Nikolai K. Koltzoff (Koltsov) (1872-1940) is one of the key figures in Russian biology. He essentially initiated Russian physicochemical biology and established a large scientific school in the area. Among his disciples, there are the geneticists B.L. Astaurov, S.S. Chetverikov, N.P. Dubinin, V.P. Efroimson, I.A. Rapoport, V.V. Sakharov, and N.V. Timofeeff-Ressovsky; histologist G.I. Roskin, experimental surgeon A.G. Lapchinsky, developmental biologist M.M. Zavadovsky, physiologist L.V. Krushinsky, microbiologist S.M. Gershenson, biochemist V.A. Engelhardt, hydrobiologist G.G. Vinberg, cytologist M.A. Peshkov, and many other famous Soviet biologists. He made several fundamental discoveries; the first of them was the discovery of the cytoskeleton (1903). He was the first to formulate the idea of a crystal-like mechanism for copying inherited information (1927) and the principles of epigenetics (as well as the term itself, in 1934; it seems astonishing, but as early as 1915, he hypothesized that the gene methylation might be a mechanism of genetic variability). He started the work which later led his disciples V.V. Sakharov and I.A. Rapoport to the discovery of chemical mutagenesis. His research on sex regulation in silkworms was later successfully continued by B.L. Astaurov. Koltzoff encouraged S.S. Chetverikov, the entomologist, to study the genetics of natural Drosophila populations, which went on to form the basis of the Modern Synthesis reconciling Darwinian evolutionary theory and the Mendelian laws of heredity. Unfortunately, the name of N.K. Koltzoff has almost sunk into oblivion. This is largely due to the fact that mentioning his name was prohibited in the USSR over a long period of time, since he was a staunch opponent of Lysenko. In this paper dedicated to the 150th anniversary of Koltzoff, we briefly describe the milestones of the life and scientific research of this outstanding biologist and his scientific school.
Keywords: chemical mutagenesis; cytoskeleton; epigenetics; experimental biology; hypothesis of template copying of hereditary information; modern synthesis; sex regulation.
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