Why Mayo Clinic
Mayo Clinic is top-ranked in more specialties than any other care provider according to U.S. News & World Report. As we work together to put the needs of the patient first, we are also dedicated to our employees, investing in competitive compensation and comprehensive benefit plans – to take care of you and your family, now and in the future. And with continuing education and advancement opportunities at every turn, you can build a long, successful career with Mayo Clinic.
Benefits Highlights
Medical: Multiple plan options.Dental: Delta Dental or reimbursement account for flexible coverage.Vision: Affordable plan with national network.Pre-Tax Savings: HSA and FSAs for eligible expenses.Retirement: Competitive retirement package to secure your future.

Responsibilities

Mayo Clinic and its Department of Clinical Genomics, as well as other aligned Departments and Programs, are seeking exceptional physicians and scientists, experts in the rapidly evolving field of genome editing and therapeutic delivery, to drive innovation at the intersection of discovery, translational, clinical research, and clinical practice to join our new and rapidly evolving Program in Precision Genomics: Interventional Therapeutics (PG-IT). 

The PG-IT program at Mayo Clinic is a groundbreaking new initiative of highly innovative and creative scientists and physicians working collaboratively to advance next-generation molecular therapies by delivering genetically targeted treatments in vivo. We are building an accomplished team of leaders including scientists driving innovation in genome editing and physicians who can deliver customized new and novel genetic therapies to the patients we serve. We are seeking candidates who excel in collaborative, team-oriented environments and demonstrate a strong commitment to advancing genomic medicine for improved patient outcomes. Qualified candidates joining the PG-IT program will collectively possess expertise in rare and complex disease genetics and genomics, clinical-grade genomic sequencing, multi-omic investigations, interventional human genetics, functional genomics, innovative molecular therapeutics, and human interventions and clinical trials, including single patient expanded access investigational new drug (IND) development processes. These candidates will join our efforts to develop a comprehensive institutional program that unites laboratory discovery, clinical genomics, informatics, and precision therapeutics, thereby delivering transformative advancements for patients affected by genetic and genomic disorders, including rare, inherited and complex disorders and diseases.

The PG-IT program will build on tremendous strengths at Mayo Clinic including: 

The Mayo Clinic Artificial Intelligence (AI) Program, driving the development of AI-based drug discovery, predictive models, large language models (LLMs), and AI agents within research and implemented into the Mayo Clinic clinical practice, powered by unparalleled partnerships and compute capabilities (NVIDIA SuperPOD DGX B200).Mayo Clinic Platform (MCP; www.mayoclinicplatform.org), the world's largest distributed federated healthcare data network with cloud-based storage of the fully digitized longitudinal patient records (including fully digitized radiographic images and pathology slide images, and sophisticated laboratory diagnostics) and associated research data and biospecimens from >50M patients at Mayo Clinic and MCP partners worldwide.Exceptional research and clinical programs, research infrastructure, shared research resources, and education and training programs to facilitate research in basic and clinical genomics and molecular engineering to precisely target genetic drivers of rare and complex conditions. A robust clinical research and clinical trials infrastructure that currently supports the delivery of the nation’s largest number of clinical trials to the patients we serve, including new and novel and “first in human” therapies, including cellular, biologic, and genetic therapies.Mayo Clinic’s unique collaborative ecosystem, which includes an integrated clinical practice, world-class research platforms, and advanced infrastructure for gene and cell-based therapeutic development.

Our goals for the Mayo Clinic PG-IT program include in vivo human gene editing for rare and inherited genetic disorders and complex human diseases, the acceleration of drug repurposing for genetically targeted indications, and identifying the most promising novel gene-editing interventions to benefit patients. This will help accelerate discovery and apply cutting-edge innovations in real-world settings. Areas of opportunity span therapeutic development, CRISPR- and RNA-based interventions, genome engineering, molecular diagnostics, novel mechanisms and modes of delivery of genetic therapies in vivo, and the deployment of genomics-enabled clinical care pathways for rare, inherited, and complex conditions. 

