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Flavonoids, carotenoids, betalains, and chlorophylls are the plant pigments responsible for floral color. Anthocyanins, a class of flavonoids, are largely responsible for the red, purple, pink, and blue colors. R2R3-MYB genes belonging to subgroup 6 (SG6) are the upstream regulatory factors of the anthocyanin biosynthetic pathway. The canonical members of these genes in Arabidopsis include AtMYB75, AtMYB90, AtMYB113, and AtMYB114. The Aristolochiaceae is an angiosperm lineage with diverse floral groundplans and perianth colors. Saruma henryi exhibits a biseriate perianth with green sepals and yellow petals. All other genera have sepals only, with colors ranging from green (in Lactoris) to a plethora of yellow to red and purple mixtures. Here, we isolated and reconstructed the SG6 R2R3-MYB gene lineage evolution in angiosperms with sampling emphasis in Aristolochiaceae. We found numerous species-specific duplications of this gene lineage in core eudicots and local duplications in Aristolochiaceae for Saruma and Asarum. Expression of SG6 R2R3-MYB genes examined in different developmental stages and plant organs of four Aristolochiaceae species, largely overlaps with red and purple pigments, suggesting a role in anthocyanin and flavonoid synthesis and accumulation. A directed RNA-seq analysis corroborated our RT-PCR analyses, by showing that these structural enzymes activate during perianth development in Aristolochia fimbriata and that the regulatory genes are expressed in correlation with color phenotype. Finally, the reconstruction of the flavonoid and anthocyanin metabolic pathways using predicted peptides from transcriptomic data show that all pivotal enzymes are present in the analyzed species. We conclude that the regulatory genes as well as the biosynthetic pathway are largely conserved across angiosperms. In addition, the Aristolochiaceae emerges as a remarkable group to study the genetic regulatory network for floral color, as their members exhibit an outstanding floral diversity with elaborate color patterns and the genetic complement for SG6 R2R3-MYB genes is simpler than in core eudicot model species.

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A new azafluoranthene alkaloid, named sarumine (1), along with six known N-containing derivatives of phenanthrenes, 2-7, were isolated from the whole herb of Saruma henryi. Their structures were elucidated on the basis of extensive spectroscopic analysis. Moreover, antimicrobial activities of all compounds were evaluated.

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Flower monosymmetry contributes to specialized interactions between plants and their insect pollinators. In the magnoliids, flower monosymmetry is exhibited only in the Aristolochiaceae (Piperales). Aristolochia flowers develop a calyx-derived monosymmetric perianth that enhances pollination success by a flytrap mechanism. Aristolochia arborea forms additionally a special perianth outgrowth that mimics a mushroom to attract flies, the mushroom mimicry structure (MMS). In core eudicots, members of the CYC2 clade of TCP transcription factors are key regulators of corolla monosymmetry establishment. The CYC2 clade arose via core eudicot-specific duplications from ancestral CYC/TB1 genes. CYC/TB1 genes are also thought to affect monosymmetry formation in early diverging eudicot and monocot species. Here, we demonstrate that CYC/TB1 genes, named CYC-like genes (CYCL) are present in basal angiosperms and magnoliids. Expression analyses in A. arborea indicate that CYCL genes participate in perianth and MMS differentiation processes and do not support a CYCL gene function in initial flower monosymmetry formation. Heterologous CYCL and CYC2 gene overexpression studies in Arabidopsis show that Aristolochia CYCL proteins only perform a CYC2-like function when the CYCL TCP domain is replaced by a CYC2 domain. Comparative TCP domain analyses revealed that an LxxLL motif, known to mediate protein-protein interactions, evolved in the second helix of the TCP domain in the CYC2 lineage and contributes to CYC2-related functions. Our data imply that divergent evolution of the CYC/TB1 lineages caused significant changes in their coding regions, which together with cis-regulatory changes established the key CYC2 function in regulating eudicot flower monosymmetry.

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BACKGROUND AND AIMS: The order Piperales has the highest diversity of growth forms among the earliest angiosperm lineages, including trees, shrubs, climbers and herbs. However, within the perianth-bearing Piperales (Asarum, Saruma, Lactoris, Hydnora, Prosopanche, Thottea and Aristolochia), climbing species only occur in the most species-rich genus Aristolochia. This study traces anatomical and morphological traits among these lineages, to detect trends in growth form evolution and developmental processes. METHODS: Transverse stem sections of different developmental stages of representatives of Asarum, Saruma, Lactoris, Hydnora, Thottea and Aristolochia were compared and anatomical traits were linked to growth form evolution. Biomechanical properties of representative climbers were determined in three-point bending tests and are discussed based on the anatomical observations. Growth form evolution of the perianth-bearing Piperales was reconstructed by ancestral character state reconstruction using Mesquite. KEY RESULTS: While species of Asarum and Saruma are exclusively herbaceous, species of the remaining genera show a higher diversity of growth habit and anatomy. This growth form diversity is accompanied by a more complex stem anatomy and appropriate biomechanical properties. The ancestral growth form of the perianth-bearing Piperales is reconstructed with either a shrub-like or herbaceous character state, while the following three backbone nodes in the reconstruction show a shrub-like character state. Accordingly, the climbing habit most probably evolved in the ancestor of Aristolochia. CONCLUSIONS: Since the ancestor of the perianth-bearing Piperales has been reconstructed with a herb- or shrub-like habit, it is proposed that the climbing habit is a derived growth form, which evolved with the diversification of Aristolochia, and might have been a key feature for its diversification. Observed anatomical synapomorphies, such as the perivascular fibres in Lactoris, Thottea and Aristolochia, support the phylogenetic relationship of several lineages within the perianth-bearing Piperales. In addition, the hypothesis that the vegetative organs of the holoparasitic Hydnoraceae are most probably rhizomes is confirmed.

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Objective To analyze the simple sequence repeat(SSR)information in expressed sequence tag(EST)resource of Saruma henryi and lay a solid foundation for the development of EST-SSR markers in this species.Methods ESTs of S.henryi were downloaded from GenBank and used to perform the contig assembly using Sequencher 4.8.Uni-ESTs were obtained and screened for SSR-containing unigenes using SciRoKo 3.4.The distributing frequency of the EST-SSRs and the basic characteristics of motifs were analyzed.Results A total of 10 274 ESTs of S.henryi were retrieved and were assembled into 6 643 non-redundant Uni-ESTs with a total length of 5.11?106 bp.In all,the data mining yielded 1 408 SSR loci,which corresponded to 1 232 Uni-ESTs(18.55%).On average,EST-SSRs spanned 22.30 bp,and occurred every 3.63 kb in length.In S.henryi,mononucleotide repeats predominated with an occurrence frequency of 12.24%.Dinucleotide repeats followed with a frequency of 5.01%.The most frequent one was A/T among all the repeat motifs,then followed by AG/CT.Conclusion SSRs in ESTs of S.henryi display a relatively high level of occurrence frequency and show abundance of types.