Abstract
A study has been conducted on polymorphism at enzyme loci in the seed progeny of gynogenic sugar beet lines. Qualitative changes in gene expression have been observed in the progeny of double haploids, which is because of haploid to diploid transition.
Similar content being viewed by others
References
Bormotov, V.E., Zagrekova, N.N., Matrosov, B.F., Shcherbakova, A.M., Semerikhina, S.E., Akhramenko, A.D. and Kuptsov, N.S. (1976).Observations on cytogenetics of sugar beet polyploid forms. (in Russian). Nauka i tekhnika. Minsk: 62–68.
Breiman, A., Rotem-Abarbanell, D.,Karp, A. and Shaskin, H. (1987). Heritable somaclonal variation in wild barley (Hordeum spontaneum).Theor. Appl. Genet.,74(1): 104–112.
Heinz, D.J. and Mee, G.W.P. (1971). Morphologic, cytogenetic, and enzymatic variation inSaccharum species hybrid clones derived from callus tissue.Am. J. Bot.,58: 257–262.
Larkin, P.J. and Scowcroft, W.R. (1981). Somaclonal variation — a novel source of variability from cell cultures for plant improvement.Theor. Appl. Genet.,60(4): 197–214.
Larkin, P.J. and Scowcroft, W.R. (1983). Somaclonal variation and crop improvement. Genet. Eng. Plants: Agric. Perspect. Proc. Symp. 15–19 Aug. 1982. N-Y., L. : 289–314.
Larkin, P.J., Ryan, S.A.,Brettell, R.I.S. and Scowcroft, W.R. (1984). Heritable somaclonal variation in wheat.Theor. Appl. Genet.,67: 443–455.
Levites, E.V. and Garifullina, F.Sh. (1988). Use of isozymes as genetic markers for identification of sugar beet varieties. P.104–109. In: Biochemical Identification of Varieties: Materials of the 3th International Symposium ISTA. Leningrad. USSR.
Levites, E.V. and Denisova, F.Sh. (1999). Expression of theMe1 locus alleles in the sugar beet (Beta vulgaris L.).Doklady Biol. Sciences,366: 240–242.
Levites, E.V., Denisova, F.Sh.,Kirikovich, S.S. and Judanova, S.S. (Maletskaya, S.S.). (2000). Ratios of phenotypes at theAdh1 locus in the apozygotic offspring in sugarbeet (C1 generation).Sugar Tech.,2(4): 26–30.
Levites, E.V., Menzorov, A.G. and Denisova F.Sh. (2001a). Gene expression and phenotype ratios in reciprocal sugarbeet hybrids.Sugar Tech.,3(1&2): 23–26.
Levites, E.V., Shkutnik, T.,Shavorskaya, O.A. and Denisova, F.Sh. (2001b). Epigenetic variability in agamospermous progeny of sugar beet.Sugar Tech.,3(3): 101–105.
Lorz, H. and Scowcroft, W.R. (1983). Variability among plants and their progeny from protoplasts of Su/su heterozygotes ofNicotiana tabacum.Theor. Appl. Genet.,66: 67–75.
Mukhitov, A.R. and Rumyantseva, N.I. (2002). Colchicine-induced morphological and genetic non-stability in calli ofFagopyrum tataricum.Tsitologiya,44(7): 623–631.
Orton, T.J. (1984). Somaclonal variation: theoretical and practical considerations. Gene Manipul. Plant Improv. 16th Stadler Genet. Symp.: 427–468.
Phillips, R.L., Kaeppler, S.M. and Olhoft, P. (1994). Genetic instability of plant tissue cultures: breakdown of normal controls.Proc. Natl. Acad. Sci. USA,91: 5222–5226.
Scowcroft, W.R and Ryan, S.A. (1986). Tissue culture and plant breeding. Plant Cell Cult. Technol. Chapter 4. Oxford e.a. : 67–140.
Svirshchevskaya, A.M. and Dolezel, J. (2000). Production and performance of gynogenetic sugar beet lines.J. of Sugar beet Research (USA),37(4): 117–133.
Svirshchevskaya, A.M. and Dolezel, J. (2001). Karyological characterization of sugar beet gynogenetic lines cultured in vitro.J.Appl.Genet.,42(1): 21–32.
Walbot, V. and Cullis, C.A. (1985). Rapid genomic change in higher plants.Ann. Rev. Plant Physiol.,36: 367–396.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Kirikovich, S.S., Svirshchevskaya, A.M. & Levites, E.V. Variation at isozyme loci in seed offspring of sugar beet gynogenetic lines. Sugar Tech 5, 289–292 (2003). https://doi.org/10.1007/BF02942487
Published:
Issue Date:
DOI: https://doi.org/10.1007/BF02942487