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implementation of molecular markers in plant material. Documented experience in laboratory work, including planning and conducting research based on PCR and qPCR techniques, as well as DNA sequencing using DArTseq
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seeks a laboratory technician for studies in molecular microbial ecology. Subject area for the position: Molecular microbial ecology Location until further notice: Kalmar. Hours: The employment is
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daily maintenance. • Work independently to design and execute experiments and maintain hard-copy and electronic laboratory records. • Compile and analyze data. • Generate and maintain appropriate
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analysis, developing methodologies for association analysis and applying graph-based methods to study microbial interactions at cellular and molecular level. You will closely collaborate with microbial
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related to campus safety. Go here to review: https://safety.temple.edu/reports-logs/annual-security-report You may request a copy of the report by calling Temple University’s Department of Public Safety
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International Review of Cell and Molecular Biology (Elsevier, 2018; https://linkinghub.elsevier.com/retrieve/pii/S1937644817300825)vol. 335, pp. 41–84. The molecular basis of cell self-renewal and pluripotency in
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materials using statistical mechanics, molecular simulations, and machine learning. Expectations Candidates will be responsible for: Developing multi-scale modeling methods for polymeric materials, using
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Organic glasses offer tunable optical properties, flexibility, and low weight — making them vital in optoelectronics and pharmaceuticals. Yet accurately simulating their dynamics, particularly the molecular
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candidate will use protein biochemistry, AI-guided protein design and molecular dynamics simulations to characterize natural and designed proteoforms of a novel regulatory node in barley temperature
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receptors (GPCRs) using molecular dynamics simulations. The project will involve the application of standard and enhanced sampling techniques (including coarse-grained simulations) to: Characterize GPCR