Find clinical, allied health, care team, and healthcare operations openings using one smart search field across cities, regions, and employers.
Memorial Sloan Kettering Cancer Center
Overview
The role involves processing human surgical specimens for omic technologies and maintaining genetically engineered mouse colonies. The technician will conduct various in vitro and in vivo assays to support research on renal cell carcinoma.
Quick view →
Compensation
$27 - $40 / HOUR
Posted
4 days ago
Boston University
Conduct research on immunology and host-pathogen interactions to understand the molecular pathogenesis of bacterial infections. Identify and evaluate novel therapeutic targets for diseases such as pneumonia, sepsis, and inflammatory bowel disease.
$67,500 - $75,000 / YEAR
Duke Careers
The Research Technician II will perform a wide range of laboratory and research support functions, including molecular biology assays like PCR and Western blots, cell culture maintenance, and viability testing. This role also involves active participation in assessing mouse cohorts using genetically engineered models for brain tumor studies.
$19 - $29 / HOUR
12 days ago
Washington University in St. Louis
The role involves studying signaling mechanisms in immune regulation and epigenetic processes within the prostate cancer tumor microenvironment. Responsibilities include drug development, conducting molecular analysis, and preparing manuscripts and grant submissions.
Salary not listed
1 month ago
City of Hope
The postdoctoral fellow will join the Deng laboratory to study the homeostasis of uridine and its role in metabolism, focusing on understanding the pathophysiology of obesity, diabetes, and cancer. Research activities involve utilizing genetically engineered mouse models and in vitro systems with approaches like surgical, genetic, cellular, biochemical, imaging, and metabolic flux techniques.
2 months ago
The postdoctoral fellow will join the Deng laboratory to study the homeostasis of uridine and its role in metabolism, focusing on understanding the pathophysiology of obesity, diabetes, and cancer. Research activities involve utilizing genetically engineered mouse models and in vitro systems with state-of-the-art surgical, genetic, cellular, biochemical, imaging, and metabolic flux approaches.
The postdoctoral fellow will join the Deng laboratory to study the homeostasis of uridine and its role in metabolism, investigating its relevance to the pathophysiology of obesity, diabetes, and cancer. Research activities will involve utilizing genetically engineered mouse models and in vitro systems with a combination of advanced surgical, genetic, cellular, biochemical, imaging, and metabolic flux approaches.
The postdoctoral fellow will investigate the homeostasis of uridine and its role in the pathophysiology of obesity, diabetes, and cancer using genetically engineered mouse models and in vitro systems. Research will focus on the role of uridine in disease progression, its physiology in bile and nutrient absorption, and its regulation by ER stress relevant to breast cancer.
