1

Bioinformatics Engineering Jobs in Tennessee (NOW HIRING)

next page

Showing results 1-20

Bioinformatics Engineering information

What is the difference between Bioinformatics Engineering vs Bioinformatics Analyst?

AspectBioinformatics EngineeringBioinformatics Analyst
Required CredentialsBachelor's or Master's in Bioinformatics, Computer Science, or related fields; programming skillsBachelor's or Master's in Bioinformatics, Biology, or related fields; data analysis skills
Work EnvironmentResearch labs, biotech companies, healthcare institutionsResearch institutions, healthcare, pharmaceutical companies
Employer & Industry UsageDevelops tools, pipelines, and software for data analysisInterprets data, generates reports, supports research projects

Bioinformatics Engineering focuses on developing software and pipelines for data processing, requiring programming expertise. In contrast, Bioinformatics Analysts primarily interpret data and generate insights, often with a stronger emphasis on biological knowledge. Both roles are vital in biotech and healthcare industries, but they differ in technical scope and daily tasks.

What is a bioinformatics engineer?

A bioinformatics engineer is a professional who develops and applies computational tools and techniques to analyze and interpret biological data, such as DNA sequences or protein structures. They combine expertise in computer science, biology, and mathematics to create software, manage databases, and solve complex biological problems. Bioinformatics engineers often work in research, pharmaceuticals, healthcare, and biotechnology industries to help advance scientific discoveries and medical innovations.

What engineers make $500,000?

Senior bioinformatics engineers with extensive experience, advanced skills in programming, data analysis, and familiarity with tools like Python, R, and cloud platforms can reach salaries of $500,000 or more, especially in high-demand industries such as biotech and pharmaceuticals. Achieving this level often requires a combination of technical expertise, leadership roles, and sometimes stock options or bonuses.

Is there a demand for bioengineers?

Bioinformatics engineers are in high demand due to the growth of personalized medicine, genomics, and biotechnology industries. They often work with tools like sequencing technologies and programming languages such as Python or R, and strong analytical skills are essential for success in this field.

How do bioinformatics engineers typically collaborate with biologists and data scientists in a research setting?

Bioinformatics engineers frequently work in cross-disciplinary teams, partnering closely with biologists to understand experimental goals and with data scientists to analyze complex datasets. Effective communication is key, as engineers must translate biological questions into computational workflows and interpret results in a way that is meaningful to non-technical team members. This collaborative approach not only accelerates research but also helps engineers gain a deeper understanding of biological processes, which can lead to more innovative solutions and professional growth.

What are the key skills and qualifications needed to thrive as a Bioinformatics Engineer, and why are they important?

To thrive as a Bioinformatics Engineer, you need a solid background in biology, computer science, and statistics, often supported by a degree in bioinformatics or a related field. Familiarity with programming languages like Python or R, experience with bioinformatics tools (e.g., BLAST, GATK), and proficiency with databases and cloud computing platforms are typically required. Strong problem-solving, analytical thinking, and collaboration skills set standout professionals apart in this interdisciplinary field. These competencies are crucial for effectively analyzing complex biological data and driving innovation in life sciences research.

What do bioinformatics engineers do?

Bioinformatics engineers develop and implement computational tools and algorithms to analyze biological data, such as genetic sequences and molecular structures. They often work with programming languages like Python or R, utilize databases, and collaborate with biologists to interpret data for research and medical applications.

What engineers make $300,000 a year?

Senior bioinformatics engineers with extensive experience, advanced skills in programming, data analysis, and familiarity with tools like Python, R, and cloud platforms can reach or exceed a $300,000 annual salary, especially in high-demand biotech or pharmaceutical industries. Such roles often require advanced degrees and leadership responsibilities, with compensation reflecting expertise and impact on research or product development.
What are popular job titles related to Bioinformatics Engineering jobs in Tennessee? For Bioinformatics Engineering jobs in Tennessee, the most frequently searched job titles are:
What cities in Tennessee are hiring for Bioinformatics Engineering jobs? Cities in Tennessee with the most Bioinformatics Engineering job openings:
Director of Scientific Research, Single-molecule Imaging Center

