14 molecular-modeling-or-molecular-dynamic-simulation Postdoctoral research jobs at Indiana University in United States
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Posting Details Position Details Title Postdoctoral Researcher Position in the Department of Biochemistry and Molecular Biology in Dr. Charlie Dong's lab Specific Title Appointment Type Postdoctoral
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candidate will use ice-flow modeling and ice-penetrating radar to investigate the dynamics of the ice sheets. The candidate will have the flexibility to help determine the project’s objectives, methods, and
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of biological questions and experimental systems – from ecosystems to microbiology and developmental biology, from evolution to cell biology, from molecular biology to systems biology, bioinformatics, and
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proteomic techniques as well as human stem cell models. The candidate must be comfortable with advanced molecular biology techniques and bioinformatics. We are seeking a self-directed, self-motivated, curious
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, physical chemistry, materials chemistry, and biochemistry. The Thielges lab at Indiana University is seeking to hire a Postdoctoral Scholar with a strong interest in the molecular biophysics of protein
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changes in microgravity conditions. d. Ability to perform cell culture and tissue models such as 3D tissue models and microfluidic systems to simulate microgravity. e. Understanding and experience with
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by time of appointment. The proposed research will leverage multiple computational many-body techniques (including classical and quantum Monte Carlo, molecular dynamics, and ab initio methods) and
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, physical chemistry, materials chemistry, and biochemistry. Job Summary: The Thielges lab at Indiana University is seeking to hire a Postdoctoral Scholar with a strong interest in the molecular biophysics
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Interest in analyzing biomedical/clinical/genomics datasets using computational approaches such as longitudinal analysis, mixed-effect modeling, regression, and AI/machine learning in large-scale electronic
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related dementias. Project Overview Leveraging newly developed brain organoid models, this project will: Utilize human iPSC lines from AD patients to develop multiple tiered brain organoid models