Successful candidates will lead, design, and implement innovative genomic and translational approaches that improve patient outcomes while driving forward to the next generation of therapeutic and diagnostic discovery. These roles offer the opportunity to collaborate across Mayo Clinic’s extensive research and clinical networks, including partnerships with the Mayo Clinic Laboratories, the Advanced Diagnostics Laboratory, extensive biopharma partnerships and collaborations, and enterprise-wide precision medicine initiatives. Faculty will contribute to the development and integration of emerging genomic technologies into clinical and therapeutic pipelines, helping to shape programs that influence local, national, and global practice in genomic medicine. As the PG-IT Program builds it will gain SAGE (Standards for Advanced Gene Editing) certification for the customized delivery of human genetic interventions.

Mayo Clinic’s values of teamwork, collaboration, and patient-centered care are foundational to deliver integrated research, medical, and surgical care for individuals with complex genetic and genomic conditions. Faculty members will receive academic appointments (Assistant, Associate, Full Professor and Consultant) within the Mayo Clinic College of Medicine and Science commensurate with experience, scholarly contributions, and leadership in clinical, research, or translational domains. Mayo Clinic is committed to supporting the long-term success of faculty through robust research infrastructure, interdisciplinary mentorship, and a culture that values innovation, scientific excellence, and transformative patient impact.

We are enthusiastic about the potential to work with visionary leaders in the field and look forward to the opportunity to make significant strides in genomic medicine together.

The Department of Clinical Genomics
The Department of Clinical Genomics at Mayo Clinic is a national leader in integrating advanced genomic science with patient‑centered clinical care. Our mission is to individualize medicine through the development and application of cutting‑edge genomic technologies that enable the prediction, prevention, diagnosis, and treatment of both rare and common genetic conditions. By generating deep insights into each patient’s genomic architecture, our teams drive innovative care strategies that improve outcomes and shape the future of precision medicine.

Clinical Genomics supports a broad spectrum of services, including comprehensive family history assessments, risk evaluations for hereditary conditions, and whole‑exome, whole‑genome, and multi‑omic testing for complex and rare disorders. These programs are tightly integrated with enterprise‑wide research and clinical resources, providing faculty with unparalleled access to world‑class platforms in sequencing, functional genomics, bioinformatics, and emerging therapeutic modalities.
Our department operates through a highly collaborative, multidisciplinary model, bringing together medical geneticists, PhD scientists, certified genetic counselors, nurses, and allied specialists across Mayo Clinic’s practice and research environment. This seamless integration enables faculty to evaluate virtually any genetic condition, coordinate advanced diagnostic workflows, and partner with teams across the institution to translate discovery into meaningful clinical impact.

For faculty, Clinical Genomics is an enterprise department spanning the three Mayo Clinic sites of Rochester, Florida, and Arizona, and offers a dynamic and supportive environment in which to build innovative research programs, engage in transformative clinical initiatives, and contribute to Mayo Clinic’s enterprise commitment to advancing genomic medicine. Faculty benefit from strong institutional support, access to robust research infrastructure, the opportunity to collaborate across multiple campuses, and the ability to contribute to initiatives that influence care on a national and global scale.

Mayo Clinic
For over 160 years, the mission of Mayo Clinic has been to inspire hope and to promote health and healing through the integration of clinical practice, research, and education on behalf of the patients, communities, and learners we serve from across the nation and the world.  Each of Mayo Clinic’s three Destination Medical Center (DMC) campuses in the United States are fully engaged in clinical practice, innovative research, and education and training.  These three campuses – referred to as the Mayo Clinic enterprise - include Rochester, Minnesota (MCR); Jacksonville, Florida (MCF); and Phoenix and Scottsdale, Arizona (MCA).  In addition, Mayo Clinic fully owns and operates a community-based rural health care delivery system (the Mayo Clinic Health System; MCHS) which extends through 49 rural communities in southern Minnesota, western Wisconsin, and northeastern Iowa. 

