Project description:We compared gene expression profiles between anciently and recently established populations of two major invading species, the black rat Rattus rattus and the house mouse Mus musculus musculus, in Senegal. Transcriptome analyses revealed respectively 364 and 83 differentially expressed genes along the mouse and rat invasion routes. Among them, 10 and 15% were annotated with functions related to immunity. All immune-related genes detected along the mouse invasion route were over-expressed at the invasion front. Genes of the complement activation pathway were over-represented. Results were less straightforward when considering the black rat. No particular immune pathway was over-represented. In conclusion, we revealed changes in transcriptomic profiles along invasion routes. Patterns differed between invaders. They could potentially be driven by increased infection risks at invasion front for the house mouse and trade-offs between immune responses for the black rat. Our results provide a first step in identifying the immune ecoevolutionary processes potentially involved in invasion success.

Project description:Urine proteomes of the house mouse (wild-derived Mus musculus, C57BL/6, BALB/c).

Project description:Urine proteomes of the house mouse (Mus musculus musculus, M. m. domesticus, M. m. castaneus).

Project description:Rattus norvegicus (Norway rat) genome assembly, mRatBN7

Project description:In this study we identify molecules with highly restricted expression patterns during the initial stages of metanephric development, when the ureteric bud has entered the metanephric mesenchyme and initiated branching morphogenesis. Using the Affymetrix Mouse Genome 430 2.0 Array, we compare gene expression patterns in ureteric bud tips, stalks and metanephric mesenchymes from mouse E12.5 embryos. To identify conserved molecular pathways, we also analyze transcriptional profiles in rat E13.5 ureteric buds and metanephric mesenchymes using the Affymetrix Rat Genome U34 Set. Taken together, these data sets help to identify conserved and highly localized transcripts in the metanephric kidney. Keywords = Mus musculus Keywords = Rattus norvegicus Keywords = metanephric mesenchyme Keywords = ureteric bud Keywords = ureteric bud tips Keywords = ureteric bud stalks Keywords = molecular screen for spatially restricted transcripts Keywords: other

Project description:Urinary tract-associated lymphoid structures (UTLASs), tertiary lymphoid tissues, are formed in renal pelvis (RP) of humans and mice with chronic kidney disease. We found that UTALS development was accelerated by urine leakage from RP lumen to the parenchyma following dysfunction of transitional epithelium covering UTLASs. Thus, UTALS-forming cells were stimulated by urine including urinary bio active substances.

Project description:Chemical communication in mammals is in part mediated through the deposition of scent marks in the environment. Volatile and non-volatile moleculesin the scent marksconvey important information about the donor animal, such as sex, social and reproductive status,and stimulatea response in the receptor animal. In rodents, most of the work about deciphering the molecular composition of scent markshas been focused on mice. In rats, by contrast, knowledge is limitedand the molecular complexity of scent marks is not as well described as in mice. In particular, the sources and roles of proteins in scent marks are largely undefined, with even less knowledge when we consider female rats. We therefore conducted a global proteomic analysis of scent marks from femalerats (Rattus norvegicus)to define the protein composition and then we investigated the role of scent marks in sexual communication. Our study revealed that protein pattern inscent marks greatly differsfrom that in naturally voided urine, indicatinga different tissue of41origin. In particular, female scent marks are dominated by lipocalins, notablymajor urinary proteins, whereas urinary output of these proteins is almost imperceptible.Further analysis revealed that the most plausible source of the components in scent marks are the clitoral glands,implying a critical role of theseaccessory glands in sexual communication in the rat.

Project description:We present the de novo transcriptome sequencing, analysis and microarray development for a vertebrate herbivore, the woodrat (Neotoma spp.). This genus is of ecological and evolutionary interest, especially with respect to ingestion and hepatic metabolism of potentially toxic plant secondary compounds. We generated a liver transcriptome of the desert woodrat (Neotoma lepida) with the Roche 454 platform. The assembled contigs were well annotated using rodent references (99.7% annotation), and biotransformation function was reflected in the gene ontology. The transcriptome was used to develop a custom microarray (eArray, Agilent). To compare the effect of native diet/habitat and phylogenetic similarity, we performed 3 experiments with the Neotoma probes only: one across species with similar habitat niches (N. lepida versus N. bryanti, Palm Springs), one across species with different habitat niches (N. lepida versus N. bryanti, Caspers Wilderness), and one across populations within a species (N. bryant Palm Springs versus Caspers Wilderness). The resulting one-color arrays had high technical and biological quality. Probes designed from the woodrat transcriptome performed significantly better than functionally similar probes from the Norway rat (Rattus norvegicus). Biotransformation processes and functions were highly represented in the results. Comparisons between ecologically similar woodrat species revealed fewer gene expression differences than ecologically different woodrat species. The conspecific comparison had overall fewest differences.

Project description:Urine passes through the entire kidney and urinary tract system starting from the glomerulus and ending to the urethra. Cells in the kidney and urinary tract could be exfoliated from the epithelium into the urine, while leukocyte could infiltrate from the local tissue into the urine, which makes the urine a useful subject for clinical evaluation of relevant diseases. We performed scRNA-seq on voided urine samples. 50–100 mL middle stream urine samples were collected from 12 Chinese healthy adults and combined for droplet-based single-cell RNA sequencing after flow cytometric sorting of live cells. We presented the first single-cell atlas of adult human urine and identified multiple previously unrecognized cell types. Based on our scRNA-seq analysis data, a SOX9+ cell population was identified in adult human urine which we speculated to have progenitor potential.

Project description:Rattus norvegicus (Norway rat) principal haplotype genome assembly, mRatBN7