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Bioinformatics Analyst Jobs in Indiana (NOW HIRING)

In addition to the wet-lab testings this position also puts an emphasizes on the bioinformatics side of NGS utilizing advanced computational methods to analyze the results obtained from NGS assays.

... Bioinformatics Location Bloomington Position Summary Research Associate - Indiana University ... analysis, PCR, library construction for next-generation sequencing; provide technical support and ...

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Bioinformatics Analyst information

See Indiana salary details

$6

$43

$78

How much do bioinformatics analyst jobs pay per hour?

As of Jul 3, 2026, the average hourly pay for bioinformatics analyst in Indiana is $43.60, according to ZipRecruiter salary data. Most workers in this role earn between $34.33 and $46.68 per hour, depending on experience, location, and employer.

What Does a Bioinformatics Analyst Do?

A bioinformatics analyst works with large databases of omics data, such as genomics studies like the Human Genome Project. Your responsibilities in this career include research on the pathology of diseases and the development of experiments and algorithms to find cures. Your duties also involve ensuring compliance with all federal regulations and protocols. You may document your findings and present them at conferences as well. A career as a bioinformatics analyst requires advanced writing skills for writing scientific literature.

What is the difference between Bioinformatics Analyst vs Bioinformatics Technician?

AspectBioinformatics AnalystBioinformatics Technician
Required CredentialsBachelor's or Master's in Bioinformatics, Biology, or related field; experience with data analysis toolsAssociate's or Bachelor's; focus on data processing and laboratory support
Work EnvironmentResearch labs, biotech companies, healthcare institutionsLaboratories, research facilities, academic settings
Employer & Industry UsageUsed in research, healthcare, biotech industries for data interpretationUsed for data collection, sample processing, and technical support roles

The main difference is that Bioinformatics Analysts focus on analyzing complex biological data and interpreting results, often requiring advanced degrees. Bioinformatics Technicians typically handle data collection, sample preparation, and technical tasks, supporting analysts and researchers. Both roles are essential in the biotech and healthcare industries, but they differ in responsibilities and required qualifications.

What are some common challenges faced by Bioinformatics Analysts when working with large genomic datasets?

One of the main challenges Bioinformatics Analysts encounter is managing and processing extremely large and complex genomic datasets, which often require advanced computational resources and efficient data management strategies. Ensuring data quality and accuracy while integrating information from various sources can also be demanding. Analysts frequently collaborate with biologists, clinicians, and IT professionals to interpret results and optimize workflows, which requires strong communication and interdisciplinary skills.

What does a Bioinformatics Analyst do?

A Bioinformatics Analyst uses computational and statistical methods to analyze biological data, such as DNA, RNA, or protein sequences. They interpret large datasets generated by experiments, develop algorithms, and create visualizations to help researchers understand complex biological processes. Their work supports scientific discoveries in fields like genomics, medicine, and agriculture, often collaborating with biologists, computer scientists, and other researchers.

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

To thrive as a Bioinformatics Analyst, you need a strong background in biology, statistics, and computer science, typically supported by a relevant bachelor's or master's degree. Familiarity with bioinformatics tools like BLAST, Python/R programming, and experience with databases such as GenBank or Ensembl are commonly required. Analytical thinking, problem-solving, and effective communication are crucial soft skills for interpreting data and collaborating with multidisciplinary teams. These skills enable analysts to extract meaningful insights from complex biological data, driving research and innovation in genomics and healthcare.
What are the most commonly searched types of Bioinformatics Analyst jobs in Indiana? The most popular types of Bioinformatics Analyst jobs in Indiana are:
What cities in Indiana are hiring for Bioinformatics Analyst jobs? Cities in Indiana with the most Bioinformatics Analyst job openings:
Infographic showing various Bioinformatics Analyst job openings in Indiana as of June 2026, with employment types broken down into 74% Full Time, 13% Part Time, and 13% Contract. Highlights an 87% In-person, and 13% Remote job distribution, with an average salary of $90,692 per year, or $43.6 per hour.

