80 high-performance-quantum-computing Postdoctoral positions at University of Minnesota
Sort by
Refine Your Search
-
between neuromodulation and fMRI. The postdoc will work on the network level perturbation of neurocircuits using high-definition neuromodulation. This postdoc will lead scientific discovery in developing
-
regulation during T cell contraction and resolution of inflammation • Perform high-dimensional flow cytometry for immune phenotyping and apoptosis/efferocytosis analysis • Use molecular and cellular tools (e.g
-
, performing, analyzing, and writing up to report for publication behavioral neuroscience experiments addressing questions of decision-making in rodents Qualifications Required Qualifications: PhD in
-
should be open to learning new techniques and have a strong interest in using next-generation sequencing-based techniques to study virus-host interactions. Specifically, Individuals will perform epigenetic
-
for the development of new targeted cancer therapeutic approaches. Research technicians are responsible for performing standard bench-level laboratory experiments in support of scientific research. Responsibilities
-
to: Understand basic principles of brain functioning across development (i.e. figure out how the brain works) Learn about how neuropsychiatric and other brain-based disorders develop and progress over time
-
on the development of Bayesian statistical/machine learning methods for the data integration analysis of high-throughput imaging and molecular data (i.e., genome, transcriptome, epigenome, and more). The methods would
-
development. Publish research findings in high-impact peer-reviewed journals and present at scientific conferences. Gain experience writing and submitting grants for institutions such as the National Institutes
-
statistical analyses, bioinformatics, command-line programming, and high performance computing clusters. Willingness and ability to occasionally work weekend hours due to study organism life cycles(<5% time
-
protein function. Maintenance of membrane bilayer integrity and tight control over material transfer across cellular and organellar membranes is central to proper physiological functioning. Dysfunction