Project description:Premetamorphic Xenopus laevis tadpoles limbs develop in response to thyroid hormone by proliferation and subsequent differentiation. We have previously reported that inhibiting the thyroid hormone action using a dominant negative receptor in limbs of developing tadpoles inhibits its growth and the tadpole limb has almost no muscle. The goal of this experiment is to study the role of thyroid hormone in the maintenance of limb muscle using transgenic tadpoles carrying a doxycyline inducible dominant negative thyroid receptor transgene expressed exclusively in the muscle using a muscle specific promoter and identify the genes involved in the degenerative process . F1 progeny of transgenic Xenopus frogs and their nontransgenic siblings (at stages NF55 and NF66) were treated with 50µg doxycycline hyclate in 0.1 X MMR solution for 2 weeks or 6 weeks to induce the over-expression of the transgene. Limbs from the tadpoles were dissected at the end of the experiment. Keywords: development or differentiation design,reference design,replicate design,time series design

Project description:Strains responsible for false positives or false negative food testing results

Project description:Tadpoles of the anuran species Rana pirica can undergo predator-specific morphological responses. Exposure to a predation threat by larvae of the salamander Hynobius retardatus results in formation of a bulgy body (bulgy morph) with a higher tail. The objective of the present study was to use Affymetrix Xenopus Genechip to profile gene expression in the tail tissue by different predation threat. Tadpoles of Rana pirica treated with larvae salamander for 8days (brainS1, brainS2, brainS3) were analyzed with triplicate. Controls were cultured for 8days without larvae salamander (brainC1,brainC2,brainC3,brainC4,brainC5,brainC6). Brains from tadpoles after 8days of each treatment were dissected for RNA extraction and gene expression analysis using Affymetrix Xenopus Genechip arrays.

Project description:Tadpoles of the anuran species Rana pirica can undergo predator-specific morphological responses. Exposure to a predation threat by larvae of the salamander Hynobius retardatus results in formation of a bulgy body (bulgy morph) with a higher tail. Whereas, dragon fly also induced higher tail tadpole. The tadpoles revert to a normal phenotype upon removal of the larval salamander or dragon fly threat. The objective of the present study was to use Affymetrix Xenopus Genechip to profile gene expression in the tail tissue by different predation threat. Tadpoles of Rana pirica treated with larvae salamander for 8days (S1, S2, S3) or dragon fly for 8days (Y1,Y2, Y3) were analyzed with triplicate. Removal experiments were also treated with predators for 4days and then removed predators from tadpoles (-S1,-S2, -S3) or (-Y1,-Y2,-Y3). Controls were cultured for 8days without predators (C2, C3). Tails from tadpoles after 8days of each treatment were dissected for RNA extraction and gene expression analysis using Affymetrix Xenopus Genechip arrays.

Project description:Tumors were harvested at day 24 post tumor cell engraftment and dissociated into single-cell suspensions. RFP-positive 4T1 cells were isolated by fluorescence-activated cell sorting (FACS). RNA was extracted using the RNeasy Mini Kit. Three independent RNA preparations from cultured 4T1-Luc2-RFP cells and FACS-isolated 4T1-Luc2-RFP cells were submitted for RNA sequencing analysis.

Project description:Epimorphic regeneration is the process by which complete regeneration of a complex structure such as a limb occurs through production of a proliferating blastema. This type of regeneration is rare among vertebrates but does occur in the African clawed frog Xenopus laevis, traditionally a model organism for the study of early development. Xenopus tadpoles can regenerate tails, limb buds and the lens of the eye, although the ability of the latter two organs to regenerate diminishes with advancing developmental stage. Using a heat shock inducible transgene that remains silent unless activated, we have established a stable line of transgenic Xenopus in which the BMP inhibitor Noggin can be over-expressed at any time during development. We have previously shown that activation of this transgene blocks regeneration of the tail and limb of Xenopus tadpoles. In the current study, we have taken advantage of this transgenic line to directly compare gene expression in same stage regenerating vs. non-regenerating hind limb buds. Using Affymetrix gene chip analysis, we have identified genes whose expression levels are linked to regenerative success. These include the BMP inhibitor Gremlin and the stress protein Hsp60 (no blastema in zebrafish). Analysis of overrepresented Gene Ontology functional groupings suggests that successful regeneration in the Xenopus hind limb depends on induction of stress response pathways. Furthermore, as expected, genes involved in embryonic development and growth are also significantly over-represented in regenerating early hind limb buds. Keywords: Differential expression, regeneration

Project description:Premetamorphic Xenopus laevis tadpole tail respond to thyroid hormone by resorption. The goal of this experiment is to identify the genes involved in the TH-induced resorption tadpole tail and compare it to TH-induced proliferation and differentiation program in tadpole limb and brain. Xenopus tadpoles (NF54) were treated with 100 nM T3(triioodthyronine) in 0.1 x MMR for another 24h and 48h or without T3 for 48h (control group). NF 61 tadpoles were in 0.1 X MMR till they reached NF stage 62. The tails were dissected after the experiment.

Project description:The tails of stage NF50 Xenopus tropicalis tadpoles were amputated and samples were collected at 0 and 3 days post amputation. 10 spinal cords were isolated for each time point. After cell dissociation, single cell RNAseq was performed using 10X Genomics platform

Project description:Changes in gene expression in the preoptic area/hypothalamus/thalamus of Xenopus tropicalis tadpoles were analyzed using RNAseq at four stages of metamorphosis.

Project description:Xenopus laevis tadpoles display a decreasing capacity to regenerate their limbs following injury according to developmental stage. By comparing the regenerative response during the naturally occurring regeneration-competent, -restricted and -incompetent stages, scRNAseq can reveal cell type changes that are required for successful regeneration.