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Microbiome Jobs (NOW HIRING)

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Microbiome information

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$62.8K

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How much do microbiome jobs pay per year?

As of Jul 7, 2026, the average yearly pay for microbiome in the United States is $62,839.00, according to ZipRecruiter salary data. Most workers in this role earn between $42,000.00 and $79,500.00 per year, depending on experience, location, and employer.

What is a Microbiome job?

A microbiome job involves studying microbial communities that inhabit environments such as the human body, soil, or water. Professionals in this field analyze how these microorganisms interact, influence health, and impact ecosystems. Roles may include research scientists, bioinformaticians, or clinical microbiologists working in academia, healthcare, or biotechnology. Responsibilities often involve conducting experiments, sequencing microbial DNA, and interpreting data to develop applications in medicine, agriculture, or environmental science.

What are the typical career paths and advancement opportunities for professionals working in the microbiome field?

Professionals in the microbiome field often start as research associates, lab technicians, or junior scientists and can advance to lead scientist, project manager, or principal investigator roles over time. Opportunities for advancement may also include transitioning into regulatory affairs, clinical development, or business development within biotech, pharmaceutical, or academic organizations. Many organizations encourage further specialization in areas like data science, immunology, or product development, and provide support for conference participation and publication of research. Collaborating with interdisciplinary teams is common and helps broaden professional networks and skillsets. Overall, the field is rapidly evolving, offering ample opportunities for growth, innovation, and meaningful contributions to human and environmental health.

What are the key skills and qualifications needed to thrive in the Microbiome position, and why are they important?

To excel in a microbiome scientist or researcher role, a strong background in microbiology, bioinformatics, and molecular biology—typically supported by an advanced degree such as a PhD or MSc—is required. Familiarity with technical tools like next-generation sequencing (NGS) platforms, metagenomic data analysis software, and statistical programming languages (e.g., R or Python) is essential. Critical thinking, attention to detail, and excellent collaboration and communication skills elevate performance in team-based research environments. These competencies are vital for advancing scientific understanding, troubleshooting experiments, and translating findings into impactful applications.

More about Microbiome jobs
What cities are hiring for Microbiome jobs? Cities with the most Microbiome job openings:
What are the most commonly searched types of Microbiome jobs? The most popular types of Microbiome jobs are:
What states have the most Microbiome jobs? States with the most job openings for Microbiome jobs include:
Infographic showing various Microbiome job openings in the United States as of July 2026, with employment types broken down into 98% Full Time, and 2% Part Time. Highlights an 98% Physical, and 2% Remote job distribution, with an average salary of $62,839 per year, or $30.2 per hour.

Microbiome Computational Scientist

Massgeneralbrigham

Boston, MA

Full-time

Posted 21 days ago


Job description

Site: The Brigham and Women's Hospital, Inc.


Mass General Brigham relies on a wide range of professionals, including doctors, nurses, business people, tech experts, researchers, and systems analysts to advance our mission. As a not-for-profit, we support patient care, research, teaching, and community service, striving to provide exceptional care. We believe that high-performing teams drive groundbreaking medical discoveries and invite all applicants to join us and experience what it means to be part of Mass General Brigham.


Job Summary

PLEASE SUBMIT A COVER LETTER WITH YOUR APPLICATION.
The Microbiome AI/Deep Learning Lab in the Massachusetts Host-Microbiome Center and Division of Computational Pathology at Brigham and Women's Hospital/Harvard Medical School is seeking a computational scientist with experience in microbiome bioinformatics and machine learning. You will develop, deploy, and apply microbiome and bioinformatics machine learning approaches, with a special emphasis on deep learning, to a variety of microbiology data sources. Applications will include forecasting microbial population dynamics in the gut, characterizing the impact of spatial structure of the microbiome, predicting impact of the microbiome on host phenotype, tracking infections in human populations, elucidating microbial metabolism, and discovering functions of uncharacterized microbial metabolites and proteins.
Applicants should have a high level of interest in:
A long-term career in an academic medical environment, with the potential for your work to have a direct impact on healthcare outcomes.
Applying new deep learning technologies to biomedical problems.
Advancing knowledge of the microbiome and its role in human health and disease.
Working on an interdisciplinary team and collaborating with computational, wet lab and clinical scientists.
Engaging with the broader research community to advance applications of AI/deep learning for the microbiome.
About the environment: The Microbiome AI/Deep Learning Lab is an initiative within the Massachusetts Host-Microbiome Center (MHMC) and the Division of Computational Pathology (DCP) at Brigham and Women's Hospital (BWH)/Harvard Medical School (HMS). With recent funding from the Massachusetts Life Sciences Center, the Lab has built a state-of-the-art compute cluster with extensive GPU and CPU nodes, with the objective of making advanced deep learning technologies broadly available to microbiome researchers. The MHMC is a research and core facility that has worked with 100+ groups in the US and internationally to promote understanding of host-microbiome interactions in health and disease, emphasizing a focus on function to define causative effects of the microbiota and to harness this knowledge in developing new therapies, diagnostics and further commercial applications. The DCP is a research division with a broad mandate to develop and apply advanced computational methods for furthering the understanding, diagnosis and treatment of human diseases. BWH is an HMS affiliated teaching hospital, adjacent to the HMS main quad, and the second largest non-university recipient of NIH research funding.
PRINCIPAL DUTIES AND RESPONSIBILITIES:
Engage in research developing and applying bioinformatic and machine learning approaches, for a variety of microbiology data sources, including next generation sequencing and metabolomic data.
Substantially contribute to scientific publications and grant applications.
Analyze datasets and produce visualizations and written reports about scientific findings.
Deploy computational pipelines on local workstations and on high performance CPU and GPU clusters.
Organize and curate large datasets using structured approaches, including database systems.
Engage with trainees and other users of the MHMC to facilitate use of computing resources and application of machine learning technologies for the microbiome.
Other duties as assigned.


