INVESTIGADORES
SEIJO Jose Guillermo
artículos
Título:
Physical mapping of 5S and 18S-25S rRNA genes evidences that Arachis duranensis and A. ipaensis are the wild diploid species involved in the origin of A. hypogaea (Leguminosae)
Autor/es:
JOSE GUILLERMO SEIJO; LAVIA, G.; FERNANDEZ, A.; KRAPOVICKAS, A.; DUCASSE, D.; MOSCONE, E. A.
Revista:
AMERICAN JOURNAL OF BOTANY
Editorial:
Botanical Society of America
Referencias:
Año: 2004 vol. 91 p. 1294 - 1303
ISSN:
0002-9122
Resumen:
The 5S and the 18S25S rRNA genes were physically mapped by fluorescent in situ hybridization (FISH) in all botanical varieties
of cultivated peanut Arachis hypogaea (2n 5 4x 5 40), in the wild tetraploid A. monticola, and in seven wild diploid species considered
as putative ancestors of the tetraploids. A detailed karyotype analysis including the FISH signals and the heterochromatic bands was
carried out. Molecular cytogenetic landmarks are provided for the construction of a FISH-based karyotype in Arachis species. The
size, number, and chromosome position of FISH signals and heterochromatic bands are similar in all A. hypogaea varieties and A.
monticola, but vary among the diploid species. Genome constitution of the species is discussed and several chromosome homeologies
are established. The bulk of the chromosome markers mapped, together with data on geographical distribution of the taxa, suggest
that peanut originated upon domestication of A. monticola and evidence that the diploids A. duranensis and A. ipaensis are the most
probable ancestors of both tetraploid species. Allopolyploidy could have arisen by a single event or, if by multiple events, always
from the same diploid speciesArachis hypogaea (2n 5 4x 5 40), in the wild tetraploid A. monticola, and in seven wild diploid species considered
as putative ancestors of the tetraploids. A detailed karyotype analysis including the FISH signals and the heterochromatic bands was
carried out. Molecular cytogenetic landmarks are provided for the construction of a FISH-based karyotype in Arachis species. The
size, number, and chromosome position of FISH signals and heterochromatic bands are similar in all A. hypogaea varieties and A.
monticola, but vary among the diploid species. Genome constitution of the species is discussed and several chromosome homeologies
are established. The bulk of the chromosome markers mapped, together with data on geographical distribution of the taxa, suggest
that peanut originated upon domestication of A. monticola and evidence that the diploids A. duranensis and A. ipaensis are the most
probable ancestors of both tetraploid species. Allopolyploidy could have arisen by a single event or, if by multiple events, always
from the same diploid speciesArachis species. The
size, number, and chromosome position of FISH signals and heterochromatic bands are similar in all A. hypogaea varieties and A.
monticola, but vary among the diploid species. Genome constitution of the species is discussed and several chromosome homeologies
are established. The bulk of the chromosome markers mapped, together with data on geographical distribution of the taxa, suggest
that peanut originated upon domestication of A. monticola and evidence that the diploids A. duranensis and A. ipaensis are the most
probable ancestors of both tetraploid species. Allopolyploidy could have arisen by a single event or, if by multiple events, always
from the same diploid speciesA. hypogaea varieties and A.
monticola, but vary among the diploid species. Genome constitution of the species is discussed and several chromosome homeologies
are established. The bulk of the chromosome markers mapped, together with data on geographical distribution of the taxa, suggest
that peanut originated upon domestication of A. monticola and evidence that the diploids A. duranensis and A. ipaensis are the most
probable ancestors of both tetraploid species. Allopolyploidy could have arisen by a single event or, if by multiple events, always
from the same diploid species, but vary among the diploid species. Genome constitution of the species is discussed and several chromosome homeologies
are established. The bulk of the chromosome markers mapped, together with data on geographical distribution of the taxa, suggest
that peanut originated upon domestication of A. monticola and evidence that the diploids A. duranensis and A. ipaensis are the most
probable ancestors of both tetraploid species. Allopolyploidy could have arisen by a single event or, if by multiple events, always
from the same diploid speciesA. monticola and evidence that the diploids A. duranensis and A. ipaensis are the most
probable ancestors of both tetraploid species. Allopolyploidy could have arisen by a single event or, if by multiple events, always
from the same diploid species