Bioinformatician

STI

Indianapolis, IN • On-site

Full-time

Posted 22 days ago


Job description

Bioinformatician
Indianapolis, IN
4 Months Contact

Purpose of Position/Summary:
Incumbent is responsible for the study, development, maintenance, and performance of cutting-edge next generation sequencing (NGS) based biological assays in the areas of bacteriology, virology, and parasitology. In addition to the wet-lab testings this position also puts an emphasizes on the bioinformatics side of NGS utilizing advanced computational methods to analyze the results obtained from NGS assays. The incumbent should have experience with developing primer/probe sets, data analysis, and bioinformatic pipeline development.
Essential Duties/Responsibilities:
Incumbent will lead bioinformatic analysis of microbial and viral NGS data to generate actionable laboratory and public health results. Representative duties include:
• Research, develop, design, validate and implement novel NGS-based laboratory assays using advanced computational resources, reproducible programming techniques, and QA methods
• Perform and maintain bioinformatic analysis of NGS data using developed software and workflows.
• Evaluate recent literature and standards in the field and make recommendations and changes to workflows to ensure sequencing analysis procedures are aligned with current best practices in the field.
• Troubleshoot NGS assays and analysis pipelines when needed to ensure the best data is being used to generate data
• Strictly follow the laboratory's procedures for specimen handling and processing, test analyses, reporting and maintaining records of patient test results.
• Extraction of nucleic acids from specimens, isolates, and samples via a variety of manual and automated methods;
• Utilize molecular techniques such as, but not limited to, PCR, sequencing, and NGS;
• Evaluate, interpret, and validate laboratory results and reports findings.
• Maintain quality control of the laboratory processes as well as the analysis process to ensure that data is defendable.
• Maintain an inventory of laboratory supplies and order as needed to ensure testing needs are met.
• Assist in preparations of epidemiological and/or statistical reports from data compiled on a daily, weekly, monthly, or annual basis.
• Maintain competency in all trained areas.
• Perform all related work as required.
• Testing personnel responsibilities (493.1495 Standard):
The testing personnel are responsible for specimen processing, test performance and for reporting test results.
(a) Each individual performs only those high complexity tests that are authorized by the laboratory director and require a degree of skill commensurate with the individual's education, training or experience, and technical abilities.
(b) Each individual performing high complexity testing must-
(1) Follow the laboratory's procedures for specimen handling and
processing, test analyses, reporting and maintaining records of patient
test results;
(2) Maintain records that demonstrate that proficiency testing samples are
tested in the same manner as patient specimens;
(3) Adhere to the laboratory's quality control policies, document all quality
control activities, instrument and procedural calibrations and
maintenance performed;
(4) Follow the laboratory's established policies and procedures whenever
test systems are not within the laboratory's established acceptable levels
of performance;
(5) Be capable of identifying problems that may adversely affect test
performance or reporting of test results and either must correct the
problems or immediately notify the general supervisor, technical
supervisor, clinical consultant, or director;
(6) Document all corrective actions taken when test systems deviate from
the laboratory's established performance specifications; and
(7) Except as specified in paragraph (c) of this section, if qualified under §
493.1489(b)(5), perform high complexity testing only under the onsite,
direct supervision of a general supervisor qualified under § 493.1461.
(c) Exception. For individuals qualified under § 493.1489(b)(5), who were performing
high complexity testing on or before January 19, 1993, the requirements of
paragraph (b)(7) of this section are not effective, provided that all high complexity
testing performed by the individual in the absence of a general supervisor is
reviewed within 24 hours by a general supervisor qualified under § 493.1461.
Job Requirements:
• Extensive knowledge of the principles, theories and practices of molecular biology, NGS and related sub- specialties;
• Specialized knowledge of bioinformatic pipelines, analysis tools, and best practices in analysis of NGS data.
• Specialized knowledge of current scientific methods and testing procedures and the ability to apply them when seeking solutions to public health laboratory problems;
• Specialized knowledge of troubleshooting techniques for NGS applications at the bench level as well as in analysis
• Specialized knowledge of and ability to use a full range of standard technical equipment, complex scientific apparatus, and automated techniques of analysis;
• Extensive knowledge of laboratory safety practices and principles;
• Aware of state and federal laws, rules, regulations, and policies concerning the program area (i.e. CLIA);
• Ability to meet requirements for personnel certification as a technologist pursuant to the Clinical Laboratory Improvement Act (CLIA)
• Ability to effectively communicate technical information both verbally and in writing and maintain productive working relationships;
• Ability to satisfactorily participate in proficiency testing programs and recognize QA problems;
• Ability to compile, analyze, evaluate, and prepare laboratory reports.
Difficulty of Work:
Incumbent is engaged in scientific analyses that demand accuracy and demonstrated proficiency in applying laboratory analytical skills to select pertinent guidelines and formulated plans for problem solving. Projects involve many complex variables of great intricacy and the microbiologist is often called upon to analyze and identify unusual specimens/samples. Work requires use of analytical judgment and technical knowledge in order to draw accurate, logical conclusions. Incumbent will also be required to develop and research new testing procedures as well as the data analysis and reporting of NGS data.
Responsibility:
Incumbent works independently as an expert in the assigned area. Technical and/or detailed instruction is provided only upon request when necessitated by a procedural change and/or special project. Incumbent maintains established safety practices when working with materials that have a chemical hazard or biohazard potential. Reports are reviewed for general technical accuracy; however, tasks are performed independently. Errors in work could adversely affect the health, safety and well being of the incumbent or coworkers.
Personal Work Relationships:
Incumbent works with supervisor and with other State Department of Health staff such as Laboratory Safety Officer and/or external entities (e.g. local health departments, etc.) to devise and implement work procedures and information dissemination. Individual will have contact with employees and the public as a laboratory expert and in the explanation of laboratory procedures and recommendations when appropriate. Incumbent will be the subject matter expert on bioinformatics ascepts of NGS results generated in our laboratory or by external partners.
Physical Effort:
The required personal protective equipment can be cumbersome and awkward. Extra effort and concentration will be necessary to perform routine laboratory manipulations under these conditions.
Working Conditions:
The incumbent will be performing tests on potentially dangerous specimens. Consequently, safety standards are of primary importance. This position will be required to use all appropriate personal protective equipment in the designated laboratory area. The laboratory space and equipment can experience a dramatic increase in temperature. The incumbent will be required to work in these conditions and maintain a clear thought process during the testing.