Project description:Genome profiling of primary tumors and matched metastases from a BALB-NeuT murine breast cancer transplantation model. The first goal of this study was to investigate the differences of primary tumors and metastases with regard to copy number alterations. The second goal was to infer phylogenetic trees reflecting the evolutionary paths of primary tumors and their derived metastases (only mice with at least one metastasis were used for phylogenetic analyses).
Project description:Here we studied Vanessa cardui, the species with the widest diet breadth among butterflies and a potential insect pest, by comparing tissue-specific transcriptomes from caterpillars that were fed six different host plants. We tested whether the similarities of gene-expression response reflect the evolutionary history of adaptation to these plants in the Vanessa and related genera, against the null hypothesis of transcriptional profiles reflecting plant phylogenetic relatedness. Science for Life Laboratory (SciLifeLab, Sweden) conducted the sequencing of RNA samples. The cDNA libraries (Illumina TruSeq RNA) were sequenced using the Illumina HiSeq 2000 platform using 100-bp paired-end sequencing. We obtained more than 9 million read-pairs from seventy one cDNA libraries sequenced and the transcriptome assembly (TA) of these sequences resulted in 213, 237 transcripts (162,189 components) with a contig N50 of 2,193 bp. Thus, we covered approximately 300x the transcriptome of caterpillars of the species V. cardui.
Project description:Ancient skeletal proteomes are increasingly utilised for phylogenetic and evolutionary analysis. These proteomes are, however, often small and with low sequence coverage. We expand on previous observations which have shown that parallel digestion of Pleistocene skeletal proteomes increases proteome size and protein sequence coverage. Furthermore, we demonstrate that the consecutive digestion of a skeletal proteome using two proteases, particularly Glu-C or chymotrypsin followed by trypsin digestion, enables the recovery of alternative proteome components not reachable through trypsin digestion alone. The sequential utilisation of several proteases is a promising avenue for the study of highly degraded ancient proteomes for phylogenetic purposes.
Project description:We examined 36 biopsies taken from digital dermatitis lesions of Holstein cows. The target was the V3 -V4 variable region of 16S rRNA using Treponema specific primers. We identified 20 different taxa of Treponema using this approach. Phylogenetic study of the Treponema taxa found in digital dermatitis lesions of Holstein cows.
