This study investigated the chemical composition and evaluated the antibacterial and antibiofilm activities of essential oils (EOs) extracted from Ruellia asperula (EORA) and Ruellia paniculata (EORP) against oral streptococci. The EO constituents were analyzed by gas chromatography/mass spectrometry. The antimicrobial potential of EOs was evaluated using the minimum inhibitory concentration, minimum bactericidal concentration, and time-kill determination. Furthermore, the quantification of total biomass and the number of viable cells in the biofilms were evaluated. The major constituents of EORA were cariophylla-4(12)-8-(13)-dien-5β-ol (14.1%), (β)-caryophyllene (22.7%), and caryophyllene oxide (29.4%). For EORP, the major constituents were (β)-caryophyllene (11.0%), spathulenol (13.1%), and δ-amorphene (14.9%). The tested EOs exhibited antibacterial activity against planktonic growth and biofilm formation. Thus, the EOs from R. asperula and R. paniculata prove to be promising alternatives for bacterial growth control and biofilm formation prevention of oral streptococci.

New combinations of divergent genomes can give rise to novel genetic functions in resulting hybrid progeny. Such functions may yield opportunities for ecological divergence, contributing ultimately to reproductive isolation and evolutionary longevity of nascent hybrid lineages. In plants, the degree to which transgressive genotypes contribute to floral novelty remains a question of key interest. Here, we generated an F1 hybrid plant between the red-flowered Ruellia elegans and yellow flowered R. speciosa. RNA-seq technology was used to explore differential gene expression between the hybrid and its two parents, with emphasis on genetic elements involved in the production of floral anthocyanin pigments.
The hybrid was purple flowered and produced novel floral delphinidin pigments not manufactured by either parent. We found that nearly a fifth of all 86,475 unigenes expressed were unique to the hybrid. The majority of hybrid unigenes (80.97%) showed a pattern of complete dominance to one parent or the other although this ratio was uneven, suggesting asymmetrical influence of parental genomes on the progeny transcriptome. However, 8.87% of all transcripts within the hybrid were expressed at significantly higher or lower mean levels than observed for either parent. A total of 28 unigenes coding putatively for eight core enzymes in the anthocyanin pathway were recovered, along with three candidate MYBs involved in anthocyanin regulation.
Our results suggest that models of gene evolution that explain phenotypic novelty and hybrid establishment in plants may need to include transgressive effects. Additionally, our results lend insight into the potential for floral novelty that derives from unions of divergent genomes. These findings serve as a starting point to further investigate molecular mechanisms involved in flower color transitions in Ruellia.