Characterization and phylogenetic analyses of ten complete plastomes of Spiraea species.

BACKGROUND: Spiraea is a genus of deciduous shrubs that contains 80-120 species, is mainly distributed in the Northern Hemisphere and has diversified in East Asia. Spiraea species are cultivated as ornamental plants and some are used in traditional herbal medicine. Based on morphological characteristics and genetic markers, phylogenetic classification exhibits low discriminatory power. RESULTS: In present study, we assembled and characterized the chloroplast (cp) genomes of ten Spiraea species and comparatively analysed with five reported cp genomes of this genus. The cp genomes of the fifteen Spiraea species, ranging from 155,904 to 158,637 bp in length, were very conserved and no structural rearrangements occurred. A total of 85 protein-coding genes (PCGs), 37 tRNAs and 8 rRNAs were annotated. We also examined 1,010 simple sequence repeat (SSR) loci, most of which had A/T base preference. Comparative analysis of cp genome demonstrated that single copy and non-coding regions were more divergent than the inverted repeats (IRs) and coding regions and six mutational hotspots were detected. Selection pressure analysis showed that all PCGs were under purifying selection. Phylogenetic analysis based on the complete cp genome data showed that Spiraea formed a monophyletic group and was further divided into two major clades. Infrageneric classification in each clade was supported with a high resolution value. Moreover, the phylogenetic trees based on each individual mutational hotspot segment and their combined dataset also consisted of two major clades, but most of the phylogenetic relationships of interspecies were not well supported. CONCLUSIONS: Although the cp genomes of Spiraea species exhibited high conservation in genome structure, gene content and order, a large number of polymorphism sites and several mutation hotspots were identified in whole cp genomes, which might be sufficiently used as molecular markers to distinguish Spiraea species. Phylogenetic analysis based on the complete cp genome indicated that infrageneric classification in two major clades was supported with high resolution values. Therefore, the cp genome data of the genus Spiraea will be effective in resolving the phylogeny in this genus.

A clue to the evolutionary history of modern East Asian flora: Insights from phylogeography and diterpenoid alkaloid distribution pattern of the Spiraea japonica complex.

Each subkingdom of East Asian flora (EAF) has a unique evolutionary history, but which has rarely been described based on phylogeographic studies of EAF species. The Spiraea japonica L. complex, which is widespread in East Asia (EA), has received considerable attention because of the presence of diterpenoid alkaloids (DAs). It provides a proxy for understanding the genetic diversity and DA distribution patterns of species under various environmental conditions associated with the geological background in EA. In the present study, the plastome and chloroplast/nuclear DNA of 71 populations belonging to the S. japonica complex and its congeners were sequenced, combined with DA identification, environmental analyses, and ecological niche modelling, to investigate their phylogenetic relationships, genetic and DAs distribution patterns, biogeography, and demographic dynamics. An "ampliative" S. japonica complex was put forward, comprising all species of Sect. Calospira Ser. Japonicae, of which three evolutionary units carrying their respective unique types of DAs were identified and associated with the regionalization of EAF (referring to the Hengduan Mountains, central China, and east China). Moreover, a transition belt in central China with its biogeographic significance was revealed by genetic and DA distribution patterns from the perspective of ecological adaptation. The origin and onset differentiation of the "ampliative" S. japonica complex was estimated in the early Miocene (22.01/19.44 Ma). The formation of Japanese populations (6.75 Ma) was facilitated by the land bridge, which subsequently had a fairly stable demographic history. The populations in east China have undergone a founder effect after the Last Glacial Maximum, which may have been promoted by the expansion potential of polyploidization. Overall, the in-situ origin and diversification of the "ampliative" S. japonica complex since the early Miocene is a vertical section of the formation and development of modern EAF and was shaped by the geological history of each subkingdom.

Characterization and Comparison of Two Complete Plastomes of Rosaceae Species (Potentilla dickinsii var. glabrata and Spiraea insularis) Endemic to Ulleung Island, Korea.

Potentilla dickinsii var. glabrata and Spiraea insularis in the family Rosaceae are species endemic to Ulleung Island, Korea, the latter of which is listed as endangered. In this study, we characterized the complete plastomes of these two species and compared these with previously reported plastomes of other Ulleung Island endemic species of Rosaceae (Cotoneaster wilsonii, Prunus takesimensis, Rubus takesimensis, and Sorbus ulleungensis). The highly conserved complete plastomes of P. dickinsii var. glabrata and S. insularis are 158,637 and 155,524 base pairs with GC contents of 37% and 36.9%, respectively. Comparative phylogenomic analysis identified three highly variable intergenic regions (trnT-UGU/trnL-UAA, rpl32/trnL-UAG, and ndhF/rpl32) and one variable genic region (ycf1). Only 14 of the 75 protein-coding genes have been subject to strong purifying selection. Phylogenetic analysis of 23 representative plastomes within the Rosaceae supported the monophyly of Potentilla and the sister relationship between Potentilla and Fragaria and indicated that S. insularis is sister to a clade containing Cotoneaster, Malus, Pyrus, and Sorbus. The plastome resources generated in this study will contribute to elucidating the plastome evolution of insular endemic Rosaceae on Ulleung Island and also in assessing the genetic consequences of anagenetic speciation for various endemic lineages on the island.

Spiroides shrubs on Qinghai-Tibetan Plateau: Multilocus phylogeography and palaeodistributional reconstruction of Spiraea alpina and S. Mongolica (Rosaceae).

