Hitta hit:
T-bana: Universitetet
Frescativägen 40

Ordinarie öppettider:
Tisdag-fredag 11-17
Lördag-söndag 10-18

  • Huvudmeny


Igor Bartish

Post doc


  • Bartish, I.V., Swenson, U., Munzinger, J. Phylogenetic relationships among Sapotaceae (Ericales) in Australia and Oceania: molecular evidence for generic polyphyly and repeated dispersal. In: Proceedings of the XVII International Botanical Congress, Vienna, p. 414.
  • Bartish, I. V., Comes, H. P., and Kadereit, J. W. Multiple phylogeographic approaches to determine the post-glacial colonization history of Hippophae rhamnoides L. (Elaeagnaceae) in Europe based on chalcone synthase intron (CHSI) sequence variation. . In: Proceedings of the XVII International Botanical Congress, Vienna, p. 115.
  • Bartish, I.V., Swenson, U., Munzinger, J., and Anderberg, A. Phylogenetic relationships among New Caledonian Sapotaceae (Ericales): molecular evidence for generic polyphyly and repeated dispersal. American Journal of Botany  92: 667-673.


  • Persson Hovmalm, H.A., Jeppsson N., Bartish I.V., Nybom H. RAPD analysis of diploid and tetraploid populations of Aronia points to different reproductive strategies within the genus. Hereditas 141: 301-312.
  • Kirschner, J., Bartish, I., Hroudova, Z., Kirshnerova, L., Zakravsky, P. Contrasting patterns of spatial genetic structure of diploid and triploid populationss of the clonal aquaatic species, Butomus umbellatus (Butomaceae), in Central Europe. Folia Geobotanica 39: 13-26.


  • Bartish, I. V., and Swenson, U.  Elaeagnaceae. In: The Families and Genera of Vascular Plants (ed. K. Kubitzki). Springer-Verlag. Berlin, Heidelberg, New York, pp 131-134.


  •   Swenson, U., and Bartish, I. V. Taxonomic synopsis of Hippophae (Elaeagnaceae). Nordic Journal of Botany 22: 369-374.
  • Peterson A, Bartish IV, and Peterson J. Genetic structure detected in a small population of the endangered plant Anthericum liliago (Anthericaceae) by RAPD analysis. Ecography 25: 677-684.
  • Storchova, H., Chrtek, J.Jr., Bartish I.V., Kirschner, J., Tetera, M., and Stepanek, J. Genetic variation in agamospermous taxa of Hieracium sect. Alpina (Compositae) in the Tatry Mts. (Slovakia). Plant Systematics and Evolution 235 (1-4): 1-17.
  • Rumpunen, K., and Bartish, I.V. Comparison of differentiation estimates based on morphometric and molecular data, exemplified by various leaf shape descriptors and RAPDs in the genus Chaenomeles (Rosaceae). Taxon 51: 69-82.
  • Bartish, I.V., Jeppsson, N., Nybom, H., and Swenson, U. Phylogeny of Hippophae (Elaeagnaceae) inferred from parsimony analysis of chloroplast DNA and morphology. Systematic Botany 27: 41-54.


  • Bartish, I.V., Hylmo, B., and Nybom, H. RAPD analysis of interspecific relationships in presumable apomictic Cotoneaster species. Euphytica: 120 (2): 273-280.


