Sequence variability of the MspI satellite DNA family of the pinewood nematode Bursaphelenchus xylophilus at different geographic scales
Loading...
Date
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Abstract
Tandemly repeated sequences known as satellite DNA (satDNA) generally exhibit complex evolutionary
patterns of concerted evolution in which mutations are homogenized and fixed in a stochastic process of
molecular drive. Here, the nucleotidic variability of the MspI satDNA family of the pinewood nematode
Bursaphelenchus xylophilus is analyzed in order to understand the evolutionary dynamics of satDNA at
the intraspecific level. A total of 425 MspI monomer units, either PCR-amplified from isolates of local
(Peninsula of Setúbal, Portugal) or worldwide origin, or retrieved from the B. xylophilus genome sequence,
were characterized and compared. Whatever their origin, sliding window analysis of sequence variability
patterns among monomers revealed low, moderate and highly variant domains, indicating that variable
levels of evolutionary constraint may act upon the entire monomers. The phylogenetic inference based on
the different sets of MspI satDNA family for this species shows a broad polymorphism of the individual
monomers, which were distributed into four main clusters. However, such clustering appeared independent
from the geographic origin of the nematodes, and could not discriminate isolates or groups of geographically
close isolates. Rather, the formation of different phylogenetic groups within this satDNA
family suggests an a priori embodying of a set of diverging repeats from a common ancestor satDNA
library, which have been differently amplified along the evolutionary pathway of this species. The present
work improves knowledge on the evolutionary dynamics of satDNA at the intraspecific level, and provides
new information on satDNA sequence variability among natural populations sampled at a local geographic
scale.