Remarkable variation in androecial morphology is closely associated with corolla traits in Western Hemisphere Justiciinae (Acanthaceae: Justicieae).

Background And Aims: Few studies of angiosperms have focused on androecial evolution in conjunction with evolutionary shifts in corolla morphology and pollinator relationships. The Western Hemisphere clade of Justiciinae (Acanthaceae) presents the rare opportunity to examine remarkable diversity in staminal morphology. We took a phylogenetically informed approach to examine staminal diversity in this hypervariable group and asked whether differences in anther thecae separation is associated with phylogenetically informed patterns of variation in corolla morphology.

A RADseq phylogeny of Barleria (Acanthaceae) resolves fine-scale relationships.

Barleria is a genus of approximately 300 species of herbs, shrubs or, rarely, trees, that is broadly distributed across the Paleotropics. The genus is especially diverse in Tanzania, Angola, and Madagascar. A recent molecular study sampled 53 Barleria species and gathered data for five molecular markers (i.

Phylosymbiosis in the Rhizosphere Microbiome Extends to Nitrogen Cycle Functional Potential.

Most plants rely on specialized root-associated microbes to obtain essential nitrogen (N), yet not much is known about the evolutionary history of the rhizosphere-plant interaction. We conducted a common garden experiment to investigate the plant root-rhizosphere microbiome association using chloridoid grasses sampled from around the world and grown from seed in a greenhouse. We sought to test whether plants that are more closely related phylogenetically have more similar root bacterial microbiomes than plants that are more distantly related.

Phylogenomics of L. subgenus (Lamiaceae).

The evolutionary relationships of have been difficult to estimate. In this study, we used the Next Generation Sequencing method Hyb-Seq to evaluate relationships among 90 Lamiaceae samples, including representatives of subgenera , and 69 species of subgenus , representing 32 of Epling's sections. A bait set was designed in MarkerMiner using available transcriptome data to enrich 119 variable nuclear loci.

Evolutionary history of chloridoid grasses estimated from 122 nuclear loci.

Chloridoideae (chloridoid grasses) are a subfamily of ca. 1700 species with high diversity in arid habitats. Until now, their evolutionary relationships have primarily been studied with DNA sequences from the chloroplast, a maternally inherited organelle.

Independent allopolyploidization events preceded speciation in the temperate and tropical woody bamboos.

The objectives of the current study were to investigate the origin of polyploidy in the woody bamboos and examine putative hybrid relationships in one major lineage (the temperate woody bamboos, tribe Arundinarieae). Phylogenetic analyses were based on sequence data from three nuclear loci and 38 species in 27 genera. We identify six ancestral genome donors for contemporary bamboo lineages: temperate woody bamboos (tribe Arundinarieae) contain genomes A and B, tropical woody bamboos (tribe Bambuseae) contain genomes C and D, and herbaceous bamboos (tribe Olyreae) contain genome H; some hexaploid paleotropical bamboos contain genome E in addition to C and D.

The D4 set: primers that target highly variable intron loops in plant chloroplast genomes.

Chloroplast group II introns offer high-quality, rapidly evolving single-copy loci for comparative sequence analysis. These introns feature diagnostic secondary structures with loops that are among the least evolutionarily constrained sequence in plastomes. We exploited these structures to develop universal primers that amplify and sequence the large Domain IV (D4) loop in several angiosperm introns.