  • Bartish, I.V., Jeppsson N., Bartish, G.I., Lu, R., and Nybom, H. Inter- and intraspecific genetic variation in Hippophae (Elaeagnaceae) investigated by RAPD markers. Plant Systematics and Evolution 225: 85-101.
  • Bartish, G.I., Jeppsson, N., Bartish I.V., and Nybom, H. Assessment of genetic diversity using RAPD analysis in a germplasm collection of sea buckthorn. Agricultural and Food Sciences of Finland 9 (4): 279-289.
  • Bartish, I.V., Rumpunen, K., and Nybom, H. Combined analysis of RAPD, cpDNA and morphology demonstrate spontaneous hybridisation in the plant genus Chaenomeles. Heredity 85: 383-392.
  • Bartish, I.V., Garkava, L.P., Rumpunen, K., and Nybom, H. Phylogenetic relationships and differentiation among and within populations of Chaenomeles Lindl. (Rosaceae), estimated with RAPDs and isozymes. Theoretical and Applied Genetics 101: 554-563.1.
  • Nybom, H., and Bartish, I.V. Effects of life history traits and sampling strategies on genetic diversity estimates obtained with RAPD markers in plants. Perspectives in Plant Ecology, Evolution, and Systematics: 3:93-114.
  • Garkava, L.P., Rumpunen, K., and Bartish, I.V. Genetic relationships in Chaenomeles revealed by isozyme analysis. Scientia Horticulturae 85: 21-35.
  • Bartish, I.V., Jeppsson N. Application of molecular markers to study systematics, phylogeny, biogeography, genetic diversity and population genetics of Hippophae L. In: Seabuckthorn (Hippophae L.) - A multipurpose plant. V. Singh (ed.) Oxford & IBH, New Delhi & New York.
  • Rumpunen, K., Trajkovski, V., Bartish, I.V., Garkava, L.P., Nybom, H., Laencina, J., Ros, J.M., Jordan, M.J., Hellin, P., Tigerstedt, P.M.A., Kauppinen, S., Thibault, J.-F., Thomas, M., Gustafsson, M., Norin, I., Ikesson, B., Gustafsson, M., Groon, I., Kaufmane, E., Ruisa, S., Stanys, V., and Kviklys, D. Domestication of Japanese quince (Chaenomeles japonica). In: Proceedings of Eucarpia Symposium on Fruit Breeding and Genetics, Eds. M. Geibel, M. Fischer & C. Fischer. Acta Hort. 538 (1): 345-348.
  • Korkhovoi, V.I., Radchuk, V.V., Dolgov, S.V., and Bartish, I.V. Genetic transformation of clone RF1 of apple cultivar Florina via Agrobacterium tumefaciens (in Russian). Dopovidi Natsional´noi Akademii Nauk Ukrainy 2: 186-190.


  • Bartish, I., Jeppsson, N., and Nybom, H. Population genetic structure in the dioecious pioneer plant species Hippophae rhamnoides investigated by RAPD markers. Molecular Ecology 8: 791-802.
  • Bartish, I.V., Rumpunen, K., and Nybom, H. Genetic diversity in the rosaceous genus Chaenomeles revealed by RAPD analysis. Plant Systematics and Evolution 214: 131-145.
  • Jeppsson, N., Bartish, I.V., and Persson, H.A. DNA analysis as a tool in sea buckthorn (Hippophae rhamnoides L.) breeding. In: Perspectives on New Crops and New Uses, Ed. Janick, J., ASHS Press, Alexandria, VA, 338-341.


  • Merkulov, S.M., Bartish, I.V., Dolgov, S.V., Pasternak, T.P., and McHughen, A. Genetic transformation of pear Pyrus communis L. mediated by Agrobacterium tumefaciens. Genetika 34: 373-378.
  • Bartish, I.V., Korkhovoi, V.I., Fomina, Y.L., and Lim, Y.K. A new approach to obtain polyploid forms of apple. Acta Horticulturae 484: 561-564.
  • Bartish, I.V., and Weeden, N.F. The use of interspecific crosses in Malus to map the genes of characters important for apple rootstock breeding. Acta Horticulturae 484: 319-323.


  • Bartish, I.V., and Korkhovoi, V.I. The composition of nutrient medium and the efficiency of shoot induction in vitro from apple leaf explants. Russian Journal of Plant Physiology 44:381-385.
  • Bartish, I.V., Svetlova, N.B., and Korkhovoi V.I. Dependence of efficiency of adventitious organogenesis from leaf explants of the apple on concentration of growth regulators and composition of macrosalts. (in Russian) Fiziologiya I Biokhimiya Kul´turnykh Rastenii 29:351-355.


  • Bartish, I.V., Korkhovoi, V.I., Merkulov, S.M., and Kopan´, V.P. Optimization of the methods of cultivation in vitro of different varieties and rootstocks of the apple tree (Malus x domestica Borkh.). (in Russian) Fiziologiya I Biokhimiya Kul´turnykh Rastenii 26:587-594.
  • Bartish, I.V., Merkulov, S.M., Korkhovoi, V.I., and Kopan´, V.P.  Microclonal propagation of some pear (Pyrus communis L.) cultivars in vitro. (in Russian) Fiziologiya I Biokhimiya Kul´turnykh Rastenii 26:84-90.


  • Merkulov, S.M., Bartish, I.V., and Gleba, Yu.Yu.  Regeneration of adventitious shoot from the leaf tissue of pear (Pyrus communis L.). (in Russian) Fiziologiya I Biokhimiya Kul´turnykh Rastenii 25:375-380.


  • Serysheva, I.I., Turkin, A.I., Bartish, I.V., and Poglazov, B.F. GTPase activity of Bacteriophage T4 sheath protein. Journal of Molecular Biology 223:23-26.


  • Serysheva, I.I., Turkin, A.I., Bartish, I.V., and Poglazov, B.F. On the influence of nucleotides on the sedimentation properties of Bacteriophage T4 contracted sheaths (in Russian). Doklady Akademii Nauk SSSR 303:245-248.