinson disease: A promising biomarker // Annals of Neurology. 2019. Vol. 86. № 2. P. 251-263.

3. Forneris F., Orru R., Bonivento D. et al. ThermoFAD, a Thermofluor®-adapted flavin ad hoc detection system for protein folding and ligand binding // The FEBS Journal. 2009. Vol. 276. № 10. P. 2833-2840.

4. Tishkov V.I., Khoronenkova S.V. D-amino acid oxidase: Structure, catalytic mechanism, and practical application // Biochemistry (Moscow). 2005. Vol. 70. № 1. P. 40-54.

5. Molla G., Piubelli L., Volonte F., Pilone M.S. Enzymatic detection of D-amino acids // Unnatural Amino Acids: Methods and Protocols. 2012. Vol. 794. P. 273-289.

6. Lata S., Batra B., Kumar P., Pundir C.S. Construction of an amperometric D-amino acid biosensor based on D-amino acid oxidase/carboxylated multiewalled carbon nanotube/copper nanoparticles/polyaniline modified gold electrode // Analytical Biochemistry. 2013. Vol. 437. № 1. P. 1-9.


Review

For citations:


 ,  ,  ,   . Topical biotechnology. 2025;(3):8-9. (In Russ.) https://doi.org/10.20914/2304-4691-2025-3-8-9

Views: 20

JATS XML


Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.


ISSN 2304-4691 (Print)