In Vivo Research & Mouse Models
- Design, execute, and lead seizure studies using established and novel mouse models of epilepsy (e.g., kainate, pilocarpine, kindling, genetic models such as Scn1a+/−).
- Plan and perform chronic in vivo electrophysiological recordings (EEG/LFP) to quantify seizure burden, inter-ictal activity, and network dynamics.
- Oversee surgical implantation of recording electrodes and manage long-term telemetric monitoring cohorts.
- Develop and validate new in vivo model systems relevant to drug-resistant or pediatric epilepsies.
Ex Vivo Electrophysiology
- Execute and lead acute and organotypic brain slice preparation with high reproducibility across hippocampal, cortical, and thalamocortical circuits.
- Perform whole-cell patch-clamp and field potential recordings to characterize intrinsic neuronal excitability, synaptic transmission, and network-level epileptiform activity.
- Analyze pharmacological modulation of ion channels, GABAergic/glutamatergic systems, and other therapeutic targets in slice preparations.
Therapeutic Development
- Serve as the primary electrophysiology lead in evaluating candidate therapeutics (small molecules, biologics, gene therapy approaches) across preclinical models.
- Design and execute dose-response, time-course, and mechanistic studies to characterize compound efficacy and tolerability in the CNS.
- Partner closely with medicinal chemistry, pharmacology, and translational teams to align preclinical findings with clinical hypotheses.
- Contribute to IND-enabling studies and regulatory submissions by providing high-quality preclinical data packages.
Scientific Leadership & Collaboration
- Lead a small team of research scientists and associates, providing mentorship, experimental guidance, and career development support.
- Define research priorities, drive experimental strategy, and ensure rigorous, reproducible science across the team.
- Present findings at internal research reviews, external conferences, and in peer-reviewed publications.
- Build and maintain collaborations with academic KOLs, clinical epileptologists, and external research partners.
- Contribute to grant writing, scientific communications, and IP generation as appropriate.
- PhD in Neuroscience, Pharmacology, Physiology, or a closely related discipline.
- Minimum 8 years of post-doctoral research experience, with a demonstrated track record in epilepsy or seizure biology.
- Expert-level proficiency in in vivo electrophysiology, including EEG recording and analysis in rodent seizure models.
- Expert-level proficiency in brain slice preparation and patch-clamp or field potential electrophysiology.
- Extensive hands-on experience with rodent models of epilepsy and associated surgical, behavioral, and data analysis workflows.
- Direct experience contributing to preclinical therapeutic development programs, including target validation and compound profiling.
- Strong publication record in peer-reviewed journals relevant to epilepsy, ion channel biology, or CNS pharmacology.
- Demonstrated ability to independently design, execute, and interpret complex experiments and communicate findings clearly.
- Experience with genetic mouse models of epilepsy (e.g., Dravet syndrome, KCNQ2, CDKL5).
- Familiarity with advanced imaging modalities (e.g., calcium imaging, optogenetics) in the context of seizure research.
- Experience with translational biomarker development or clinical EEG interpretation.
- Prior experience in a biotech, pharma, or translational research environment.
- Familiarity with regulatory expectations for preclinical CNS packages (FDA/EMA guidelines).
- Experience with gene therapy or RNA-based therapeutic modalities.
- Scientific rigor and meticulous attention to reproducibility and data quality.
- Strong analytical and quantitative skills; proficiency with electrophysiology analysis software (e.g., Clampfit, Spike2, custom MATLAB/Python pipelines).
- Excellent written and verbal communication skills, including the ability to present complex data to cross-functional stakeholders.
- Collaborative mindset with the ability to work effectively across disciplines and organizational boundaries.
- Self-motivated, proactive, and capable of managing multiple priorities in a fast-paced research environment.
- Demonstrated leadership ability, including mentoring junior scientists and driving team-level deliverables.
- A senior, high-visibility role at the forefront of epilepsy research and drug discovery.
- Significant scientific autonomy and the opportunity to shape the direction of a core research program.
- A collaborative, mission-driven culture with access to state-of-the-art research infrastructure.
- Competitive compensation package including base salary, bonus, and equity.
- Comprehensive benefits including medical, dental, vision, and generous PTO.
- Support for conference attendance, publications, and continued professional development.
Knowledge, Skills, and Abilities
- A Ph.D. or equivalent degree in a relevant scientific field
- Extensive experience (typically 8+ years) in scientific research, preferably in a related industry or academic setting.
- Proven track record of leading successful research projects, with a strong publication record and demonstrated expertise in a specialized area.
