112 structures-"https:"-"https:"-"https:"-"https:"-"https:"-"https:"-"https:" positions at Nature Careers in United States
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
. #LI-BG1 Compensation Range $18.00 (minimum) - $24.90 (maximum) Pay Type: Hourly HHMI’s salary structure is developed based on relevant job market data. HHMI considers a candidate's education, previous
-
structures or animal behaviors. The PTR-Bioimage Analysis team within Project Technical Resources (PTR) collaborates with the AI@HHMI initiative, Team Projects, and Janelia laboratories to provide ground
-
Research Associate to investigate how biomolecular phase transitions guide higher-order genome structure and influence disease. We combine biochemistry, genomics, cellular engineering, and advanced
-
, or other characteristics protected by law. Pay Transparency Statement The hiring range is based on market pay structures, with individual salaries determined by factors such as business needs, market
-
Transparency Statement The hiring range is based on market pay structures, with individual salaries determined by factors such as business needs, market conditions, internal equity, and based on the candidate’s
-
, or other characteristics protected by law. Pay Transparency Statement The hiring range is based on market pay structures, with individual salaries determined by factors such as business needs, market
-
, biochemistry, and cell culture skills to perform research that translates novel insights regarding kinase structure and regulation in vitro into functional effects in cells. Additionally, the candidate will
-
. The AI initiative will be centered at HHMI’s Janelia Research Campus. Janelia has been at the forefront of AI-driven research in biology for more than 15 years. Its forward-thinking structure, centralized
-
the Invisible in Protein Kinases " is an inter-disciplinary project in the Department of Structural Biology and is supported by US $50 million in institutional funding. This large-scale project leverages ultra
-
that currently lack effective treatments, such as Parkinsons Disease. By combining machine learning with quantum chemistry and structure based approaches, the project will accelerate the translation