Karyotypes of Elymus scabrifolius (Poaceae: Triticeae) from South America Studied by Banding Techniques and in Situ Hybridization

Karyotypes of Elymus scabrifolius (Poaceae: Triticeae) from South America Studied by Banding Techniques and in Situ Hybridization

Karyotypes of 4 accessions of Elymus scabrifolius (2n = 4x = 28) were investigated by Giemsa C‐ and N‐banding, GAA‐banding (one accession), AgNO3‐staining and in situ hybridization with the rDNA probe pTa71. Two additional accessions were studied in less detail. The chromosomes were large (9–14 μm)....

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Veröffentlicht in:Hereditas 2001-01, Vol.135 (1), p.41-50
Hauptverfasser: Linde-Laursen, IB, Seberg, Ole
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Sprache:eng
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Chromatin - metabolism
Chromosome Banding
Elymus scabrifolius
Karyotyping
Nucleic Acid Hybridization
Poaceae - genetics
South America
Triticeae
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description Karyotypes of 4 accessions of Elymus scabrifolius (2n = 4x = 28) were investigated by Giemsa C‐ and N‐banding, GAA‐banding (one accession), AgNO3‐staining and in situ hybridization with the rDNA probe pTa71. Two additional accessions were studied in less detail. The chromosomes were large (9–14 μm). The complements included 11 pairs of metacentrics, one with conspicuous satellites on the short arms, and 3 pairs of submetacentrics. Two of 4 accessions from Eastern Argentina and Uruguay had minute or small satellites on a submetacentric pair. No such satellites were observed in the other two accessions. In two accessions from the Cordoba province, a non‐homologous submetacentric pair had very long satellites. AgNO3‐staining established the presence of 4 nucleoli, two larger and two small ones, in 5 accessions. The C‐banding patterns comprised from one to 12 conspicuous bands per chromosome at no preferential positions. The amount of constitutive heterochromatin (19–21%) was the highest hitherto established in the Triticeae. Similarities in banding patterns and chromosome morphology identified homologous and discriminated between non‐homologous chromosomes within and, except for two chromosomes, between plants. Heteromorphic chromosome pairs were identified in satellite‐carrying chromosomes only. N‐banding produced conspicuous bands overall at the same positions as C‐banding. GAA‐banding patterns were similar to N‐banding patterns. The rDNA probe hybridized to chromosome segments at nucleolar constrictions only. The production of C‐ and N‐banding patterns in both genomes of E. scabrifolius suggests the presence of two H genomes and the absence of the pivotal St genome of Elymus. On account of the uncertain identity of one genome, and the overall similar gross morphology of E. scabrifolius and other tetraploid South American species referred to Elymus, E. scabrifolius is retained in Elymus.
doi_str_mv 10.1111/j.1601-5223.2001.00041.x
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Two additional accessions were studied in less detail. The chromosomes were large (9–14 μm). The complements included 11 pairs of metacentrics, one with conspicuous satellites on the short arms, and 3 pairs of submetacentrics. Two of 4 accessions from Eastern Argentina and Uruguay had minute or small satellites on a submetacentric pair. No such satellites were observed in the other two accessions. In two accessions from the Cordoba province, a non‐homologous submetacentric pair had very long satellites. AgNO3‐staining established the presence of 4 nucleoli, two larger and two small ones, in 5 accessions. The C‐banding patterns comprised from one to 12 conspicuous bands per chromosome at no preferential positions. The amount of constitutive heterochromatin (19–21%) was the highest hitherto established in the Triticeae. Similarities in banding patterns and chromosome morphology identified homologous and discriminated between non‐homologous chromosomes within and, except for two chromosomes, between plants. Heteromorphic chromosome pairs were identified in satellite‐carrying chromosomes only. N‐banding produced conspicuous bands overall at the same positions as C‐banding. GAA‐banding patterns were similar to N‐banding patterns. The rDNA probe hybridized to chromosome segments at nucleolar constrictions only. The production of C‐ and N‐banding patterns in both genomes of E. scabrifolius suggests the presence of two H genomes and the absence of the pivotal St genome of Elymus. 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subjects Chromatin - metabolism
Chromosome Banding
Elymus scabrifolius
Karyotyping
Nucleic Acid Hybridization
Poaceae - genetics
South America
Triticeae
title Karyotypes of Elymus scabrifolius (Poaceae: Triticeae) from South America Studied by Banding Techniques and in Situ Hybridization
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