Genetic Collections of St. Petersburg University
-
Published:2023-11-30
Issue:3
Volume:68
Page:
-
ISSN:2587-5779
-
Container-title:Biological Communications
-
language:
-
Short-container-title:BioComm
Author:
Andreeva ElenaORCID, Burlakovskiy MikhailORCID, Buzovkina Irina, Chekunova Elena, Dodueva Irina, Golubkova ElenaORCID, Matveenko AndrewORCID, Rumyantsev Andrew, Tsvetkova NataliaORCID, Zadorsky SergeyORCID, Nizhnikov Anton
Abstract
Bioresource collections represent a unique source of biological diversity for research in genetics and related disciplines. The Department of Genetics and Biotechnology of St. Petersburg State University is the oldest department of genetics in Russia, founded in 1919. Throughout the entire period of development, the geneticists of St. Petersburg University have collected unique forms of plants, animals and microorganisms, on which their research was based. Many of these studies including regulation of translation termination in yeast, amyloids and prions of different organisms, genetic mapping of valuable morphological and biochemical traits to create first rye chromosome maps, and several aspects of transcription regulation in plants, had a significant novelty. The most active accumulation of collections of genetic resources at St. Petersburg State University started in the 1950-1970s when important scientific directions in the genetics of microorganisms, plants and animals, many of which continue today, were established at the department. Genetic collections are actively used in educational work for teaching dozens of educational courses. Currently, the interdisciplinary genetic collections of St. Petersburg State University consist of seven sections including genetic collections of rye, radish, garden pea, Chlamydomonas algae, Saccharomyces yeast and plasmids, Komagataella yeast, Drosophila fly. This review describes in detail the collections of the Department of Genetics and Biotechnology of St. Petersburg State University and discusses their current state, application and development prospects.
Publisher
Saint Petersburg State University
Subject
General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology
Reference98 articles.
1. Andrianova, V. M., Samsonova, M. G., Sopova, Y. V., and Inge-Vechtomov, S. G. 2003. Catalogue of the Peterhof Genetic Collection of yeast Saccharomyces cerevisiae. 32 pp. St. Petersburg University Press. St. Petersburg. (In Russian) 2. Antonets, K. S., Belousov, M. V., Sulatskaya, A. I., Belousova, M. E., Kosolapova, A. O., Sulatsky, M. I., Andreeva, E. A., Zykin, P. A., Malovichko, Y. V., Shtark, O. Y., Lykholay, A. N., Volkov, K. V., Kuznetsova, I. M., Turoverov, K. K., Kochetkova, E. Y., Bobylev, A. G., Usachev, K. S., Demidov, O. N., Tikhonovich, I. A., and Nizhnikov, A. A. 2020. Accumulation of storage proteins in plant seeds is mediated by amyloid formation. PLoS Biol 18(7):e3000564. https://doi.org/10.1371/journal.pbio.3000564 3. Ata, Ö., Ergün, B. G., Fickers, P., Heistinger, L., Mattanovich, D., Rebnegger, C., and Gasser, B. 2021. What makes Komagataella phaffii non-conventional? FEMS Yeast Research 21(8):foab059. https://doi.org/10.1093/femsyr/foab059 4. Ata, Ö., Rebnegger, C., Tatto, N. E., Valli, M., Mairinger, T., Hann, S., Steiger, M. G., Çalık, P., and Mattanovich, D. 2018. A single Gal4-like transcription factor activates the Crabtree effect in Komagataella phaffii. Nature Communications 9(1):4911. https://doi.org/10.1038/s41467-018-07430-4 5. Barbitoff, Y. A., Matveenko, A. G., Moskalenko, S. E., Zemlyanko, O. M., Newnam, G. P., Patel, A., Chernova, T. A., Chernoff, Y. O., and Zhouravleva, G. A. 2017. To CURe or not to CURe? Differential effects of the chaperone sorting factor Cur1 on yeast prions are mediated by the chaperone Sis1. Molecular Microbiology 105(2):242–257. https://doi.org/10.1111/mmi.13697
|
|