Hyvönen, Mervi T.Smirnova, Olga A.Mitkevich, Vladimir A.Tunitskaya, Vera L.Khomutov, MaximKarpov, Dmitry S.Korolev, Sergey P.Häkkinen, Merja R.Pietilä, MarkoGottikh, Marina B.Vepsäläinen, JoukoAlhonen, LeenaMakarov, Alexander A.Kochetkov, Sergey N.Wallace, Heather M.Keinänen, Tuomo A.Khomutov, Alex R.2022-04-222022-04-222022-04-21Hyvönen, M T, Smirnova, O A, Mitkevich, V A, Tunitskaya, V L, Khomutov, M, Karpov, D S, Korolev, S P, Häkkinen, M R, Pietilä, M, Gottikh, M B, Vepsäläinen, J, Alhonen, L, Makarov, A A, Kochetkov, S N, Wallace, H M, Keinänen, T A & Khomutov, A R 2022, 'Role of Polyamine-Induced Dimerization of Antizyme in Its Cellular Functions', International Journal of Molecular Sciences, vol. 23, no. 9, 4614. https://doi.org/10.3390/ijms230946141422-0067Bibtex: ijms23094614https://hdl.handle.net/2164/18470Funding: This work was supported by grants from the Russian Science Foundation (grant # 17-74-20049—synthesis of C-methylated Spd analogues, ITC studies of dimerization of OAZ1, and frameshifting experiments), the Russian Science Foundation (grant # 19-74-10086—isolation of OAZ1, electrophoresis studies of dimerization of OAZ1), and the Academy of Finland (grants # 292574 and # 315487). Acknowledgments: The authors thank A. Karppinen, A. Korhonen, T. Reponen, M. Salminkoski, and S.D. Negrya for their skillful technical assistance.173276303engpolyaminesantizymedimerizationpolyamine analoguesribosomal frameshiftingpolyamine uptakeornithine decarboxylaseα-difluoromethylornithineR MedicineSupplementary InformationRJournal article10.3390/ijms23094614239