- Proficiency in experimental design, data analysis, and interpretation.
- Excellent leadership, communication, and interpersonal skills.
- Ability to thrive in a dynamic, fast-paced environment and effectively manage multiple projects simultaneously.
- Familiarity with regulatory guidelines and compliance requirements relevant to the industry.
Education: Doctorate required/preferred
Experience: 8 years required/ 10 years preferred
Pay Range: $136,461 - $212,147, salary is determined by experience
About JAX:
The Jackson Laboratory is an independent, nonprofit biomedical research institution with a National Cancer Institute-designated Cancer Center and nearly 3,000 employees in locations across the United States (Maine, Connecticut, California), Japan and China. Its mission is to discover precise genomic solutions for disease and empower the global biomedical community in the shared quest to improve human health.
Founded in 1929, JAX applies over nine decades of expertise in genetics to increase understanding of human disease, advancing treatments and cures for cancer, neurological and immune disorders, diabetes, aging and heart disease. It models and interprets genomic complexity, integrates basic research with clinical application, educates current and future scientists, and provides critical data, tools and services to the global biomedical community. For more information, please visit www.jax.org.
EEO Statement:
The Jackson Laboratory provides equal employment opportunities to all employees and applicants for employment in all job classifications without regard to race, color, religion, age, mental disability, physical disability, medical condition, gender, sexual orientation, genetic information, ancestry, marital status, national origin, veteran status, and other classifications protected by applicable state and local non-discrimination laws.
Skills Required
- PhD in Neuroscience, Pharmacology, Physiology, or a closely related discipline
- Minimum 8 years of post-doctoral research experience in epilepsy or seizure biology
- Expert-level proficiency in in vivo electrophysiology, including EEG recording and analysis in rodent seizure models
- Expert-level proficiency in brain slice preparation and patch-clamp or field potential electrophysiology
- Extensive hands-on experience with rodent models of epilepsy and associated surgical, behavioral, and data analysis workflows
- Direct experience contributing to preclinical therapeutic development programs
- Strong publication record in peer-reviewed journals relevant to epilepsy, ion channel biology, or CNS pharmacology
- Demonstrated ability to independently design, execute, and interpret complex experiments
The Jackson Laboratory Compensation & Benefits Highlights
The following summarizes recurring compensation and benefits themes identified from responses generated by popular LLMs to common candidate questions about The Jackson Laboratory and has not been reviewed or approved by The Jackson Laboratory.
-
Retirement Support — Retirement contributions up to 10% and employer‑paid life and disability insurance indicate robust long‑term financial support. The retirement program is positioned as a standout element of the total package.
-
Healthcare Strength — Comprehensive medical, dental, and vision coverage, fertility benefits, FSAs, EAP access, and onsite fitness centers point to strong healthcare support. These offerings contribute to a well‑rounded, reliable benefits foundation.
-
Pay Growth & Progression — Entry‑level operations roles advertise site‑specific starting pay with regularly scheduled increases. Publicly posted entry rates and promised regular increases can help satisfaction early on.
The Jackson Laboratory Insights
What We Do
Cancer. Diabetes. Alzheimer’s. Heart Disease. Parkinson’s. The Jackson Laboratory (JAX) leads the search to cure diseases rooted in our DNA. Founded in 1929, we are an NCI-designated Cancer Center since 1983 and an independent 501(c)3 nonprofit research organization with over 90 years of experience in genetics and genomics research. JAX blends the brightest minds with state-of-the-art resources to accelerate discovery. Areas of Discovery (75+ Principal Investigators, >250 Ph.D.s, M.D.s, and D.V.M.s): • Cancer: We are a National Cancer Institute designated Cancer Center focusing on cancer initiation, progression, prevention and therapies. • Developmental/reproductive biology: birth defects, Down syndrome, osteoporosis, fertility • Immunology: HIV-AIDS, anemia, autoimmunity, cancer immunology, immune disorders, lupus, transplant rejection • Metabolic diseases: atherosclerosis, cardiovascular disease, diabetes, high blood pressure, obesity, microbiome • Neurobiology: blindness, Parkinson’s, Alzheimer’s, deafness, epilepsy, glaucoma, macular degeneration, neurodegenerative diseases • Neurobehavioral disorders: autism, addiction, depression Supporting Global Research: • The JAX Mouse Repository and Scientific Services are among the premier resources available for biomedical research. Committed to Education: • Summer Student Program (undergrad & high school) • Teaching the Genome Generation Short Course • Ph.D. programs: U. Maine, Tufts University and U. Connecticut • Courses, Conferences and Workshops






