Sort by
Refine Your Search
-
metabolic vulnerabilities that can be exploited in cancer. The Postdoctoral Associate will work at the interface of basic and translational science, combining cell and molecular biology, biochemistry, genetic
-
metabolic vulnerabilities that can be exploited in cancer. The Postdoctoral Associate will work at the interface of basic and translational science, combining cell and molecular biology, biochemistry, genetic
-
be responsible for conducting interdisciplinary projects funded by the NIH, National Institute of General Medical Sciences. These projects involve the synthesis and biological applications of molecular
-
Position Details Position Information Recruitment/Posting Title Post-Doctoral Associate Department SASN - Center for Molecular & Behavioral Neuroscience (CMBN) Salary Details A minimum of $63,968
-
– developmental biology, molecular biology, evolutionary biology, genomics, or related. The successful candidate will lead research projects for understanding the evolutionary and developmental mechanisms
-
and Tobacco Studies Overview The Rutgers Institute for Nicotine and Tobacco Studies (formerly Rutgers Center for Tobacco Studies) is undergoing dynamic and transformative growth. The Rutgers Institute
-
. Knowledge of protein purification, molecular cloning, anti-cancer research, imaging is preferred but not required at all. Certifications/Licenses Required Knowledge, Skills, and Abilities Candidates must be
-
of the Principal Investigator, the Postdoctoral Associate will be responsible for the design, analysis, interpretation, and presentation of experiments regarding the study of molecular mechanisms of the regulation
-
candidate is energetic, collegial, detail oriented and organized. Preferred Qualifications Experience in biochemical and molecular biology methods to study blood coagulation factors in a disease-focused
-
at the density-functional and dynamical mean-field-theory levels, metal-insulator and structural phase transitions, quantum critical points, nonlinear and anomalous responses, optical traps, quantum computation