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. The ideal applicant will be eager to engage in a dynamic, cross-border doctoral programme, spending significant periods of study and research in both Poland and the Netherlands. We seek an individual who
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of interest include (but not limited to) molecular mechanisms and nonequilibrium thermodynamics in living systems responsible for important regulatory functions such as signal transduction, molecular motor
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networks and nonequilibrium thermodynamics of living systems. Current areas of interest include (but not limited to) molecular mechanisms and nonequilibrium thermodynamics in living systems responsible
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for additional job details https://career.iimcb.gov.pl/ Work Location(s) Number of offers available1Company/InstituteInternational Institute of Molecular and Cell Biology in WarsawCountryPolandCityWarsawPostal
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written English. Preference will be given to candidates with an affinity for theoretical work and experience in working with molecular dynamics simulations. Where to apply E-mail natjecaji.pisarnica@irb.hr
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functional inversion. Additional applications are possible on quasi-exact nonadiabatic nuclear dynamics simulations using tensor network states (ML-MCTDH) of vibronic coupling models. Of particular interest
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 2 months ago
including molecular dynamics simulations, protein design, data visualization, and analytical techniques including optical spectroscopy and microscopy techniques, including fluorescence microscopy (e.g
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Policy The role The successful candidate will join the Mitochondrial Dynamics Group. They will gain research experience by investigating fundamental aspects of mitochondrial biology, with particular
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Job Purpose You will contribute to an international collaborative project entitled “Multi-scale infection dynamics from cells to landscapes: FMD in African buffalo”, working with Prof Roman Biek
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-regulatory elements typically reduce translation of the primary coding sequence, whereas proteoforms are different protein isoforms translated from the same gene. This project aims to enhance both molecular