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09 PhD Degree-Fully Funded at Stockholm University, Sweden

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Stockholm University, Sweden invites online Application for number of  Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at Stockholm University, Sweden.

Eligible candidate may Apply as soon as possible.

 

(01) PhD Degree – Fully Funded

PhD position summary/title: PhD student in Environmental Science, the Chemical exposome and links to Health effects in pet animals

The concept of One Health highlights the interconnectedness of human, animal, and environmental health. Pet animals have proven to be valuable sentinels and predictors for various diseases that are also relevant to humans. This correlation is partly due to the shared home environment, which results in similar chemical exposures for both pets and their owners. Studying pet animals offers several advantages: Within breeds, pet animals exhibit low genetic variability, making it easier to control for genetic factors in health studies. Pets reach reproductive maturity relatively quickly, allowing for faster generation of study data. Samples and data from pets are often readily available through routine veterinary check-ups, facilitating ongoing research.

Endocrine diseases, such as thyroid disorders, diabetes mellitus, obesity, and reproductive impairments, which are prevalent in humans, are also increasingly reported in pet animals. By establishing pet animals as significant models for endocrine health studies, researchers can minimize the use of experimental animals, adhering to the 3R principles: replace, reduce, and refine the use of animals in research. Thus, pet animals not only provide early warning signs for human diseases but also offer a viable and ethical alternative for studying these conditions, enhancing our understanding while promoting animal welfare.

In this project, much effort will be on the establishment of multi-target analytical method(s) for biological samples to establish the chemical exposome of pet animals. Research will include optimization of sample preparation steps, and the development of data processing strategies using open science tools for identification of unknown molecules in complex samples, with emphasis on quality control at all stages. Complementary GC and LC-Orbitrap technology, available at ScilifeLab in the Exposomics group will be utilized. The chemical exposome will be linked to the health status and biomarkers of the pet animals to establish associations.

Deadline : 15.Aug.2024

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(02) PhD Degree – Fully Funded

PhD position summary/title: PhD student in Data Driven Evolution and Biodiversity: Plant Extinction

The Department of Ecology, Environment and Plant Sciences invites applications for a four-year, fully funded PhD position in Data-Driven Evolution and Biodiversity.

Data Driven Evolution and Biodiversity concerns research that takes advantage of the massive data streams offered by techniques such as high-throughput sequencing of genomes and biomes, continuous recording of video and audio in the wild, high-throughput imaging of biological specimens, and large-scale remote monitoring of organisms or habitats.

The PhD project in Data-Driven Evolution and Biodiversity is part of the project ‘New probabilistic and AI methods for inferring recent and ongoing plant extinctions’. The student will develop new quantitative methods for extinction assessments and apply them to digitised herbarium data and information on species’ traits, distributions and threats to accelerate and improve estimates of plant extinction. The student will be trained in Red List assessments, probabilistic modelling, machine learning and computational approaches in biodiversity science. The student will be will be supervised by Aelys Humphreys (Stockholm University) and work closely with an international team of collaborators associated with the project: Daniele Silvestro (University of Fribourg), Diana Fisher (University of Queensland), Alexandre Antonelli (Royal Botanic Gardens, Kew and Gothenburg University) and Jon Norberg (Stockholm University).

Deadline : 31/07/2024

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(03) PhD Degree – Fully Funded

PhD position summary/title: PhD student in Molecular Biosciences

This PhD student position is available in the laboratory headed by Professor Martin Jastroch.The project addresses molecular mechanisms coupled to energy metabolism, in particular related to obesity, metabolic diseaes or evolution. We use animal (mice, zebrafish, opossums) and cellular (adipocytes) models to understand the underlying mechanisms in the development of metabolic function and dysfunction, assessed with mouse metabolic phenotyping, bioenergetic and molecular analyses.

Deadline : 10/07/2024

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(04) PhD Degree – Fully Funded

PhD position summary/title: PhD student in Molecular Biosciences

This PhD student position is available in the laboratory headed by Associate Professor Qiaolin Deng.The project addresses molecular mechanisms coupled to reveal human placental development in disease, and developmental programming effects mediated by the placenta. Disease-derived human trophoblast organoids will be established and further developed to incorporate multiple cell types. More importantly, microfluidic co-culture of placental organoids with metabolic tissue organoids (i.e. liver, heart, brain) will be established to investigate developmental programming effects in human. 

Deadline : 10/07/2024

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(05) PhD Degree – Fully Funded

PhD position summary/title: PhD student in Molecular Biosciences

This PhD student position is available in the laboratory headed by Associate Professor Christian Riedel. The project is supported by funding from the Swedish Cancer Society (Cancerfonden) and explores one of the hallmarks of aging and cancer – genome instability. Specifically, you will follow exciting new mechanistic leads on how genome instability may promote cancer through cell-non-autonomous effects.

