Project description:Deciduous tree being explored as a source of Biofuel

Project description:Arundo donax is a perennial grass of family Poaceae which is being explored as a biofuel source.

Project description:Paulownia elongata is a fast-growing tree species native to China that is grown in different climates, types of soils, and can be easily re-grown. The versatility of the P. elongata species makes it an ideal candidate for biofuel production. High soil salinity is known to inhibit plant growth dramatically or lead to death. Salinity in soil is a detrimental abiotic stress affecting crop production worldwide and a hindrance for potential crop candidates used for biofuel production. The purpose of this study was to characterize the salt-induced transcriptome of P. elongata. Transcriptome differences in response to salt stress were determined by RNA sequencing (RNA-seq) using next generation sequencing and bioinformatics analysis. A total of 646 genes were found to have significant altered expression in response to salt stress, and expression levels of a selective subset of these genes were chosen and confirmed using quantitative real-time PCR. To the best of our knowledge, this is the first report of salt-induced transcriptome analysis in P. elongata. The current study indicates that the differential expression of certain genes may have an important role in the adaptation of P. elongata in response to salt stress. Functional characterization of these genes will assist in future development of salt tolerance in P. elongata, which could be used to enhance biofuel production.

Project description:Populus euphratica is a medium-sized deciduous tree naturally grown in high saline condition, however, the molecular response of the poplar to salinity at global genome level maintain to be elucidated. We used Affymetrix poplar genome microarrays to investigate the full transcript expression exposed to different salt intensities and identified significantly changed transcripts within the 24 hours after exposed to salt stress.

Project description:Deciduous and permanent human teeth represent a model system to study ageing of mesenchymal populations. Aging is tightly connected to self-renewal and proliferation and thus, mapping potential molecular differences in these characteristics between populations constitutes an important task. Specifically designed microarray panels were used. We have detected a number of molecules that were differentially expressed in dental pulp mesenchyme from deciduous and permanent teeth extracted from young children and adults, respectively. Among the differentially regulated genes HMGA2, a stem cell-associated marker, stood out as a remarkable example with a robust expression in deciduous pulp cells. In addition to this, we discovered that several proliferation-related genes, including CDC2A and CDK4, were up-regulated in deciduous pulp cells, while matrix genes COL1A1, fibronectin and several signaling molecules, such as VEGF, FGFr-1 and IGFr-1 were up-regulated in the pulp cells from permanent teeth. Taken together, our data suggest that deciduous pulp cells are more robust in self- renewal and proliferation, whereas adult dental pulp cells are more capable of signaling and matrix synthesis.

Project description:mango species native to India

Project description:The miRNAs expression profile of three different types of teeth include deciduous incisor (QY), deciduous canine (JY) , deciduous premolar (QMY) ,and deciduous molar (MY) in three typical stages of tooth development embryonic day 40 , 50, and 60, which cover the major morphological and physiological changes in pig tooth germ growth and development throughout pregnancy including the bud, cap, and bell stages.

Project description:The miRNAs expression profile of three different types of teeth include deciduous incisor (QY), deciduous canine (JY) , deciduous premolar (QMY) ,and deciduous molar (MY) in three typical stages of tooth development embryonic day 40 , 50, and 60, which cover the major morphological and physiological changes in pig tooth germ growth and development throughout pregnancy including the bud, cap, and bell stages. twelve-condition experiment, QY40 vs.QY50 vs.QY60 vs. JY40 vs. JY50vs. JY60 vs.QMY40 vs.QMY50 vs.QMY60 vs.MY40.vs.MY50.vs.MY60. Biological replicates: 1 , independently removed under a microscope. Four replicate per array.

Project description:An ant species native to India

Project description:The gastrointestinal (GI) epithelium is a highly regenerative tissue with the potential to provide a renewable source of insulin+ cells using cellular reprogramming. Here, we describe the antral stomach as a previously unrecognized source highly amenable to conversion into functional insulin-secreting cells. Native antral endocrine cells share a surprising degree of transcriptional similarity with pancreatic beta-cells. Expression of beta-cell reprogramming factors in vivo converts antral cells efficiently into insulin+ cells with close molecular and functional resemblance to beta-cells. Our data further indicate that the intestine-expressed Cdx2 acts as a molecular barrier for beta-cell conversion. Induced GI insulin+ cells can suppress hyperglycemia over at least 6 months and they regenerate rapidly after ablation from the native stem-cell compartment. Transplantation of bioengineered stomach mini-organs also produced insulin+ cells and suppressed hyperglycemia. These studies demonstrate the potential of developing engineered stomach tissue as a renewable source of functional beta-cells for glycemic control.