The purpose of this study was to compare the essential oil profiles of four South-Croatian Satureja species, as determined by GC/FID and GC/MS, with their DNA sequences for an internal transcribed spacer (ITS1-5.8S-ITS2) of the nuclear ribosomal DNA. A phylogenetic analysis showed that S. montana and S. cuneifolia, characterized by a similar essential oil composition, rich in the monoterpene hydrocarbon carvacrol, clustered together with high and moderate bootstrap support. On the contrary, S. subspicata and S. visianii, characterized by quite unique essential oil compositions, clustered together with the moderate bootstrap support. All four Croatian Satureja species clustered in one clade, separately from Macaronesian S. hortensis, although it had essential oil composition similar to that of S. montana and S. cuneifolia. This is the first report on the comparison between the phytochemical and DNA sequence data in Satureja species and useful contribution to the better understanding of interspecies relationships in this genus.
The pantropical orchid genus Polystachya is the subject of ongoing taxonomic work. We inferred phylogenetic relationships in the genus using 5.3 kb of plastid DNA, for 83 out of ca. 240 species and 12 out of 15 sections, as well as five outgroup species. We also collected ploidy data using chromosome counts and genome size estimates. Bayesian and parsimony trees were congruent with each other and well resolved. Polystachya appears monophyletic based on current sampling, provided that the name P. neobenthamia is used instead of Neobenthamia gracilis for that species. The current sectional classification does not define monophyletic groups, but the present study can be used as the basis for a future sectional classification. Areas postulated as Pleistocene refugia for wet tropical forests in Africa also form centres of diversity for the genus. Biogeographical analyses using DIVA and Lagrange show an early radiation in eastern Africa, followed by separate radiations in eastern and western Africa. Subsequent dispersal from western to eastern Africa has occurred at a much higher rate than from east to west. Dispersal to the Neotropics occurred more than once, and one lineage has spread recently and rapidly throughout the tropics. Polyploidy has occurred several times during the diversification of the genus, most notably in association with the recent pantropical dispersal.
The ancestry, phylogenetic differentiation and systematic classification of the worldwide-distributed genus Anemone have been debated for many years. In this paper 11 Anemone, three Pulsatilla species and Hepatica nobilis were subjected to detailed karyotype analysis with the aim of obtaining new cytogenetic data that will contribute to karyotype evolutionary studies of the tribe Anemoninae. The results are interpreted in a phylogenetic context, established from the intergenic nontranscribed spacer (NTS) of 5S rDNA and internal transcribed spacer (ITS) of 35S rDNA. One to three 35S and one to three 5S rDNA loci are present in diploid and polyploid taxa. The 35S rDNA loci are located terminally on the short arm of acrocentric chromosomes, while for 5S rDNA there is no preferential chromosomal position as it exhibits terminal, subterminal, interstitial or pericentromeric positions, and is located either on acrocentric or metacentric chromosomes. The karyotype of hexaploid A. baldensis (2n = 6x = 48) is presented for the first time, and A. sylvestris is proposed as one of its putative parental species. Chromosome fusion/translocation is proposed as the key mechanism involved in reduction of the basic chromosome number from 8 in the Anemone subgenus to 7 in the Anemonidium subgenus. The cytogenetic data obtained are mainly supported by ITS and NTS phylogeny. Diversification of the genus Anemone was accompanied by a large reduction of heterochromatin, from the Mediterranean anemones that have large amounts of heterochromatin to the New World anemones without any detectable heterochromatic blocks.
It is proposed that A. multifida and A. baldensis probably had a common ancestor and their evolution was facilitated by vegetation changes during the Quaternary, resulting in their present disjunctive distribution.
The structure and organization of the 5S ribosomal DNA units of the silver fir, Abies alba Mill., as well as their position in the chromosome complement were investigated. PCR amplification of the gene and nontranscribed spacer region, sequence analysis and Southern hybridization, using a homologous probe, detected DNA sequences of approximately 550 bp and 700 bp. Sequence analysis of the spacers revealed that the difference in length between the sequences occurred in the middle spacer region as a result of the amplification of a 75-bp sequence of the short unit class, which is organized in four 54- to 68-bp tandem repeats in the long spacer unit. The 5S rDNA transcribed region is 120 bp long and shows high sequence similarity with other gymnosperm species. The comparative analysis of 5' and 3' flanking sequences of 5S rRNA genes of silver fir and other gymnosperms indicates that A. alba spacer units have the same rate of evolution and are more closely related to Larix and Pseudotsuga than to Pinus and Picea. Southern hybridization and fluorescence in situ hybridization of metaphase chromosomes of A. alba suggest that the short and long spacer units are organized as separate tandem arrays at two chromosomal loci on chromosomes V and XI.
Dalmatian pyrethrum (
Tanacetum cinerariifolium
(Trevir.) Sch. Bip.), a plant species endemic to the east Adriatic coast, is used worldwide for production of the organic insecticide, pyrethrin. Most studies concerning Dalmatian pyrethrum have focused on its morphological and biochemical traits relevant for breeding. However, little is known about the chromosomal evolution and genome organization of this species. Our study aims are to identify, classify, and characterize repetitive DNA in the
T. cinerariifolium
genome using clustering analysis of a low coverage genomic dataset. Repetitive DNA represents about 71.63% of the genome.
T. cinerariifolium
exhibits linked 5S and 35S rDNA configuration (L-type). FISH reveals amplification of interstitial telomeric repeats (ITRs) in
T. cinerariifolium
. Of the three newly identified satellite DNA families, TcSAT1 and TcSAT2 are located subterminally on most of
T. cinerariifolium
chromosomes, while TcSAT3 family is located intercalary within the longer arm of two chromosome pairs. FISH reveals high levels of polymorphism of the TcSAT1 and TcSAT2 sites by comparative screening of 28 individuals. TcSAT2 is more variable than TcSAT1 regarding the number and position of FISH signals. Altogether, our data highlights the dynamic nature of DNA sequences associated with subtelomeres in
T. cinerariifolium
and suggests that subtelomeres represent one of the most dynamic and rapidly evolving regions in eukaryotic genomes.
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