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Organoid Jobs (NOW HIRING)

Biohub

Postdoctoral Fellow, Live Tissue Omics

Chicago, IL · On-site

$50K - $68K/yr

A central focus of this role is understanding how dynamic gene expression and cell-to-cell transcriptional heterogeneity shape the behavior of immune-competent organoid and ex vivo systems. The ...

Biohub

Manager/ Director, Engineering

Chicago, IL · On-site

Lead the development and integration of advanced robotic systems for liquid handling, organoid handling, environmental control, and assay execution. * Oversee integration of molecular measurement ...

Mass General Brigham

Research Technician I

Boston, MA · On-site

$21 - $29.01/hr

Our research group works with brain 3D organoid model to understand the biological complexity, target identification, and validation in neurodegenerative disease. We are seeking a highly motivated ...

Virginia Tech

Postdoctoral Associate

Blacksburg, VA · On-site

Engineering, Research / Scientific A postdoctoral associate position in the area of organoid design and single-cell methodologies is available in the Department of Chemical Engineering, Virginia ...

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Organoid information

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$25K

$59K

$83.5K

How much do organoid jobs pay per year?

As of Jun 5, 2026, the average yearly pay for organoid in the United States is $59,022.00, according to ZipRecruiter salary data. Most workers in this role earn between $49,000.00 and $66,500.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as an Organoid Research Scientist, and why are they important?

To thrive as an Organoid Research Scientist, you need a background in cell biology, tissue engineering, and molecular biology, typically supported by an advanced degree (PhD or MSc) in a related field. Proficiency in using laboratory equipment such as confocal microscopes, cell culture systems, CRISPR gene-editing tools, and specialized software for data analysis is essential. Strong problem-solving skills, attention to detail, and effective communication help in designing experiments and collaborating with multidisciplinary teams. These skills and qualities are crucial for advancing organoid research, ensuring experimental accuracy, and driving innovation in biomedical science.

What are some typical challenges faced by researchers working with organoids in a laboratory setting?

Researchers working with organoids often encounter challenges such as maintaining reproducibility between batches, optimizing culture conditions for long-term viability, and preventing contamination. Additionally, troubleshooting variability in organoid growth and function can require close collaboration with multidisciplinary teams including biologists, bioengineers, and data analysts. Staying current with evolving protocols and technologies is also important for success in this rapidly advancing field.

What are organoids?

Organoids are three-dimensional, miniature, and simplified versions of organs that are grown in vitro from stem cells. They mimic some of the structure and function of real organs, making them valuable tools for studying human development, disease modeling, and drug testing. Organoids can be derived from various tissues, such as brain, liver, or intestine, offering researchers a more accurate representation of organ behavior compared to traditional cell cultures. Their development has revolutionized biomedical research by providing new opportunities for understanding complex biological processes and personalized medicine.

What is the difference between Organoid vs Cell Culture Technician?

AspectOrganoidCell Culture Technician
Required credentialsTypically requires a degree in biology, biomedical sciences, or related fields; advanced training in 3D cell culture techniquesUsually requires a degree or diploma in biology, biotechnology, or related areas; training in cell culture methods
Work environmentResearch laboratories, biotech companies, academic institutions focusing on 3D tissue modelsLaboratories, biotech firms, hospitals performing routine cell culture procedures
Employer and industry usageUsed in biomedical research, drug development, personalized medicineUsed in research labs, quality control, manufacturing processes involving cell cultures

In summary, an Organoid specializes in creating 3D tissue models for advanced research, requiring specialized skills and training. A Cell Culture Technician performs routine cell cultivation tasks, often with less specialized training, supporting various laboratory functions.

More about Organoid jobs
What cities are hiring for Organoid jobs? Cities with the most Organoid job openings:
What states have the most Organoid jobs? States with the most job openings for Organoid jobs include:
What job categories do people searching Organoid jobs look for? The top searched job categories for Organoid jobs are:
Organoid jobs near you
Infographic showing various Organoid job openings in the United States as of May 2026, with employment types broken down into 94% Full Time, and 6% Part Time. Highlights an 100% In-person job distribution, with an average salary of $59,022 per year, or $28.4 per hour.
Research Scientist-Stem Cell Biology and Embryology

Research Scientist-Stem Cell Biology and Embryology

AgSource

New Brighton, MN • On-site

Full-time

Posted 6 days ago

Job description

Job Description
The Research Scientist-Stem Cell Biology and Embryology will play a key role in advancing innovative approaches in cattle reproductive biology within our Innovation group. This position requires deep expertise in stem cell culture and embryology, supported by a strong foundation in developmental biology or regenerative medicine. The Scientist will lead experimental design, troubleshooting, and protocol development to drive stem cell-based advancements that directly enable next generation commercial breeding applications.
This position reports to the Chief Scientific Officer, Recombinetics (URUS Innovation Group) and will be based in Minneapolis/St. Paul metropolitan area (onsite collaboration required).
RESPONSIBILITIES
Stem Cell Line Development and Optimization
  • Optimize, generate, and culture stem cell lines from various sources.
  • Implement innovations to enhance quality control, consistency, and scalability of stem cell workflows.