For the past eight years, Mayo Clinic has been ranked as the No. 1 health system in the nation and the world, with the most #1 ranked medical specialties, by U.S. News & World Report, Newsweek, and other healthcare quality organizations. Each of the Mayo Clinic hospitals on the three Mayo Clinic campuses have also been consistently ranked as the #1 hospital and the #1 cancer center and cancer hospital in their respective state.  Mayo Clinic also has the largest integrated organ transplant program in the nation and conducts more clinical trials driving research and testing new therapies and interventions compared to any other institution in the United States. In 2025, with a staff of more than 85,000, including more than 7,300 physicians and scientific investigators, Mayo Clinic cared for more than 1.3 million unique patients who came from all 50 U.S. states and 135 countries.             

Mayo Clinic: The 2030 Bold. Forward. Strategic Plan
Health care has operated in an environment where patients have had the least control. Technology, data-driven knowledge, artificial intelligence (AI), consumerism, and “platform thinking” will establish the next generation of health care. To thrive in this environment, healthcare organizations must break through the old paradigm and transform scientific research and healthcare access and delivery on behalf of the patients we serve. By remaining true to its primary value, "the needs of the patient come first," and the RICH TIES core values of Respect, Integrity, Compassion, Healing, Teamwork, Innovation, Excellence, Stewardship, Mayo Clinic is driving the transformation of biomedical research and health care through its 2030 Bold. Forward. Strategic Plan with the framework Cure, Connect, and Transform.

Cure.
Cure is dedicated to accelerating discovery, translation, and delivery of more cures for both chronic and acute diseases. Mayo Clinic is differentiating itself through the conduct of highly innovative discovery science and its translation to enable the delivery and diffusion of the next generation of diagnoses, treatments, and cures. This includes new in vivo and in vitro medical, surgical, and radiologic therapies and interventions delivered physically within our healthcare facilities and digitally and virtually in patient’s homes and community settings. 

Connect.
Connect is focused on connecting people with data to create new knowledge and delivering scalable, end-to-end solutions. This means making our healthcare delivery systems more accessible for patients, but also easier for providers, researchers, and other partners to collaborate to conduct research and clinical practice to create new solutions.  In new programs such as Mayo Clinic Care Beyond Walls, Cancer Care Beyond Walls (CCBW), and Clinical Trials Beyond Walls (CTBW), Mayo Clinic is creating a digital care delivery model that maintains a human touch. 

Transform.
Transform means creating a new future for healthcare focused on a scalable, AI-enabled platform for the conduct of research and care delivery. Mayo Clinic is driving the “platform transformation” of health care by creating Mayo Clinic Platform - what we believe is the first true large-scale platform in health care - and building highly innovative research and clinical programs, including the Mayo Clinic Generative Artificial Intelligence (GenAI) Program.

Mayo Clinic Platform
To drive the “platform transformation” of healthcare, Mayo Clinic has created the Mayo Clinic Platform (MCP), healthcare’s first comprehensive, dynamic, scalable, AI-enabled research engine and patient care platform. Through MCP, Mayo Clinic has created the world’s largest collaborative, distributed, federated healthcare data network (MCP Connect), with a cloud-based data architecture holding the longitudinal healthcare records of 54 million patients from across the world.  Four MCP Connect network members are ranked among the world’s top 10 healthcare systems (Mayo Clinic, University Health Network (UHN) – University of Toronto/Princess Margaret Cancer Centre, Sheba Health System of Israel, and Singapore National Health (SingHealth)). From Mayo Clinic alone, MCP holds the fully digitized longitudinal healthcare records from 15M Mayo Clinic patients, including 705 million patient encounters, 3.2 billion laboratory results, 1.65 billion clinical notes, 8.1 billion radiographic images (X-ray, CT, MRI, PET), the world’s largest repository of digitized pathology slides (20 million), and 662 million diagnoses. The clinical data in MCP is further linked to repositories of patient biospecimens and highly annotated epidemiologic and research data sets, facilitating scientific discovery and translation to clinical endpoints and the ability to build AI-driven predictive models to improve patient care. While each MCP partner holds its own secured privacy-protected patient healthcare data in its “node” in the network, the creation of a shared data architecture for the network and an anonymized, de-identified data layer facilitates rapid collaboration across the globe. 

