Sort by
Refine Your Search
-
Listed
-
Category
-
Field
-
will use genetic perturbation and overexpression in vitro and in vivo (mouse) models to uncover principles that inform tissue repair, oral health, and host–microbe interactions. This position offers
-
-learning loops and QC. Productionize models with PyTorch, Docker/Kubernetes, and AWS/SageMaker Prepares manuscripts for publications. Ensure all members of the lab are in compliance with the necessary
-
: (1) epigenetic analysis in a mouse models of Parkinson’s disease related exposures, (2) elucidating molecular mechanisms of pesticide-induced changes in DNA methylation in a 3D neurosphere model in
-
studies with wild-type and genetically modified mice, including handling, injection and tissue collection. Perform cell culture studies with human and primary mouse cells. Perform molecular biology
-
researcher will be responsible for the design, analysis, interpretation, and presentation of experiments regarding the study of the disease mechanisms of various brain disorders using murine models and iPSC
-
information on benefits and eligibility, please visit: http://uhr.rutgers.edu/benefits/benefits-overview . Posting Summary The Genomic Instability and Cancer Genetics (GICG) Research Program at Rutgers Cancer
-
Position Details Position Information Recruitment/Posting Title Laboratory Researcher IV Job Category Staff & Executive - Research (Laboratory/Non-Laboratory) Department DLS Molecular Biology
-
differentiation and the immune response, with mechanistic explorations to unveil new therapeutic strategies. Works with primary T cells in vitro and mouse models in vivo, effectively. Demonstrates expertise in flow
-
, the lab aspires to remain at the cutting edge in terms of cellular and molecular biology techniques and to advance the neurodegeneration field by developing innovative tools and technologies that we will
-
researcher will be responsible for the design, analysis, interpretation, and presentation of experiments regarding the study of the pathophysiology of epilepsy or seizure disorders using murine models and