Director of Scientific Research, Single-molecule Imaging Center

St. Jude Children's Research Hospital

Memphis, TN • On-site

Full-time

Medical, Dental, Vision, Life, Retirement, PTO

Posted 5 days ago


St. Jude Children's Research Hospital rating

8.4

Company rating: 8.4 out of 10

Based on 9 frontline employees who took The Breakroom Quiz

61st of 1,004 rated hospitals


Job description

The Department of Structural Biology at St Jude Children's Research Hospital is seeking to hire a Director of the Single-Molecule imaging Center (SMC) to lead an interdisciplinary team, whose backgrounds span computer science, engineering, applied math, biophysics and biology, to advance the frontiers of single-molecule research while also implementing focused strategies to work with non-experts seeking to incorporate single-molecule methods into their discovery pipeline.
The World's Brightest Minds Always Innovate
At St. Jude Children's Research Hospital, we know what can be achieved when the brightest scientific minds face the fewest barriers. That's why we provide world-class facilities. State-of-the-art technologies. Extraordinary support. And a collaborative, bench-to-bedside environment where you can see, firsthand, how your science translates into survival for the children we serve. Quite simply, at St. Jude, we encourage you to dream big and stop at nothing when it comes to finding cures and saving children.
Summary
The ideal candidate has extensive experience developing and utilizing single-molecule fluorescence microscopy methods to reveal new insights in biology and/or medicine and sufficient technical background to design and implement hardware and software solutions that facilitate instrument stability, experimental throughput and Center accessibility as well as teach and disseminate knowledge to non-experts.
The mission of the SMC at St. Jude is to push the frontiers of single-molecule methods development across multiple modalities, while making these technologies accessible to a broad user base of biology-focused scientists within the department of Structural Biology, and across the Institution and its affiliates.
The SMC is integrated into a community of institutionally-funded laboratories and innovation centers at St. Jude, each with their own dedicated staff, including the Cryo-EM Center, the Protein Technology Center, the Cell and Tissue Imaging Center, The Center for Bioimage Informatics, The Center for Applied Bioinformatics, the Center of Excellence for Data-driven Discovery and the Center for Advanced Genome Engineering (CAGE).
The SMC houses a variety of cutting-edge single-molecule instruments, both in vitro and in living cells, with a mission to utilize these technologies for high-impact projects that advance the understanding and treatment of catastrophic childhood diseases, including infectious diseases and cancers. This includes instruments for confocal time-correlated single-photon counting (PicoQuant MT200), spinning disk confocal, objective-based TIRF, prism-based TIRF, combined fluorescence and optical trap (Lumicks C-Trap), and DNA curtain measurements. While some instruments have commercial foundations, most have been customized, or home-built, to maximize data quality, throughput, time resolution, and ease of use by non-experts. To facilitate engagement and the data colletion-to-publication processes, the SMCmaintains bespoke software tools for instrument control, data acquisition (FLASH), and data analysis (SPARTAN) softwares,which are disseminated for widespread use by the single-molecule community.
The SMC is integrated with other resources at St Jude that provide access to 3D printers, laser engravers, an on-site machine shop for creating custom-engineered microscope hardware, high-performance computing resources for software development and data management, as well as technology infrastructures for surface chemistry and microfluidics.
Technologies within the SMC have enabled discoveries in a wide variety of biological systems, including the cystic fibrosis transmembrane receptor (CFTR), β-arrestins, G-protein coupled receptors (GPCRs), transporters, riboswitches, periplasmic amino acid binding proteins, bacterial/human ribosomes, whole viral particles, and more.
The successful candidate will continue this history of success by guiding collaborators to achieve single molecule resolution to a wide variety of clinically important biological systems.
Responsibilities
  • Direct Center activity on a day-to-day basis to ensure staff are efficiently tasked, instruments are properly functioning and correctly utilized, and data is appropriately managed.
  • Lead the planning and implementation of experimental strategies and next generation instruments to ensure the Center stays at the technological frontier.
  • Oversee and contribute to the development of software tools for instrument control, data analysis, and project management, pursuing continued technical advances while ensuring seamless operations.
  • Lead high-impact collaborations with laboratories at St Jude to leverage single-molecule methods for investigations of diverse biological systems with scientists who may not have previous experience.
  • Lead internal projects that advance the state-of-the-art methods enabling single-molecule research, including the design of new instrumentation that implements innovations in surface chemistry, fluorophore engineering, optical treatments, microfluidic strategies, camera technologies, software developments, and algorithms for robust analyses.
  • Establish policies and procedures for users and staff to maximize the productivity of Center resources and keep the instruments performing optimally.
  • Serve as manager for SMC staff members with diverse technical backgrounds.
  • Participate and contribute to seminars and conferences to present research findings, keep up-to-date on scientific research and emerging imaging technologies, disseminate knowledge about single-molecule methods and quantitation and recruit talent to the SMC and St. Jude.

