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General Description

Are you excited to explore a yet-to-be-solved problem at the heart of AI-based protein engineering? Join Jeffrey Gray's research lab to develop and mature some of the most in-demand research skills in academia and industry today. 

New approaches in deep neural networks are revolutionizing the study of protein structure, but so far these advances have not solved the critical issues to be able to design new therapeutic antibodies from scratch. The Gray lab is a leader in the study of protein-protein interactions and computational modeling of antibodies, including emerging deep learning approaches. This position will allow you to learn the emerging deep learning approaches to proteins and antibodies and craft new machine learning approaches for antibody engineering, protein-protein docking, and carbohydrate modeling. We create new methods and collaborate with academics and industry to apply these methods to important biological problems and to therapeutics. You will be a part of a dynamic, collaborative, and inclusive research group.

• Highly competitive salary (up to $80,000 stipend) goes far in affordable Baltimore.

• Full benefits including health insurance (coverage for eye and dental insurance).

• The Gray laboratory is part of the Rosetta Commons (Prof. Gray serves as Director), and so you will be able to participate in Rosetta Conferences, workshops, and outreach.

• Johns Hopkins offers an unmatched environment for life sciences research, with a dynamic community in biomolecular engineering, biophysics, biochemistry, and medicine.

• Lab alumni have advanced to positions in industry giants (Genentech, Merck, Pfizer, GSK), and successful recent startups (Generate Bio, Outpace Bio).

• Initial appointment period of one year, with expectation of 2-4 years total.

• State-of-the-art computing infrastructure (NVIDIA H100 and A100 GPUs and CPUs for seamless computing).

• Supportive mentoring environment, with regular 1:1 meetings and Individual Development Plans every 6 months.

More information about the Gray lab at http://graylab.jhu.edu

Key responsibilities could include, but are not limited to, assisting in the following:

• Review literature on biomolecular structure and design technologies and deep learning approaches.
• Assess gaps in current tools.
• Assess of emerging deep learning methods for application in biomolecular engineering.
• Create of novel deep learning tools for biomolecular engineering, including assembling novel data sets, building new architectures, training and assessing models.
• Critically assess of biomolecular designs using multiple deep learning tools, physics-based models, and structural analysis.
• Plan collaboration with experimentalists, to best assess competing design strategies.
• Write journal articles and presentations for sharing the outcomes.

Qualifications

• PhD in Engineering, biophysics, computational biology, or related field    
• Experience with scientific algorithm development, protein biophysics or engineering, protein structure prediction and design.                              
• Experience in solving complex scientific or engineering problems
• Excellent writing and communication skills
• Ability to work in teams and contribute to a supportive and collaborative work culture

Application Instructions

In Interfolio, applicants should upload a CV, a brief statement of purpose, a code sample, and 2-3 representative publications (preprints acceptable). The statement should state why the Gray lab is a good fit for your career trajectory. The code sample can be a file or a few files or a link (e.g. a Github repository) that demonstrates your coding level.

Applications will be considered until the positions are filled. Johns Hopkins University fosters intellectual interaction, provides state-of-the-art resources, and embraces diversity in our workforce. The Johns Hopkins University is an EEO/AAA Employer. 

About Johns Hopkins University

Johns Hopkins University remains committed to its founding principle, that education for all students should be grounded in exploration and discovery. Hopkins students are challenged not just to learn but also to advance learning itself. Critical thinking, problem solving, creativity, and entrepreneurship are all encouraged and nourished in this unique educational environment. After more than 130 years, Johns Hopkins remains a world leader in both teaching and research. Faculty members and their research colleagues at the university's Applied Physics Laboratory have each year since 1979 won Johns Hopkins more federal research and development funding than any other university. The university has nine academic divisions and campuses throughout the Baltimore-Washington area. The Krieger School of Arts and Sciences, the Whiting School of Engineering, the School of Education and the Carey Business School are based at the Homewood campus in northern Baltimore. The schools of Medicine, Public Health, and Nursing share a campus in east Baltimore with The Johns Hopkins Hospital. The Peabody Institute, a leading professional school of music, is located on Mount Vernon Place in downtown Bal...timore. The Paul H. Nitze School of Advanced International Studies is located in Washington's Dupont Circle area.

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