Chromosome identification and analysis of genomic relationships in some diploid and tetraploid species of the genus Aegilops
Ait Oumeziane, N.; Siljak Yakovlev, S.; Khalfallah, N.
Annales de Genetique 44(Suppl 1): s93
2001
ISSN/ISBN: 0003-3995 Accession: 034577278
PDF emailed within 1 workday: $29.90
Related References
Leggett, J.M. 1998: Chromosome and genomic relationships between the diploid species Avena strigosa, A. eriantha and the tetraploid A. maroccana Heredity 80(3): 361-363Cunado, N. 1993: Genomic analysis in the genus Aegilops. I : Interspecific hybrids between tetraploid species sharing a common genome Heredity (Edinburgh. Print) 70: 9-15
Ohta, S.T.naka, M. 1983: Genome relationships between Aegilops mutica and the other diploid Aegilops and Triticum species, based on the chromosome pairing in the hybrids with or without B-chromosomes Proceedings of the sixth International Wheat Genetics Symposium edited by Sadao Sakamoto: 991
Ladizinsky, G. 1971: Chromosome relationships between tetraploid (2n = 28) Avena murphyi and some diploid, tetraploid and hexaploid species of oats Canadian Journal of Genetics and Cytology 13(2): 203-209
Cheng, D.W.; Armstrong, K.C.; Drouin, G.; McElroy, A.; Fedak, G.; Molnar, S.D. 2003: Isolation and identification of Triticeae chromosome 1 receptor-like kinase genes (Lrk10) from diploid, tetraploid, and hexaploid species of the genus Avena Genome 46(1): 119-127
Furuta, Y. 1983: Experimental chromosome introgression in tetraploid species of section Polyeides in genus Aegilops Proceedings of the sixth International Wheat Genetics Symposium edited by Sadao Sakamoto: 3
Cunado, N. 1992: Genomic analysis in the genus Aegilops. III: Intergeneric hybrids between different species of Aegilops and Secale cereale Theoretical and Applied Genetics 85(2-3): 309-316
Cuñado, N. 1992: Genomic analysis in the genus Aegilops. : 3. Intergeneric hybrids between different species of Aegilops and Secale cereale Tag. Theoretical and Applied Genetics. Theoretische und Angewandte Genetik 85(2-3): 309-316
Perthuy, G.èl.Y.; Martínez, S.; Greizerstein, E.J.é; Poggio, L. 2010: Genomic relationships among diploid and polyploid species of the genus Eryngium L. using genomic in situ hybridization Genome 53(10): 824-831
Kumar, S.; Friebe, B.; Gill, B.S. 2010: Fate of Aegilops speltoides-derived, repetitive DNA sequences in diploid Aegilops species, wheat-Aegilops amphiploids and derived chromosome addition lines Cytogenetic and Genome Research 129(1-3): 47-54
Singh, R.J.; Kollipara, K.P.; Hymowitz, T. 1992: Genomic relationships among diploid wild perennial species of the genus Glycine Willd. subgenus Glycine revealed by crossability, meiotic chromosome pairing and seed protein electrophoresis Tag. Theoretical and Applied Genetics. Theoretische und Angewandte Genetik 85(2-3): 276-282
Ptak, K. 1986: Cyto embryological investigations on the polish representatives of the genus crataegus l. i. chromosome numbers embryology of diploid and tetraploid species Acta Biologica Cracoviensia Series Botanica 28: 107-122
Goriunova, S.V.; Chikida, N.N.; Kochieva, E.Z. 2008: Molecular analysis of the phylogenetic relationships among the diploid aegilops species of the section Sitopsis Genetika 44(1): 137-141
Singh, R.J.; Kollipara, K.P.; Hymowitz, T. 1988: Further data on the genomic relationships among wild perennial species diploid equals 40 of the genus glycine willd Genome 30(2): 166-176
Vasil' yev, V.I.; Vasil' yeva, E.D.; Osinov, A.G. 1991: The problem of reticulate species formation in vertebrates of the diploid-triploid-tetraploid complex in the genus Cobitis (Cobitidae). 4. Tetraploid form Journal of Ichthyology 31(2): 21-35