Sort by
Refine Your Search
-
Listed
-
Country
-
Employer
- The University of Iowa
- University of Cambridge
- Nature Careers
- Duke University
- Georgetown University
- University of Adelaide
- University of Massachusetts Medical School
- Aston University
- DAAD
- Lulea University of Technology
- National Institute for Bioprocessing Research and Training (NIBRT)
- Purdue University
- The Ohio State University
- University of Alabama at Birmingham
- University of California Irvine
- University of California, Berkeley
- University of California, Santa Cruz
- University of New Hampshire – Main Campus
- University of Newcastle
- University of Oxford
- University of Southern California
- University of Southern California (USC)
- Virginia Tech
- 13 more »
- « less
-
Field
-
Job Code: C04414 Salary Range: Min: $36,764 | Mid: $48,148 Minimum Qualifications Bachelor’s degree in molecular biology, cell biology, genetics, developmental biology or related field. Job Summary
-
statistical models (for example principal component analysis) to obtain insights into relationships between physical properties of polysaccharides (composition, molecular weight charge, chain length etcetera
-
their therapeutic potential both in vitro and in vivo that includes designing CRISPR-Cas targeting strategies, analyzes editing outcomes on a molecular level using next gen sequencing and ddPCR and conducts
-
, and state-of-the-art infrastructure. Our model empowers visionary leaders to accelerate drug development and harness AI-driven innovation to address unmet medical needs. Benefits of Working with Great
-
University of New Hampshire – Main Campus | New Boston, New Hampshire | United States | 2 months ago
USNH Employees should apply within Workday through the Jobs Hub app The research position is within the broad area of biophysics, structural modeling, and molecular dynamics (MD) simulations
-
About the Role Join a multi-disciplinary team that explores human intestinal development and disease using cutting edge single cell and spatial biology technologies, organoid models and
-
therapies for such cancers, and test them in cellular and animal models. If you thrive in a collaborative environment and have a keen interest in both imaging and treatment of cancer, this role is perfect
-
molecular biology, quantitative imaging and biophysical approaches to investigate cell shape changes in cultured cells and in vivo. Current projects in the lab include investigating the regulation
-
molecular biology, quantitative imaging and biophysical approaches to investigate cell shape changes in cultured cells and in vivo. Current projects in the lab include investigating the regulation
-
model complexes. This research is part of a large, funded collaborative project supported by the Swiss National Science Foundation, involving partner researchers based in Germany, Switzerland, and France