Project description:Salvia rosmarinus Organism overview

Project description:Salvia rosmarinus Genome sequencing and assembly

Project description:Salvia rosmarinus Genome sequencing and assembly

Project description:Salvia rosmarinus Transcriptome or Gene expression

Project description:Salvia is an important genus from the Lamiaceae with approximately 1000 species distributed globally. Several Salvia species are commercially important because of their medicinal and culinary properties. We report the construction of the first fingerprinting array for Salvia species enriched with polymorphic and divergent DNA sequences and demonstrate the potential of this array for fingerprinting several economically important members of this genus.

Project description:RNAseq of Salvia dorisiana plant parts

Project description:Salvia is an important genus from the Lamiaceae with approximately 1000 species distributed globally. Several Salvia species are commercially important because of their medicinal and culinary properties. We report the construction of the first fingerprinting array for Salvia species enriched with polymorphic and divergent DNA sequences and demonstrate the potential of this array for fingerprinting several economically important members of this genus. In order to generate the Salvia Subtracted Diversity Array (SDA), a Suppression Subtractive Hybridization (SSH) was performed between a pool of ten Salvia species and a pool of non-angiosperm and angiosperms (excluding the Lamiaceae) to selectively isolate Salvia-specific sequences. A total of 285 subtracted genomic DNA (gDNA) fragments were amplified and arrayed. DNA fingerprints were obtained for fifteen Salvia genotypes including three that were not part of the original subtraction pool. Hierarchical cluster analysis indicated that the Salvia-specific SDA was capable of differentiating closely related species of S. officinalis and S. miltiorrhiza and was also able to reveal genetic relationships consistent with geographical origins. Species-specific features were also found for S. elegans, S. officinalis, S. sclarea, S. przewalskii and S. runcinata.

Project description:Mammalian skin wounds typically heal with a scar, characterized by fibrotic tissue that disrupts original tissue architecture and function. Therapies to reduce fibrosis and scar formation remain a large unmet clinical need. Rosemary extract, particularly in the form of topical oils and creams, has gained massive popularity within the general public as a potential treatment to reduce scar formation. However, its efficacy and potential mechanism of action remain unknown. We show in adult wound healing mouse models that an ethanol-based rosemary extract reduces fibrosis and promotes scarless wound healing. More specifically, carnosic acid within rosemary leaves acts as an active ingredient and stimulates the TRPA1 nociceptor on cutaneous sensory neurons to promote scarless wound healing. Mice lacking TRPA1 on sensory neurons do not exhibit rosemary-induced tissue regeneration. Taken together, topical rosemary extract may be an effective and cost-efficient therapeutic to reduce scar formation in skin wounds.

Project description:RNA seq analysis of leaf and stem tissues of Rosemary (Salvia rosmarinus Spenn., syn Rosmarinus officinalis L.)

Project description:Postharvest sprouting of potato tubers compromises food safety and causes economic losses. This study employed RNA-seq to investigate the molecular mechanisms by which rosemary essential oil (REO) suppresses postharvest sprouting in potato tubers (cultivar 'Keshan'). Tubers were divided into two groups at the onset of storage: a control group and a group treated with REO fumigation. Transcriptomic profiles were analyzed at two time points: at day 0 (baseline) and after 40 days of storage. This design allowed for the identification of differentially expressed genes in response to both storage time and REO treatment, with a specific focus on pathways related to plant hormone signaling and carbohydrate metabolism.