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description DNA is a dynamic molecule, transiently exposing regions that can be selectively targeted by tailored synthetic analogues. This project explores such opportunities using peptide nucleic acids (PNAs
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structure dynamically regulated? How does gene expression depend on the gene’s position within the cell? How does chromosome architecture change when the genome undergoes sequence alterations? Duties As a
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controls. Experience in working with Bacillus subtilis including cloning and strain construction, strong bioinformatics skills, and a proven track record of molecular and cell biology studies, preferably
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diodes (LEDs). A critical challenge in this field pertains to understanding the nature and role of atomic-scale (local) structure and dynamics, which underlie the photophysical properties
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and refined our pioneering AI-driven methods. This project focuses on improving protein structure prediction, design, quality assessment, and dynamics using innovative machine learning techniques. You
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investigating the cellular and molecular mechanisms that form and regulate tertiary lymphoid structures in inflammatory diseases and cancer. The successful candidate will join a growing collaborative research
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of Gothenburg and Chalmers . We provides a strong and dynamic environment where research, education, and societal collaboration meet. Mathematical sciences investigate the fundamental concepts and laws
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original research in the area of AI-based program construction or performance engineering, co-supervise one or more doctoral students, teach in the first- and second-cycle software engineering programs
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surfactant structures and their properties. About the research project In this project, you will design and synthesize new biobased surfactants using renewable building blocks and study their surface-active
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for a highly motivated postdoc to join the Astronomy and Plasma Physics division at the Department of Space, Earth and Environment. You will become part of a dynamic research team exploring the structure