Computational Theoretical Chemist III
Company: 1910
Location: Boston
Posted on: February 14, 2026
|
|
|
Job Description:
Job Description Job Description Company Overview We are the only
AI-native biotech, pioneering small and large molecule therapeutics
discovery by integrating massive multimodal data, frontier AI
models, and high-throughput lab automation into an infrastructure
for AI-enabled drug discovery. We hire top 1% talent to join our
interdisciplinary team of scientists, engineers, researchers,
operators, innovators, drug developers, business professionals, and
technologists. Join us to build the world's first AI infrastructure
for tech-enabled drug discovery and to deliver a pipeline of
diverse drug modalities for all major disease areas. Computation is
revolutionizing drug discovery. Advances in big chemical data,
massive computing power, artificial intelligence, and molecular
dynamics simulation are changing the way we develop new drugs. At
1910 , we put computation at the heart of drug discovery, blending
expertise in computational chemistry, structural biology,
pharmacology, data science, and software engineering to develop
drugs for previously undruggable targets. Role description Own
computational chemistry programs across therapeutic modalities,
disease targets, and indications Ensure effective collaboration
with the Biology and Medicinal Chemistry teams by providing key
computational chemistry insights to aid in the Hit-to-Lead and Lead
Optimization phases of drug discovery operations Ensure effective
collaboration with the ML Engineering and AI Research team by
providing key computational chemistry insights to aid in the
development of AI/ML models for drug discovery as well as the
incorporation of those models into drug discovery operations Teach
key computational chemistry principles to your cross-disciplinary
colleagues from Medicinal Chemistry, AI Research, Machine Learning
Engineering, Cell Biology, and Pharmacology Manage day-to-day
operations of the Computational Theoretical Chemistry Team, mentor
junior staff, and represent the team in senior leadership meetings
Partner to improve 1910's existing process for progressing from
computational hit to experimental hit to lead to drug candidate
Co-author provisional patents and peer-reviewed research papers
Progress a virtual hit to a biochemical/cellular hit Validate a
cellular hit in a clinically relevant animal model of disease
Update provisional patents with the animal model data Nominate a
lead candidate for progression into IND-enabling studies Attend and
present research at conferences and events related to computational
modeling in drug discovery Qualifications Ph.D. in computational
chemistry or related discipline 3 years of relevant industry
experience within drug discovery or biotechnology Played a key role
in advancing a drug discovery program from early research phases to
clinical development. In-depth knowledge and hands-on experience
with quantum chemical (QC) methods, including semi-empirical and
density functional theory (DFT) approaches, molecular dynamics (MD)
simulations, including both standard MD and enhanced sampling
techniques such as metadynamics, umbrella sampling, and replica
exchange MD, free energy simulations such as FEP and TI, and QM/MM
methodologies for small and large molecular systems Strong
understanding of key concepts, including potential energy surfaces
(PES), intermolecular and intramolecular forces/interactions, force
fields, molecular properties, thermodynamic properties, solvation
models (implicit/explicit), and conformational sampling Proficiency
in analyzing molecular properties such as solvation free energy,
dipole moments, vibrational frequencies, electrostatic potential,
charge distribution, and more. Deep knowledge of implicit and
explicit solvent models, with extensive experience modeling solvent
effects on molecular systems and chemical reactions in various
environments Extensive experience in using and troubleshooting
software tools for QC calculations (e.g., ORCA, xTB, CREST, etc.),
MD simulations (e.g., GROMACS, OpenMM, etc.), Drug Design
Development Packages (e.g., EG, Schrodinger, MOE, CRESSET)
Experience working with HPC Clusters and cloud-based services like
(e.g., Microsoft AZURE, AWS) Ability to optimize computational
simulation protocols for efficient resource usage Proven experience
working with small organic molecules and large biomolecular systems
(e.g., peptides, proteins, etc.) for property prediction,
conformational analysis, and structure-activity relationships (SAR)
Hands-on experience with Python and Bash scripting for automating
workflows and data analysis Familiarity with cheminformatics
toolkits such as RDKit for molecular property prediction and data
management Basic knowledge of machine learning (ML) techniques
applied to molecular property prediction, virtual screening, and
related tasks Strong desire to collaborate with AI scientists, data
scientists, medicinal chemists, and biologists to interpret
computational results and guide experimental design Clear and
effective communication of complex scientific ideas through
reports, presentations, and publications Nice to Haves Publications
in computational chemistry related to drug discovery LI-Onsite
Diversity and Inclusion (1910's Promise) At 1910, we believe that a
diverse, equitable, and inclusive workplace furthers relevance,
resilience, and longevity. We encourage people from all
backgrounds, ages, abilities, and experiences to apply. 1910 is
proud to be an equal-opportunity workplace and is an affirmative
action employer. We are committed to equal employment opportunity
regardless of race, color, ancestry, religion, sex, national
origin, sexual orientation, age, citizenship, marital status,
disability, gender identity, or Veteran status. If, due to a
disability, you need an accommodation during any part of the
interview process, please let your recruiter know. While 1910
supports visa sponsorship, sponsorship opportunities may be limited
to certain roles and skills. Benefits and Perks Competitive
compensation package Above market benefits Generous vacation and
parental leave Super cool team building activities Great
colleagues
Keywords: 1910, Barnstable Town , Computational Theoretical Chemist III, Science, Research & Development , Boston, Massachusetts
