Project description:Gynura procumbens isolate:Leaves Transcriptome or Gene expression

Project description:RNA-Seq of nectary and leaf samples of Jaltomata herrerae, and Jaltomata procumbens

Project description:Patellifolia procumbens overview

Project description:De novo transcriptome sequencing and analysis in Tridax procumbens L. using next generation sequencing

Project description:Medicinal plants or herbs have been long used in traditional practice and considered as an alternative treatment for diseases. Gynura procumbens is one of the herbs that showed high potential for treating various diseases such as diabetes mellitus, cancer and fertility. Previous study demonstrated G. procumbens potential as anti-hyperglycaemic agent by lowering the blood glucose level of diabetic-induced male rats (Hassan et al. 2010). G. procumbens is claimed to emulate the mechanism of action in insulin, by increasing the glucose intake in the skeletal muscle (Hassan et al. 2010). Another study made by Kamaruzaman & Mat Noor (2017) showed that G. procumbens extract has the ability to improve fertility of diabetes-induced male rats. Diabetes mellitus has caused deleterious effect on male reproductive system due to disruption in spermatogenesis, testicular impairment as well as erectile and ejaculation dysfunction (Alves et al. 2013). Testicular impairment in diabetic rats leads to low sperm quality. Hence, proteomic analysis was performed to identify the differential expressions of total sperm protein after treatment of G. procumbens extract.

Project description:A new endemic subspecies of Salicornia procumbens (Chenopodiaceae) from Sardinia (Italy)

Project description:Gene expression in Jaltomata (species herrerae and procumbens) nectaries

Project description:Azole resistance was induced in vitro by growth of a susceptible C. parapsilosis isolate in the presence of voriconazole. Whole genome microarrays were used to compare the transcriptional response of the voriconizole-resistant and susceptible isolates.

Project description:Azole resistance was induced in vitro by growth of a susceptible C. parapsilosis isolate in the presence of posaconazole. Whole genome microarrays were used to compare the transcriptional response of the posaconazole-resistant and susceptible isolates.

Project description:Azole resistance was induced in vitro by growth of a susceptible C. parapsilosis isolate in the presence of fluconazole. Whole genome microarrays were used to compare the transcriptional response of the fluconazole-resistant and susceptible isolates.