Qualifications

QUALIFICATIONS:

  • PhD in Computational Biology, Computer Science, or related quantitative discipline.
  • Experience analyzing microbiome data and machine learning applications demonstrated through authorship on high-quality, peer-reviewed scientific publications.
  • 3+ years minimum Python programming experience.
  • 3+ years minimum experience working in high-performance computing environments.
  • Experience with microbiome bioinformatics methods and pipelines for next generation sequencing data analysis.
  • Experience with organizing and managing large multi-omics datasets.
  • Strong verbal and written communication, and interpersonal skills.
  • Experience with deep learning and PyTorch is highly desired

SKILLS/ABILITIES/COMPETENCIES REQUIRED:

  • Must be capable of contributing within an interdisciplinary team, exhibit a high level of initiative, and have an eagerness to learn new technologies.
  • Ability to manage entire projects in a research environment, from design to implementation, and interpretation of final results.
  • Must have experience analyzing microbiome data.
  • Must possess advanced knowledge of machine learning, including model development, training, testing and deploying.
  • Demonstrated ability to develop and implement computational approaches for analyzing complex biomedical datasets including next generation sequencing data.
  • Demonstrated ability to manage large and complex biomedical datasets, using tools such as databases.
  • Excellent written and verbal communication skills with demonstrated ability to communicate complex results to both technical and non-technical audiences, through publications and presentations.
  • Ability to implement machine learning methods in Python; experience with deep learning and using PyTorch is highly desired.
  • Knowledge of software engineering best practices, including source code management/control (e.g., Git) and containerization approaches.
  • Experience with high-performance computing environments, including scheduling systems, e.g., SLURM.
  • Ability to multitask and prioritize work, to achieve desired goals and deliverables.
  • Ability to share expertise, coach, and give general direction to others of different skill sets, backgrounds and levels.


Additional Job Details (if applicable)


Remote Type

Onsite


Work Location

60 Fenwood Road


Scheduled Weekly Hours

40


Employee Type

Regular


Work Shift

Day (United States of America)


Pay Range

$93,953.60 - $136,739.20/Annual


Grade

7


At Mass General Brigham, we believe in recognizing and rewarding the unique value each team member brings to our organization. Our approach to determining base pay is comprehensive, and any offer extended will take into account your skills, relevant experience if applicable, education, certifications and other essential factors. The base pay information provided offers an estimate based on the minimum job qualifications; however, it does not encompass all elements contributing to your total compensation package. In addition to competitive base pay, we offer comprehensive benefits, career advancement opportunities, differentials, premiums and bonuses as applicable and recognition programs designed to celebrate your contributions and support your professional growth. We invite you to apply, and our Talent Acquisition team will provide an overview of your potential compensation and benefits package.


EEO Statement:

2200 The Brigham and Women's Hospital, Inc. is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religious creed, national origin, sex, age, gender identity, disability, sexual orientation, military service, genetic information, and/or other status protected under law. We will ensure that all individuals with a disability are provided a reasonable accommodation to participate in the job application or interview process, to perform essential job functions, and to receive other benefits and privileges of employment. To ensure reasonable accommodation for individuals protected by Section 503 of the Rehabilitation Act of 1973, the Vietnam Veteran's Readjustment Act of 1974, and Title I of the Americans with Disabilities Act of 1990, applicants who require accommodation in the job application process may contact Human Resources at (857)-282-7642.


Mass General Brigham Competency Framework

At Mass General Brigham, our competency framework defines what effective leadership "looks like" by specifying which behaviors are most critical for successful performance at each job level. The framework is comprised of ten competencies (half People-Focused, half Performance-Focused) and are defined by observable and measurable skills and behaviors that contribute to workplace effectiveness and career success. These competencies are used to evaluate performance, make hiring decisions, identify development needs, mobilize employees across our system, and establish a strong talent pipeline.