15 mechanical-engineering-solid-mechanics-advanced-materials-fracture-mechanics-stress-and-strain-analysis Fellowship research jobs at Cold Spring Harbor Laboratory
-
the nature and nurture mechanisms involved in the development of cortical neural circuits and their alterations in neurodevelopmental disorders. More specifically, we focus on the various neuromodulator cues
-
highly motivated to define fundamental mechanisms underlying malignancy and translate these findings towards the clinic. Position Requirements Proficiency in genetic modification, cell & molecular biology
-
on understanding the host-immune cell interactions and the mechanisms by which the immune system and tumor microenvironment play a role in the biology and anti-tumor response of liver metastases. More specifically
-
discovery and chemical biology. Our lab is working to understand the molecular mechanisms leading to efficient elicitation of tumor vulnerability for potent cancer targeting. We develop Targeted Protein
-
clinicians studying tumor-host interactions, using integrative techniques from neuroscience, endocrinology, metabolomics, and immunology to dissect the mechanisms connecting sleep disruption with aberrant
-
-on experience with nano-scale chromatography and high-resolution mass spectrometry and a solid knowledge of the theoretical basis of these technologies are essential. How to Apply: Applicants should send
-
roles of genes associated with human diseases in the development and function of neural circuits, using molecular, genetic and viral engineering, optogenetics, imaging, electrophysiology, and behavior
-
expertise working with small animal models and/or bioinformatic analysis of genomics and single cell sequencing datasets, and one or more relevant first-author research publications and/or pre-print
-
or be nearing completion of a PhD degree in STEM (science, technology, engineering, or mathematics) and have research experience in neuroscience or relevant fields of biology and bioengineering. We
-
outcome. The team uses a genetically engineered model of metastatic prostate cancer in a native, immune competent environment (see PMIDs: 24444712, 25829425 and 31092557). Recently, they developed whole