A common hypothesis for the rich biodiversity found in mountains is uplift-driven diversification. Using a multilocus approach, here we assessed the influence of Qinghai-Tibetan Plateau (QTP) uplift and fluctuating regional climate on genetic diversity of two sister spiroides shrubs, Spiraea alpina and S. mongolica. Combined with palaeodistributional reconstruction modelling, we investigated the current and past-predicted distribution of these species under different climatic episodes. The study demonstrated that continuous pulses of retreat and expansion during last glacial-interglacial episodes, combined with the uplifting of QTP shaped the current distribution of these species. All the populations showed high level of genetic diversity based on both cpDNA and SSR markers. The average gene diversity within populations based on cpDNA markers was 0.383 ±â€¯0.052 for S. alpina and 0.477 ±â€¯0.048 for S. mongolica. The observed and expected heterozygosities based on SSR for both Spiraea alpina and S. mongolicawere HE(0.72-0.90)/HO(0.35-0.78) and HE(0.77-0.92)/HO(0.47-0.77) respectively. Palaeodistributional reconstruction indicated species' preferences at southeastern edge of the plateau during last glacial maximum, at higher altitude areas of QTP and range expansion to central plateau during the interglacial episodes. Assignment tests in STRUCTURE, discriminant analysis of principal coordinates and Immigrants analysis in GENECLASS based on nuclear SSR markers did not support the hypothesis of gene flow between both the species. However, maximum likelihood approach based on cpDNA showed sharing of haplotypes between both species.

Protein expression patterns in two Spiraea species in response to cold treatment.

We analyzed the different cold-resistance species Spiraea trichocarpa Nakai and Spiraea bumalda 'Goldmound' for low-temperature protein expression, protein types identification, and investigated the cold resistance mechanisms under different levels of low temperature by two-dimensional gel electrophoresis (2-DE) and mass spectrometry. An average of 668 and 559 protein spots were detected by 2-DE of S. bumalda 'Goldmound' and S. trichocarpa Nakai, respectively, under different low-temperature treatments. Matrix-assisted laser desorption/ionization time-of-flight mass spectroscopy identified 48 proteins, with varying expression, related to metabolism, amino acid synthesis, transportation, stress responses and oxidation-reduction reactions. The results showed that the photosynthesis of S. bumalda 'Goldmound' had been affected, enzymes (RuBisCO large and small subunits) involved in the Calvin cycle were up- and down-regulated, and ATP synthase in photophosphorylation was down-regulated. Cytosolic malate dehydrogenase expression weakened in the TCA cycle, while amino acid synthesis strengthened. The activity of four antioxidant enzymes (superoxide dismutase [Cu-Zn], L-ascorbate peroxidase, glutathione peroxidase and peroxidase) was reduced under varying low temperatures. Enzymes (ribulose-bisphosphate carboxylase and RuBisCO small chain precursor) involved in the photosynthesis of S. trichocarpa Nakai showed obvious up- and down-regulation under low temperatures. Cold treatment influenced the photosynthesis of S. trichocarpa Nakai and S. bumalda 'Goldmound', but the results showed significant differences between the two species, which were supposed to the fact that low temperature modified the metabolic mechanisms and led to the weaker cold resistance in S. bumalda 'Goldmound' than in S. trichocarpa Nakai.

Development of microsatellite markers in a riparian shrub, Spiraea thunbergii (Rosaceae).

PREMISE OF THE STUDY: Microsatellite primers in the deciduous shrub Spiraea thunbergii were developed to investigate genetic diversity and population genetic structure. Cross-species transferability was assayed in four congeneric species. METHODS AND RESULTS: Using a compound simple sequence repeat (SSR) marker method, 10 primer sets were identified in Japanese populations of S. thunbergii. The primers amplified compound SSRs with two to five alleles per locus. More than half of the primers were also amplified in S. prunifolia, S. nipponica var. nipponica, and S. japonica. CONCLUSIONS: These markers might be useful for future studies of population genetics of S. thunbergii and congeneric species.

Invasive populations of Spiraea tomentosa (Rosaceae) are genetically diverse but decline during succession in forest habitats.

Population genetic and ecological data may help to control invasive plants, which are considered a major threat to natural habitats. In contrast to expected bottleneck events, genetic diversity of such invasive populations may be high due to extensive propagule pressure or admixture. The ecological impact of invasive species has been broadly evaluated in the field; however, long-term studies on the fate of invasive plants are scarce. We analysed genetic diversity and structure in invasive Spiraea tomentosa populations in eastern Germany and western Poland using Amplified Fragment Length Polymorphism. Potential hybridization between co-occurring diploid Sp. tomentosa and tetraploid Sp. douglasii was investigated using Flow Cytometry. The genetic analyses were complemented by data from a 13-year vegetation study in an area invaded by these Spiraea species. We found no evidence for hybridization between Spiraea species. In populations of Sp. tomentosa both genetic diversity (He = 0.26) and genetic structure (ΦPT = 0.27) were high and comparable to other outcrossing woody plants. Low levels of clonality, presence of seedlings and new patches in sites that had been colonized over the last 13 years imply that populations spread via sexual reproduction. In all habitat types, native species diversity declined following Sp. tomentosa invasion. However, detailed aerial mapping of a forest reserve with ongoing succession revealed that Spiraea spp. populations have declined over a 10-year period. Despite its potential for dispersal and negative effects on native plant communities, invasive Spiraea populations may be controlled by increasing canopy cover in forest habitats.