Minimum Education and/or Training
  • Bachelor's degree in relevant scientific discipline is required.

Minimum Experience:
  • 10+ years of experience in relevant technical field (industry or academia) is required with a Bachelor's degree.
  • 8+ years of experience in relevant technical field is required with a Master's degree.
  • 5+ years of experience in relevant technical field is required with a Ph.D.
  • Significant experience in a research functional area with experience managing mid-large teams in a leadership capacity with focus on both achievement of objectives as well as critical skill-building preferred.
  • Experience having led large-scale projects/processes through to implementation preferred.
  • Experience with operational management., budget planning, and stakeholder and resource management preferred.
  • Prior experience in building external connections with peers, emerging technology communities, and expert networks preferred.
  • Experience driving research objectives across area through collaboration with internal and external stakeholders preferred.
  • Proven performance in earlier role/comparable role.

Desired Experience
  • Ph.D. in physical sciences (physics, biology, computer science, etc.) with 10 years post-graduate experience.
  • Strong publication record demonstrating the power of single-molecule research to solve important questions in biology and/or medicine.
  • Experience building and maintaining custom single-molecule platforms.
  • Software engineering experience with MATLAB, Python, LabVIEW, and C++. Experience with version control and issue tracking with GitHub.

Better at Work. Better at Life.
When you work at St. Jude, you'll join a highly collaborative work culture that inspires you every day to be your best. With opportunities for learning and growth, you can shape a career path that is right for you while also enjoying all the benefits and stability of working for a world-class institution. This includes work-life balance with generous paid time-off and on-campus conveniences that make life a little easier. Join us and you'll quickly see why St. Jude is consistently ranked by our employees on Glassdoor as a "Best Place to Work."
Benefits
Your health and well-being are important to us. That's why St. Jude Children's Research Hospital provides employees with high-quality benefits choices.
We are committed to ensuring our benefits are competitive and affordable. St. Jude continues to cover medical premiums for employees and offers low additional costs for dependents.
View all the benefits offered including Medical & Prescription Drug Plans, Dental Plan, Vision Plan, Financial Security, Retirement Plan, Living Well - Employee Wellness Program, Time Off Programs, Educational Benefits, Family Friendly Benefits, and Benefits Unique to St. Jude.
Have More in Memphis
Get the best of big-city amenities mixed with all the charm of a small-town feel when you live in Memphis. From our world-renowned music scene to our eclectic mix of food and people. Memphis is a place our employees are proud to call home. Our region enjoys a cost of living more than 20% lower than the national average and our state places no personal income tax on wages. Plus, Memphians spend five hours less per year in their daily commute compared to the national average. Learn how you can "Have More in Memphis."
Compensation
In recognition of certain U.S. state and municipal pay transparency laws, St. Jude is including a reasonable estimate of the compensation range for this role. This is an estimate offered in good faith and a specific salary offer takes into account factors that are considered in making compensation decisions including but not limited to skill sets, experience and training, licensure and certifications, and other business and organizational needs. It is not typical for an individual to be hired at or near the top of the salary range and compensation decisions are dependent on the facts and circumstances of each case. A reasonable estimate of the current salary range is $125,840 - $238,160 per year for the role of Director of Scientific Research, Single-molecule Imaging Center.
Explore our exceptional benefits!
St. Jude is an Equal Opportunity Employer
No Search Firms
St. Jude Children's Research Hospital does not accept unsolicited assistance from search firms for employment opportunities. Please do not call or email. All resumes submitted by search firms to any employee or other representative at St. Jude via email, the internet or in any form and/or method without a valid written search agreement in place and approved by HR will result in no fee being paid in the event the candidate is hired by St. Jude.

What St. Jude Children's Research Hospital employees say

Pay

Benefits

Hours and flexibility

Workplace

Get the full story on Breakroom