Project description:Sequencing of the barcodes of pooled yeast deletion collection in carbon source shifts to identify the genes affecting history dependent behavior.

Project description:Transition between fermentation and respiration determines history-dependent behavior in fluctuating carbon sources

Project description:Wairau Bar human mitochondrial genome sequences

Project description:We investigated the changes of gene expression in PHA-producing Pseudomonas putida KT2440 cultivated under elevated pressure (7 bar) and under combined elevated pressure (7 bar) and elevated dissolved oxygen tension by means of DNA microarrays. RNA samples were isolated from cells cultivated in chemostat under very well defined growth conditions (growth rate, medium, temperature, pH,...)

Project description:African Demographic History Study using Illumina 1M array data

Project description:African Demographic History Study using Illumina 1M array data

Project description:Pneumococcal meningitis outbreak in BAR Ghana 2016

Project description:DNA bar coding of Scottish Barn Owls

Project description:Bialaphos resistance (BAR) and phosphinothricin acetyltransferase (PAT) genes, which convey resistance to the broad-spectrum herbicide phosphinothricin (also known as glufosinate) via N-acetylation, have been globally used in basic plant research and genetically engineered crops. Although early in vitro enzyme assays showed that recombinant BAR and PAT exhibit substrate preference toward phosphinothricin over the 20 proteinogenic amino acids, indirect effects of BAR-containing transgenes in planta, including modified amino acid levels, have been seen but without the identification of their direct causes. Combining metabolomics, plant genetics, and biochemical approaches, we show that transgenic BAR indeed converts two plant endogenous amino acids, aminoadipate and tryptophan, to their respective N-acetylated products in several plant species examined. We report the crystal structures of BAR, and further delineate structural basis for its substrate selectivity and catalytic mechanism. Through structure-guided protein engineering, we generated several BAR variants that display significantly reduced nonspecific activities compared to its wild-type counterpart in vivo. Our results demonstrate that transgenic expression of enzymes can result in unintended off-target metabolism arising from enzyme promiscuity. Understanding of such phenomena at the mechanistic level can facilitate the design of maximally insulated systems featuring heterologously expressed enzymes.

Project description:Just as animal monozygotic twins can experience different environmental conditions by being reared apart, individual genetically-identical trees of the genus Populus can also be exposed to contrasting environmental conditions by being grown in different locations. As such, clonally-propagated Populus trees provide an opportunity to interrogate the impact of individual environmental history on current response to environmental stimuli. To test the hypothesis that current responses to an environmental stimulus, drought, are contingent on environmental history, the transcriptome-level drought responses of three economically important hybrid genotypes: DN34 (Populus deltoides x P. nigra); Walker (P. deltoides var. occidentalis x (P. laurifolia x P. nigra)); and, Okanese (‘Walker’ x (P. laurifolia x P. nigra)) derived from two different locations were compared. Strikingly, differences in transcript abundance patterns in response to drought were based on differences in geographic origin of clones for two of the three genotypes. This observation was most pronounced for the genotypes with the longest time since establishment and last common propagation. Differences in genome-wide DNA methylation paralleled the transcriptome level trends, where the clones with the most divergent transcriptomes and clone history had the most marked differences in the extent of total DNA methylation, suggesting an epigenetic basis for the clone-history-dependent transcriptome divergence. The data provide insights into the interplay between genotype and environment in the ecologically and economically important Populus genus, with implications for both the industrial application of Populus trees, and the evolution and persistence of these important tree species. 72 arrays total. 2 time points. 2 water regimes. 3 biological replicates per treatment