By applying our knowledge and expertise in the biological, medical, physical, engineering, computational sciences and AI, to the world’s largest healthcare dataset in MCP, we are driving innovative research in many diseases, discovering new cures, enhancing access to clinical trials, and transforming how we deliver cancer care within our facilities and “beyond our walls” in patient homes and community settings. We are also making significant investments on our campuses to transform healthcare for all by seamlessly integrating physical spaces and digital capabilities and by harnessing AI, robotics, and automation to meet patients' unmet and evolving needs. Our vision is to use our shared platforms to ensure that healthcare is accessible to all — at any place and any time — transcending geographic and physical barriers. We are sharing our knowledge globally, impacting policy and partnering with others to create a healthier world. 

Mayo Clinic Generative Artificial Intelligence (GenAI) Program
The Mayo Clinic GenAI Program is an extensive, multifaceted initiative focused on integrating generative AI and agentic AI into clinical practice, research, and administration across the Mayo Clinic enterprise. With our technology partners (Google, Microsoft, NVIDIA and Cerebras), Gen AI is leveraging the vast patient data in Mayo Clinic Platform to create foundation models, generative AI solutions, and AI agents that improve clinical practice, personalize patient care, accelerate research, discover new therapeutics and cures, reduce administrative burden, and transform healthcare. Mayo Clinic Gen AI investigators have developed 97 AI algorithms in clinical use, with more than 270 algorithms in development. 

To drive AI solutions, Mayo Clinic has partnered with Microsoft and NVIDIA to develop one of the most advanced computing infrastructures of any academic healthcare system in the world, with 264 graphics processing units (GPUs) and 168 GPUs in the cloud.  In July 2025, Mayo Clinic completed a pivotal step in development of our computing power with deployment of the NVIDIA SuperPOD DGX B200 in Mayo Clinic’s Discovery Square in Rochester, MN that is accessible across the Mayo Clinic Enterprise. With scalability up to tens of thousands of GPUs, the efficient liquid-cooled DGX GB200 rack-scale design leverages NVIDIA GB200 Grace Blackwell Superchips to tackle the state-of-the-art AI models needed for today’s advanced generative AI applications that train on massive datasets such as multimodal imaging (CT, MRI, PET) and genomic sequencing data. This computing capability allows us to accelerate AI-driven drug discovery, create visual applications, perform high-resolution imaging analysis, and train state-of-the-art foundation models that have trillions of parameters and must train on as much as a petabyte of data.

With our partners, Mayo Clinic has developed several AI-powered foundational models. With Microsoft Research, we have developed foundation models that can automatically generate reports from radiology images (CT scans and MRIs).  With Cerebras Systems, Mayo Clinic has built one of the first genomics foundational models (STRAND) that combines public data with Mayo Clinic’s patient data of germline genetic sequencing in more than 100,000 patients.  And with NVIDIA and Aignostics, the Mayo Clinic Digital Pathology initiative is using AI to analyze its extensive archive of 20 million digitized slides and has developed a leading pathology foundation model (ATLAS), trained on more than 1.2 million histopathology whole-slide images to accelerate and enhance the accuracy of diagnostic digital pathology. 

