Genetic diversity of SSR and ISSR markers in wild populations of Brachypodium distachyon and its close relatives B. stacei and B. hybridum (Poaceae)
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Date
2014-11-01
Date Issued
ISI Journal
Impact factor: 1.452 (Year: 2014)
Citation
Rifka Hammami, Nicolas Jouve, Consuelo Soler, Eva Frieiro, Juan González. (1/11/2014). Genetic diversity of SSR and ISSR markers in wild populations of Brachypodium distachyon and its close relatives B. stacei and B. hybridum (Poaceae). Plant Systematics and Evolution, 300 (9), pp. 2029-2040.
Abstract
The genetic diversity of seven wild populations of the grass Brachypodium distachyon
(2n = 10), 4 of B. stacei (2n = 20) and 13 of B. hybridum (2n = 30) from the
Mediterranean and southern areas of the Iberian Peninsula was studied via the
analysis of microsatellite (SSR) and inter-microsatellite (ISSR) markers. The 11 SSR
markers analysed provided a total of 156 polymorphic fragments. The B. hybridum
populations returned more fragments (98) than the B. stacei populations (87), and
more than twice the number recorded for the B. distachyon populations (44). Some
fragments were specific to the B. distachyon (3.85 %), B. stacei (27.56 %) or B.
hybridum populations (18.58 %). The analysis of 16 ISSR markers returned similar
results: the B. hybridum populations returned more polymorphic fragments than the
B. distachyon or B. stacei populations. The analysis of molecular variance, with
distances between individuals, populations and species estimated on the basis of the
presence/absence of the SSR and ISSR fragments, showed most of the variation (67 %)
to occur among populations. This was followed by differences among individuals
within populations (24 %), and finally among species (9 %). Grouping based on
UPGMA and principal coordinate analysis showed a clear separation of three groups
corresponding to the populations of the same species. Principal component analysis,
involving chromosome number, low-molecular weight-glutenin subunits and the most
influential climatic and geographic factors, was also performed. This revealed an
obvious separation among the populations of B. distachyon and B. hybridum. The
index of Mediterraneity and altitude explained 70.56 % of the total variation
associated with the first axis. A trend was seen towards a greater presence of B.
distachyon forms in areas of the Peninsular interior and higher altitude, with the B.
hybridum forms more common in regions of greater summer rainfall and a lower
index of Mediterraneity.