Project description:Invasive species monitoring program in harbours in north western region of Vastra Gotaland, Sweden 2024 using COI-Leray-XT primers

Project description:Monitoring of non-indigenous species in Sweden 2023

Project description:Monitoring of non-indigenous species in Sweden 2024

Project description:Autonomous Reef Monitoring Structures (ARMS) in Sweden

Project description:Longitudinal monitoring of liver function in vivo is hindered by the lack of high-resolution non-invasive imaging techniques. Using the anterior chamber of the mouse eye as a transplantation site, we have established a platform for longitudinal in vivo imaging of liver spheroids at cellular resolution. Transplanted liver spheroids engraft on the iris, become vascularized and innervated, retain hepatocyte-specific and liver-like features and can be studied by in vivo confocal microscopy. Employing fluorescent probes administered intravenously or spheroids formed from reporter mice, we showcase potential use of this platform exemplified by monitoring hepatocyte cell cycle activity, bile secretion and lipoprotein uptake. Moreover, we show that hepatic lipid accumulation during diet-induced hepatosteatosis is mirrored in intraocular grafts in vivo. The here described technology will provide a crucial tool to study liver physiology and disease progression in both pre-clinical and basic research as well as a drug screening platform in the pharma industry.

Project description:Rational biomarker development for the early and minimally invasive monitoring of AML

Project description:Distribution of invasive cryptic Sinanodonta species

Project description:We conducted field surveys to detect the population density of the most important invasive weed species and their associated virus vectoring aphids in crops grown under high input (HIF) vs low-input (LIF) field conditions, with and without fertilizers and pesticides. The most frequent invasive weed species were Stenactis annua, Erigeron canadensis and Solidago canadensis. These species were hosts predominantly for the aphids Brachycaudus helichrysi and Aulacorthum solani in both management systems. The 13% higher coverage of S. annua under LIF conditions resulted in a 30% higher B. helichrysi abundance and ~85% higher A. solani abundance compared with HIF conditions. To reveal virus infection in crop plants and invasive weeds high-throughput sequencing of small RNAs were carried out. Bioinformatics analysis of the results detected the presence of 16 important plant viruses, but not resulting strikingly different pattern under LIF and HIF. This could suggest that invasive weeds serves as a virus reservoir both under low and high input management systems. The lake of any management increases virus vector aphids abundances, their presence has a great impact on the viromes of the crops.

Project description:Comparative genome hybridizations of 27 Bartonella grahamii strains from Sweden

Project description:[original Title] Transcriptomic responses to heat-stress in invasive and native blue mussels (genus Mytilus): molecular correlates of invasive success. Invasive species are increasingly prevalent in marine ecosystems worldwide. Although many studies have examined the ecological effects of invasives, little is known about physiological mechanisms that might contribute to invasive success. The mussel Mytilus galloprovincialis, a native of the Mediterranean Sea, is a successful invader on the central and southern coasts of California, where it has largely displaced the native congener, Mytilus trossulus. It has been previously shown that thermal responses of several physiological traits may underlie the capacity of M. galloprovincialis to out-compete M. trossulus in warm habitats. To elucidate possible differences in stress-induced gene expression between these congeners, we developed an oligonucleotide microarray with 8,874 probes representing 4,488 different genes that recognized mRNAs of both species. In acute heat-stress experiments, 1,531 of these genes showed temperature-dependent changes in gene expression that were highly similar in the two congeners. In contrast, 96 genes showed species-specific responses to heat-stress, functionally characterized by their involvement in oxidative stress, proteolysis, energy metabolism, ion transport, cell signaling, and cytoskeletal reorganization. The gene that showed the biggest difference between the species was the gene for the molecular chaperone small heat shock protein 24, which was highly induced in M. galloprovincialis and showed only a small change in M. trossulus. These different responses to acute heat-stress may help to explain—and predict—the invasive success of M. galloprovincialis in a warming world.