Senior Scientist II, Computational Chemistry

About The Position

Requirements

• PhD in computational chemistry or related field.
• 5+ years of computational chemistry experience in the biotechnology/pharmaceutical industry, with a demonstrated track record of impactful contributions to drug discovery programs, including advancement of compounds, patents, publications, presentations, or key program decisions.
• Expert-level knowledge of contemporary computational chemistry methods and their use in protein-ligand analysis and drug design such as docking, virtual screening, pharmacophore modeling, MD simulation, QM calculations etc.
• In-depth experience with computational chemistry, cheminformatics, data science, machine learning software.
• Scientific programming or scripting in Bash, Python, R, Java, C languages, or similar languages.
• Excellent oral and written communication skills.
• Experience in positively influence team decisions and effectively collaborate across multidisciplinary environments.
• Driven by a desire to be innovative and creative in a high energy, fast-paced environment.

Nice To Haves

• Experience with Ro5 and bRo5 modalities, including macrocycles, molecular glues, covalent ligands, or other challenging therapeutic modalities.
• Experience working in HPC/cloud environments and developing scalable computational workflows.
• Strong publication history demonstrating computational chemistry expertise and innovation.
• Familiarity with data visualization tools and analytics tools for effective communication of insights.

Responsibilities

• Serve as a computational chemistry lead on multidisciplinary discovery teams, independently shaping computational strategy, influencing project direction, and driving compound design decisions from hit finding through lead optimization.
• Integrate complex SAR, structural biology, biophysical, biochemical, and ADME/PK data to generate testable hypotheses, identify design opportunities, and independently drive compound prioritization strategies for Ro5 and bRo5 molecules.
• Act as a strategic partner to medicinal chemistry, proactively proposing compound designs, prioritization frameworks, and risk-mitigation strategies while clearly communicating scientific rationale to project teams and leadership.
• Design and implement virtual screening workflows leveraging both structure-based and ligand-based computational methods to discover novel hit compounds and accelerate lead optimization processes.
• Critically evaluate, implement, and apply advanced computational methodologies, including physics-based modeling, enhanced sampling, free energy methods to address program-specific challenges and improve decision-making.
• Collaborate with the Advanced Analytics team to evaluate and validate machine learning models and generative AI workflows for molecular design, ensuring the models are statistically rigorous, fit-for-purpose, and aligned with project decision-making needs.
• Provide innovative ideas and models to challenge and guide project roadmap while serving as lead computational chemistry representative on drug discovery pipeline projects
• Devise and execute strategies to augment our hit finding abilities for novel protein and protein-protein targets, aid in designing diverse chemical libraries.

Benefits

• competitive cash compensation
• robust equity awards
• strong benefits
• significant learning and development opportunities