48 Quantitative Cell Biology/Biochemistry Postdoctoral research jobs at Pennsylvania State University in United States
Sort by
Refine Your Search
-
candidate contributes to data analysis, manuscript preparation, and collaborative discussions, fostering a dynamic research environment. The ideal candidate holds a Ph.D. in Molecular Biology, Biochemistry
-
-time measurements of function using 2D, M-mode, & Doppler technology, as well as data analysis. Tissue harvesting, staining and flow analysis for immune cell subsets. Perform data analysis, and finally
-
biology, or cell biology is required. This is a limited term appointment funded for one year from the date of hire. Employment will require successful completion of background check(s) in accordance with
-
. Experience in one of the following areas is preferred: mitochondrial physiology, protein biochemistry/biophysics, structural biology, ion channel electrophysiology. The Penn State College of Medicine is a
-
cell walls in regenerating protoplasts, under the supervision of Dr. Daniel Cosgrove (Biology). This is part of an interdisciplinary project supported by the Human Frontiers Science Program. Education
-
of Medicine, in Hershey, PA. The candidate should have an M.D., Ph.D. or M.D./Ph.D. degree and a strong background in molecular and cell biology with specific interest in drug discovery, autophagy, and
-
collaborative research in the field of pediatric oncology, with an emphasis on translational applications. Design and execute experiments, utilizing a variety of techniques such as molecular biology, cell culture
-
biomedical engineering, biochemistry, chemical engineering, molecular/cellular biology, or a related discipline by the start date. Preference will be given to candidates experienced in the following areas
-
, mechanics and growth of plant primary cell walls, under the supervision of Dr. Daniel Cosgrove (Biology). This is part of an interdisciplinary collaboration supported by the Center for Engineering
-
of Medicine, in Hershey, PA. We research RNA based mechanisms and metabolism in aging and neurodegeneration (e.g., amyotrophic lateral sclerosis and dementias) using Drosophila, cell-based models and patient