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structural analysis, this work will uncover how modular domains acquire distinct interaction repertoires and how network rewiring emerges within protein families. Where to apply Website https://www.edsvs
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exploration of protein interaction networks. Where to apply Website https://www.edsvs-univcotedazur.fr/ Requirements Research FieldBiological sciencesEducation LevelMaster Degree or equivalent Additional
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on electron and proton transfer mechanisms in bacterial respiratory membrane proteins, with particular emphasis on oxygen reduction and the role of quinones. The PhD candidate will combine bioelectrochemistry
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that have brought new therapeutic strategies to patients. Further information can be found on our website http://www.ucl.ac.uk/pharmacy/ The Division is housed in an iconic, dedicated building in Brunswick
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the laboratory of Dr. Tai-Yen Chen. The Researcher will contribute to an active research program focused on single-molecule biophysics, super-resolution microscopy, quantitative analysis of membrane protein
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Doctoral Scholar to join the Department of Chemistry and Biochemistry at The Ohio State University studying protein structure, dynamics and interactions by advanced spectroscopy, microscopy and complementary
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doctoral student to join our research group in de novo protein design. The position is funded by a Novo Nordisk Foundation Ascending Investigator grant and focuses on developing next-generation protein-based
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Posting Number R260058 Posting Link https://www.ubjobs.buffalo.edu/postings/61964 Employer Research Foundation Position Type RF Professional Job Type Full-Time Appointment Term Salary Grade E.89 Posting
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The University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 7 days ago
: 265566 Vacancy ID: PDS003971 Position Summary/Description: The Miao Lab in the Computational Medicine Program and Department of Pharmacology at the University of North Carolina – Chapel Hill (https
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, including genome engineering of human embryonic stem cells, fluorescent protein tagging strategies, clone validation, super-resolution microscopy, and cell-based biophysical studies of metal homeostasis