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Journal Abstract Search

325 related items for PubMed ID: 15559151

  • 1. [Barley chromosome identification using genomic in situ hybridization in the genome of backcrossed progeny of barley-wheat amphiploids [H. geniculatum All. (2n = 28) x T. aestivum L. (2n = 42)] (2n = 70)].
    Numerova OM, Pershina LA, Salina EA, Shumnyĭ VK.
    Genetika; 2004 Sep; 40(9):1229-33. PubMed ID: 15559151
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  • 2. [Construction and molecular and cytogenetic analyses of euploid (2n = 42) and telocentric addition (2n = 42 + 2t) alloplasmic lines (Hordeum marinum subsp gussoneanum)-Triticum aestivum].
    Trubacheeva NV, Badaeva ED, Adonina IG, Belova LI, Deviatkina EP, Pershina LA.
    Genetika; 2008 Jan; 44(1):81-9. PubMed ID: 18409390
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  • 3. [Production of alloplasmic and euplasmic wheat-barley ditelosomic substitution lines 7H(1)Lmar(7D) and analysis of the 18S/5S mitochondrial repeat in these lines].
    Trubacheeva NV, Efremova TT, Badaeva ED, Kravtsova LA, Belova LI, Deviatkina EP, Pershina LA.
    Genetika; 2009 Dec; 45(12):1627-33. PubMed ID: 20198973
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  • 4. [Features of the formation of self-fertile euploid lines (2n = 42) by self-pollination of the 46-chromosome barley-wheat BC1 hybrid Hordeum marinum subsp. gussoneanum Hudson (= H. geniculatum All.) (2n = 28) x Triticum aestivum L. (2n = 42)].
    Pershina LA, Trubacheeva NV, Rakovtseva TS, Belova LI, Deviatkina EP, Kravtsova LA.
    Genetika; 2006 Dec; 42(12):1683-90. PubMed ID: 17326388
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  • 5. [RAPD-based analysis of introgression of barley genetic material into the genome of alloplasmic wheat lines (Hordeum geniculatum All./ Triticum aestivum L.)].
    Trubacheeva NV, Salina EA, Numerova OM, Pershina LA.
    Genetika; 2003 Jun; 39(6):791-5. PubMed ID: 12884518
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  • 6. [Features of alloplasmic wheat-barley substitution and addition lines (Hordeum marinum subsp. gussoneanum)-triticum aestivum].
    Pershina LA, Deviatkina EP, Belova LI, Trubacheeva NV, Arbuzova VS, Kravtsova LA.
    Genetika; 2009 Oct; 45(10):1386-92. PubMed ID: 19947550
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  • 7. [Expression of fertility during morphogenesis in self-pollinated backcrossed progenies of barley-wheat amphiploids].
    Pershina LA, Numerova OM, Belova LI, Deviatkina EP, Rakovtseva TS, Shumnyĭ VK.
    Genetika; 2004 May; 40(5):636-41. PubMed ID: 15272561
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  • 9. [Study of mitochondrial genomes of allopllasmic recombinant wheat lines constructed on the basis of barley-wheat hybrids Hordeum geniculatum all. (= H. marinum subsp. gussoneanum) (2n = 28) x x Triticum aestivum L. (2n = 42) with using of RELP and PCR analyses].
    Troubacheeva NV, Salina EA, Pershina LA.
    Genetika; 2005 Mar; 41(3):349-55. PubMed ID: 15865290
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  • 15. [Effect of rye Secale cereale L. chromosomes 1R and 3R on polyembryony expression in hybrid combinations between (Hordeum vulgare L.)-Triticum aestivum L. alloplasmic recombinant lines and wheat T. aestivum L.-rye S. cereale L. substitution lines].
    Pershina LA, Rakovtseva TS, Belova LI, Deviatkina EP, Silkova OG, Kravtsova LA, Shchapova AI.
    Genetika; 2007 Jul; 43(7):955-62. PubMed ID: 17899814
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  • 17. [Features of crossability, haploidy and polyembryony in hybrid combinations between common barley Hordeum vulgare L. (2n = 14) and wheat-rye substitution lines Triticum aestivum L., cultivar Saratovskaya 29/Secale cereale L., cultivar Onokhoiskaya].
    Pershina LA, Belova LI, Deviatkina EP, Rakovtseva TS, Kravtsova LA, Shchapova AI.
    Genetika; 2005 Jun; 41(6):784-92. PubMed ID: 16080603
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  • 18. Cytogenetic and molecular identification of three Triticum aestivum-Leymus racemosus translocation addition lines.
    Wang L, Yuan J, Bie T, Zhou B, Chen P.
    J Genet Genomics; 2009 Jun; 36(6):379-85. PubMed ID: 19539248
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  • 19. [Production of wheat-rye substitution lines and identification of chromosome composition of karyotypes using C-banding, GISH, and SSR markers].
    Silkova OG, Dobrovol'skaia OB, Dubovets NI, Adonina IG, Kravtsova LA, Roder MS, Salina EA, Shchapova AI, Shumnyĭ VK.
    Genetika; 2006 Jun; 42(6):793-802. PubMed ID: 16871784
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