Experimental Design, Troubleshooting, and Method Development
  • Lead experimental design and execute studies to improve stem cell cloning applications.
  • Troubleshoot technical challenges and develop/refine protocols to improve reproducibility and outcomes.

Differentiation and Organoid Modeling
  • Develop and optimize protocols for cattle stem cell differentiation.
  • Establish and maintain organoid models for experimental and developmental biology applications.

Data Analysis and Interpretation
  • Analyze and interpret complex datasets, including sequencing and multiomics data.
  • Summarize findings and communicate progress to internal teams with clarity and scientific rigor.

Cross-Functional Collaboration
  • Partner with genomics, data science, and reproductive biology teams to prioritize work streams and align project timelines.
  • Contribute to interdisciplinary planning and decision-making.

Documentation and Quality Management
  • Maintain meticulous experimental records, lab notebooks, and data logs.
  • Develop and maintain SOPs, tracking systems, and documentation frameworks to ensure reliability and transferability of protocols.

Continuous Learning and Innovation
  • Stay current with advances in embryology, stem cell technologies, and organoid culture.
  • Integrate emerging methods and technologies into ongoing workflows where appropriate.

PROFESSIONAL QUALIFICATIONS AND EXPERIENCES
  • Ph.D. in Developmental Biology, Reproductive Biology, Stem Cell Biology, or a related field, or equivalent work experience.
  • Strong scientific foundation and a track record of executing complex experiments with rigor.
  • Proven expertise in stem cells, organoid cultures and/or stem cell differentiation.
  • Experience in developmental biology or regenerative medicine is a plus.
  • Strong understanding of reproductive and molecular biology.
  • Experience with bioinformatics tools, databases, and analysis methods for genomic/proteomic data.
  • Knowledge in probability, statistical modeling, and algorithm design.
  • Experience with generation or analysis of large-scale OMIC datasets (e.g., bulk transcriptomics, epigenetics and single-cell multi-omics.
  • Experience with immunofluorescence analysis, FACS sorting, microdissection, or micromanipulation is highly desirable.
  • Analytical thinking to translate biological questions into computational problems (e.g., integrating multi-omics datasets to identify genotype-phenotype links).
  • Demonstrated ability to independently design, execute, and interpret complex experiments.
  • Strong troubleshooting skills and data driven decision making.
  • Experience mentoring or leading others with high scientific rigor.
  • Excellent communication skills for interdisciplinary teamwork and reporting.
  • Team oriented mindset with willingness to support hands on lab work.
  • Adaptable, proactive, and eager to learn new tools in a fast-paced environment.

About Us
Trans Ova Genetics, a member of the URUS Group, provides industry-leading reproductive technologies and expertise to cattle breeders through a unique professional services team that works closely with clients to understand their breeding goals and ultimately help clients advance and extend superior genetics. Trans Ova Genetics understands the process that will help multiply a herd's genetic success. Reproductive technologies such as embryo transfer, in-vitro fertilization (IVF), sexed-semen, genetic preservation, and cloning are considered the reproductive "tools" available for breeders looking to achieve specific breeding and reproductive goals. Internationally recognized as a source of superior animal husbandry and reproductive expertise, Trans Ova Genetics offers an integrated system of regional centers, satellite stations, and on-farm application of reproductive technologies.
Trans Ova's headquarters are in Sioux Center, Iowa, but we have many offices and satellite centers across the country. On-going research and applied science allow Trans Ova Genetics to develop and implement new technologies to help move the science of bovine genetic improvement forward. Trans Ova is dedicated to meeting the requirements of their customers and to continual improvement.
TOG has deep roots in the industry through its origin within the URUS family of companies. As a holding company with cooperative and private ownership, URUS is a family of businesses at the heart of the dairy and beef industry - Alta Genetics, GENEX, Genetics Australia, Leachman Cattle, Jetstream, PEAK, SCCL, Trans Ova Genetics and VAS. Each organization has its unique identity, products, and services. These companies work globally to provide cutting-edge dairy and beef genetics, customized reproductive services to maximize conceptions, dairy management information to take producers to the frontline of progressive dairy farming, and an array of products and services to help bovines reach their full genetic potential. URUS has 9 brands in 17 retail countries and employs nearly 2,800 people globally.

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