The project relies on single-cell transcriptomics, microscopy, and variety of genetic, molecular biology, and biochemical techniques. The work takes place in the model organism C. elegans and in human cell culture.

Deadline : 10/07/2024

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(06) PhD Degree – Fully Funded

PhD position summary/title: PhD student in AI for Drug development

This PhD student position is available in the laboratory headed by Dr. Patrick Bryant. The project addresses the creation of new AI tools for the evaluation and design of molecular interactions. The project will specifically be related to the 3D structure of proteins and other molecules such as pharmaceuticals and the prediction of interactions between these.

A strong programming ability is essential. Please share your git in the application. There will be a strong focus on developing machine learning tools and novel molecular representations. The tools developed will be tested rigorously through laboratory analyses to create new classes of pharmaceuticals and/or repurposing known drugs.

The spoken language in the lab and department is English, and the department offers a multicultural experience with scientists from all over the world. This position will take place at the Science for Life Laboratory in collaboration with MBW and SU.

Deadline : 10/07/2024

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(07) PhD Degree – Fully Funded

PhD position summary/title: PhD student in Molecular Biosciences

This doctoral student position is available in the laboratory of Associate Professor Claes Andréasson. The research focus is to understand the mechanisms that cells employ to maintain their proteomes folded and functional, a critical feature that is linked to aging, neurodegeneratition and cancer biology. The project revolves around proteostasis mechanisms of protein quality control and stress signaling. Specifically, the project focuses on elucidating how cells ensure the faithful production of one of the most well-expressed cellular proteins, the translation elongation factor eEF1A, using a recently discovered multichaperone pathway that is genetically linked to neurodegeneration.

The project relies on protein biochemistry, human cell culture and the model organism budding yeast (Saccharomyces cerevisiae) and relevant methods from molecular biology, microbiology, genetics, cell biology and biochemistry.

Deadline : 10/07/2024

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(08) PhD Degree – Fully Funded

PhD position summary/title: PhD student in Molecular Biosciences

This doctoral student position is available in the laboratory headed by Associate Professor Qi Dai. We use the combination of molecular, genetic and genomic approaches to gain mechanistic insights into how cell fates are specified. This particular project aims to uncover novel mechanisms on the spatial-temporal regulation of neural stem cells  in the developing mouse brain. The experimental approaches involve ex vivo and in vivo genetic methods in combination with advanced genomic profiling techniques. Candidates with strong background at molecular genetics, developmental biology and biochemistry are welcome to apply.

Deadline : 10/07/2024

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(09) PhD Degree – Fully Funded

PhD position summary/title: PhD student in Geochemistry and Petrology focusing on novel Carbon Dioxide Removal technologies

According to the Intergovernmental Panel for Climate Change (IPCC, 2022), mitigation pathways that offer a 50% chance of limiting end-of-century global warming to 1.5°C rely partly on removal of as much as 1090 billion tons of carbon dioxide from the atmosphere by novel Carbon Dioxide Removal (CDR) technologies. Currently, 0.002 billion tons of carbon dioxide are removed annually from the atmosphere by such technologies. In other words, novel CDR technologies need to be upscaled by as much as a factor of 5000 from present-day levels. Novel CDR technologies involve storing carbon in rocks, of which mafic volcanic rocks (basalts) are of particular interest because carbon storage has been shown to occur by rapid mineralization (Matter et al., 2016). However, most basalts occur beneath the ocean floor, which is unsuitable for storing carbon for practical reasons. Occasionally, rocks of basaltic composition are found on continents. These were brought there (obducted) during mountain building. Typically, obduction is accompanied by metamorphism, a process which transforms basalt into a suite of rocks (metabasalts) that have the same composition as basalt but are made of different minerals. The global potential of metabasalts for CDR is not well established. This four-year project focuses on testing the hypothesis that metabasalts are suitable for CDR by mineralization. The hypothesis will be tested by performing flow through experiments on metabasalts that were formed at different pressures and temperatures. Training will be offered in fieldwork, petrology, experimental and analytical geochemistry and geochemical modelling. The successful applicant will join a team of petrologists and geochemists working on CDR at Stockholm University and Luleå Technical University.

Deadline : 07/07/2024

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About Stockholm University, Sweden – Official Website

Stockholm University  is a public university in Stockholm, Sweden, founded as a college in 1878, with university status since 1960. With over 33,000 students at four different faculties: law, humanities, social sciences, and natural sciences, it is one of the largest universities in Scandinavia. The institution is regarded as one of the top 100 universities in the world by the Academic Ranking of World Universities (ARWU).

Stockholm University was granted university status in 1960, making it the fourth oldest Swedish university. As with other public universities in Sweden, Stockholm University’s mission includes teaching and research anchored in society at large.

 

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