Sort by
Refine Your Search
-
diseases? The successful applicant will lead a project investigating the role of mechanosensitive ion channels in different cell types in the eye. Relevant techniques include basic molecular biology, cell
-
of Cancer Immunology, Immunotherapeutics, and Computational Immunology. The successful candidate will work at the intersection of immunology, cancer biology, and bioinformatics with focus on the application
-
The Mellins laboratory is seeking a postdoctoral fellow with experience in B cell biology to be applied in antigen presentation projects. The Mellins lab is located within the Department
-
We have an opportunity in Dr. Vinit Mahajan's lab to perform and direct advanced genetic, genome engineering and stem cell research related to developmental biology and retinal disease. Also
-
mass spectrometry-based proteomics, functional genomics, and molecular biology techniques. Applicants with expertise and interest in either (1) mass spectrometry-based proteomics and/or CRISPR-based
-
experiments. This position is fully-onsite. *- Other duties may also be assigned. DESIRED QUALIFICATIONS: Prefer a degree in the Neurobiology, Cancer Biology, Bioengineering, Biological Sciences. He/she must
-
: Bachelor’s degree in biological sciences or a related scientific field. Previous experience working with laboratory mice. Knowledge of basic techniques in molecular biology. Strong analytical skills and
-
conducting assessments of transgenic mice using molecular biology and other approaches. The job requires someone who is meticulous and highly organized. Proficiency in Western Blotting, ELISA, histology
-
The Ahmad lab is seeking postdoctoral fellows interested in working on brain imaging and hearing loss. We have multiple projects ranging from mechanistic studies of tolerance induction in mouse models, systems analyses of tumor-immune co-evolution, and the development of new immunotherapies. The...
-
diseases and host-microbe interaction. Our research program employs murine infection models and brings together immunology, tissue biology, microbiology, and genetics to uncover fundamental mechanisms