Research at Mayo Clinic
In an evolving scientific landscape driven by data and technological advances, Mayo Clinic’s research strategy embodies an unwavering commitment to deliver innovative, effective cures with speed, precision, and purpose. To achieve this, Mayo Clinic Research is advancing a set of strategic priorities for research aligned with its Bold. Forward. vision to shape the future of healthcare.

Mayo Clinic is accelerating scientific discovery by enhancing and streamlining access to its vast biospecimen collection, creating a more unified, collaborative environment, and empowering researchers across disciplines and sites. In parallel, teams are building infrastructure to support the discoverability and utility of digitized data through centralized platforms – including Mayo Clinic Platform and the Mayo Clinic Research Atlas - fostering greater collaboration and innovation within Mayo Clinic and beyond. These foundational capabilities are driving a broader paradigm shift: from reactive treatment to proactive prevention and interception of disease. Building on this vision, Mayo Clinic is pioneering new means of early detection, diagnosis, and treatment for cancer and non-cancer disorders, and for end-organ failure, with goals to extend organ health spans.  We are developing new solutions for cure and diagnostics through sophisticated technologies and designing novel clinical trials to test next-generation therapies. These efforts are converging to revolutionize the clinical trial landscape. Through automation, digital strategies and deeper integration with clinical practice, Mayo Clinic is significantly reducing clinical trial activation timelines, expanding patient access, and improving trial outcomes.

The Genesis initiative is a strategic imperative for the research shield which will drive bold advancements in transplantation and prevention of end-organ failure by creating new capabilities in in-vivo cellular engineering, advanced cell therapies, and bio artificial organ systems. Multidisciplinary teams across heart, lung, liver, kidney, bone marrow, brain and soon pancreas are tackling the most pressing scientific and clinical challenges, supported by cutting-edge tools like epigenetic editing, RNA therapeutics, and machine perfusion. Early-phase “moonshot” projects emerging from the Mayo Clinic Advanced Innovation Research program are already pioneering breakthroughs such as HLA-depleted hearts, bioengineered lungs, liver digital twins, and ischemia-free heart transplants. The Department of Clinical Genomics will play a critical role in the success of these programs by driving innovative scientific discovery and enabling technologies and translational platforms that bridge discovery science with clinical application. By building strategic external partnerships and expanding its ecosystem of collaborators, Mayo Clinic is accelerating discovery-to-translation pathways to deliver next-generation solutions to prevent end-organ failure and to deliver cures for patients.

These initiatives – and the talented people behind them – will bring life-changing innovations and cures to patients faster than ever before. That is why Mayo Clinic remains dedicated to recruiting and retaining a diverse, dynamic research workforce and expanding its research infrastructure. With over 1,174,000 square feet of research space across campuses in Arizona, Florida, and Minnesota and continued investment in growth, Mayo Clinic is positioned to lead the next generation of medical discovery and deliver transformative care to patients worldwide.

Rochester, Minnesota
Mayo Clinic is located in the heart of downtown Rochester, Minnesota, a dynamic city just 75 minutes south of the Twin Cities of Minneapolis and St. Paul. The city is consistently ranked among the best places to live in the United States because of its affordable cost of living, healthy lifestyle, excellent school systems, and exceptionally high quality of life. Rochester is changing to become the world’s premier destination medical center as new buildings fill the skyline that pave the way for initiatives that are unleashing fresh possibilities and make the city a fantastic place to learn, live and play. Distinguished by its culture of caring, spirit of innovation, and fascinating history, Rochester is renowned for its scenic beauty, relaxing pace, and abundant dining, shopping, and entertainment options.

The Bold. Forward. Unbound. initiative is a $5 billion, six-year transformation of Mayo Clinic’s downtown Rochester campus, adding approximately 2.4 million square feet across five new buildings. This expansion reimagines care delivery through flexible, future-oriented designs such as adaptable clinical spaces and integrated digital technologies.   The initiative also involves extensive infrastructure upgrades and phased demolition to support a more connected, patient-centered environment.

To stimulate the translation of discovery science to human applications, facilitate collaboration with biotechnology industry, and expand innovation networks, Mayo Clinic has developed biotechnology research parks and healthcare innovation districts adjacent to each Mayo Clinic campus. Discovery Square is a 16-block district of downtown Rochester, fostering collaborations between biotech industries and MCR investigators.  One Discovery Square opened in 2019 with infrastructure for wet and dry laboratories and houses the Mayo Clinic Center for Regenerative Biotherapeutics (CRB).  CRB is producing several novel cancer therapeutics (gene and virus therapies, cancer vaccines, novel CAR-T agents) which are being tested by Mayo Clinic investigators in clinical trials. In addition to CRB, Discovery Square is now home to 35 biotechnology companies, including Boston Scientific and Phillips.

Qualifications

Recruitment of Basic and Translational Discovery Scientists in Gene Editing

Required Qualifications

PhD or equivalent degree with post-doctoral training in relevant scientific fieldsDemonstrated expertise in genetics and genomics in human cells and tissues and/or in relevant model systemsExperience in developing or applying human and other model systems or disease‑specific cellular platformsProven record of scholarly productivity, including high quality peer‑reviewed publications and peer-reviewed funding and/or industry funding (or clear potential to gain future funding) leading to impactful research contributionsDemonstrated creativity and innovationAbility to contribute to translational genomics programs that integrate discovery science with clinical or therapeutic applicationsStrong communication skills with the ability to collaborate across scientific, clinical, and operational teams

Commitment to Mayo Clinic’s values including teamwork, integrity, innovation, and patient‑centered care

Preferred Qualifications

Experience working in collaborative, multidisciplinary research or clinical environmentsExperience in teaching and mentoring

Clinician Investigators in In Vivo Gene Editing and Therapeutic Delivery

Required Qualifications

Board-certified MD, MD/PhD, or equivalent clinical degree with experience in clinical genetics and/or genomicsExpertise in multiple human gene‑editing or therapeutic genomics modalities and in in vivo therapeutic deliveryProven record of scholarly productivity, including high quality peer‑reviewed publications and sustained peer-reviewed funding and/or industry funding leading to impactful research contributionsDemonstrated creativity and innovationProven track record in innovative translational and clinical research including novel therapeutics and therapeutic development and in the design and conduct of human clinical trials, particularly early phase and first-in-human human clinical trials and single patient INDs.Demonstrated academic leadership in research and clinical practice and program‑building expertiseDemonstrated ability to develop strategies and drive multidisciplinary teams to success

Preferred Qualifications

Experience participating in multi‑institutional research networks or other large, collaborative scientific initiativesExperience in teaching and mentoring



Exemption Status

Exempt

Compensation Detail

The minimum starting salary for medical specialties may range from $154,000 to $663,037. This range reflects full-time total base compensation prior to consideration of additional experience or duties. Pay for the selected candidate will vary based on specialty, experience, FTE, internal equity, or external market data.

Benefits Eligible

Yes

Schedule

Full Time

Hours/Pay Period

80

International Assignment

No

Site Description

Just as our reputation has spread beyond our Minnesota roots, so have our locations. Today, our employees are located at our three major campuses in Phoenix/Scottsdale, Arizona, Jacksonville, Florida, Rochester, Minnesota, and at Mayo Clinic Health System campuses throughout Midwestern communities, and at our international locations. Each Mayo Clinic location is a special place where our employees thrive in both their work and personal lives. Learn more about what each unique Mayo Clinic campus has to offer, and where your best fit is.
Equal Opportunity
All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, gender identity, sexual orientation, national origin, protected veteran status or disability status. Learn more about the "EOE is the Law".  Mayo Clinic participates in E-Verify and may provide the Social Security Administration and, if necessary, the Department of Homeland Security with information from each new employee's Form I-9 to confirm work authorization.

Recruiter

Kate Coleman