Post Doc Res Assoc

University of Utah

Salt Lake City, UT

JOB DETAILS
SALARY
$65,600–$73,136 Per Year
SKILLS
Analysis Skills, Artificial Intelligence (AI), Assays, Background Investigation, Biochemistry, Bioengineering, Bioinformatics, Biology, Biomedicine, Cell Biology, Code of Federal Regulations, Data Science, Deep Learning, Disability Accommodations, Disease, Editing, Embedded Systems, Employee Benefits, Functional Testing, Gene Therapy, Genetics, Genomics, Grant Writing, High Throughput, Journalism, Leadership, Machine Learning, Mentoring, Metabolic Disorders, Modeling Languages, Molecular Biology, Organizational Skills, Proteomics, Public Safety, Publications, Quality Control, Team Player, University/School Policies
LOCATION
Salt Lake City, UT
POSTED
30+ days ago

Announcement

Details

Open Date 03/27/2026 Requisition Number PRN44612B Job Title Post Doc Res Assoc Working Title Post Doc Res Assoc Career Progression Track A00 Track Level P4 - Advanced, P3 - Career, P2 - Developing, P1 - Entry Level Pro FLSA Code Administrative Patient Sensitive Job Code? No Standard Hours per Week 40 Full Time or Part Time? Full Time Shift Day Work Schedule Summary VP Area U of U Health - Academics Department 01502 - Department of Biochemistry Location Campus City Salt Lake City, UT Type of Recruitment External Posting Pay Rate Range $65,600 to $73,136 Close Date 08/26/2026 Priority Review Date (Note - Posting may close at any time) Job Summary

The Ho lab at the University of Utah is launching an ambitious program to systematically discover, map, and therapeutically harness mitochondrial microproteins to reverse mitochondrial dysfunction in rare and common disease. Microproteins encoded by small open reading frames (smORFs) are an enormous, largely uncharted space of short proteins that regulate core aspects of mitochondrial metabolism, import, and stress responses, and represent a new class of therapeutic targets. Building on our leadership in microprotein discovery and function, we are now expanding in Utah to recruit multiple postdoctoral fellows to apply high throughput methods and machine/deep learning to unlock the full potential of the dark proteome.

Responsibilities

Scientific vision

Ribosome profiling has uncovered nearly 10,000 human microproteins, yet fewer than 1% are functionally characterized, and a substantial fraction appear to localize to mitochondria ("mito-MPs"). Our long‑term goal is to:

  • Create a comprehensive, experimentally validated functional atlas of mitochondrial microproteins
  • Reverse mitochondrial dysfunction in rare mitochondrial diseases as well as common metabolic disorders

Postdocs in the lab will drive one or more of the following thrusts (projects can be tailored to your background):

  • Mapping the mitochondrial microproteome
  • Systems‑level functional mapping of mito‑MPs
  • Hypotheses-driven interrogation of mito-MP biology
  • AI‑guided design of therapeutic microproteins

If you are excited by the idea of treating microproteins as programmable therapeutic modules and want to work at the intersection of mitochondrial biology, functional genomics, and machine learning, we would love to hear from you.

Methods and platforms in the lab

Depending on your project and interests, you will have the opportunity to work with:

  • High‑throughput functional genomics: pooled CRISPR and base‑editing screens, barcoded overexpression libraries, massively parallel reporter assays.
  • Advanced cell and mitochondrial biology: primary human fibroblasts, mitochondrial bioenergetics, import assays, respiratory chain phenotyping, in vivo disease models.
  • Multi‑omics: single‑cell and bulk transcriptomics, untargeted metabolomics, quantitative proteomics.
  • Computational and AI approaches: microprotein bioinformatics, multi‑omic integration, protein language models, generative sequence design, and model interpretability (e.g., SHAP, attention mapping).

The Ho lab culture emphasizes team science, rigorous mechanistic work, and translation; you will join a collaborative network of basic and clinical partners aimed at moving microprotein discoveries toward therapeutic applications.

Ideal candidate profile

We are recruiting multiple postdocs, and strongly encourage applicants from all scientific and personal backgrounds. Ideal candidates will bring expertise in at least one of the following areas, and enthusiasm to learn across disciplines:

  • Mitochondrial biochemistry, bioenergetics, or oxidative phosphorylation.
  • Rare mitochondrial diseases or mitochondrial dysfunction in metabolic disease.
  • Mitochondrial protein import, organelle proteostasis, or quality control.
  • Functional genomics: CRISPR/Cas9 or base‑editing screens, high‑throughput reporter assays.
  • Single‑cell or spatial transcriptomics / proteomics / metabolomics in metabolic or mitochondrial contexts.
  • Microprotein or peptide biology; therapeutic peptide, mRNA, or gene therapy development related to mitochondrial disease.
  • Computational biology / bioinformatics, especially ribosome profiling, disease gene discovery, or integrative multi‑omic analyses.
  • Machine learning for biological data (e.g., protein language models, transformers, generative models) and interest in building interpretable tools for experimental colleagues.

Qualifications

  • PhD or MD‑PhD in a relevant field (e.g., Biochemistry, Molecular Biology, Genetics, Systems Biology, Bioengineering, Computational Biology, Biomedical Data Science).
  • Strong publication record for your career stage and evidence of driving projects to completion.
  • Demonstrated critical and creative thinking, with the ability to formulate and test mechanistic hypotheses.
  • Independence and strong organizational skills, coupled with enjoyment of close collaboration and mentoring in a team setting.

Prior experience in every technique listed is not required; we expect you to have depth in one area and motivation to expand your toolkit in others.

What we offer

  • A highly collaborative, supportive environment spanning wet‑lab, computational, and translational efforts, embedded in the Department of Biochemistry at the University of Utah.
  • Clear lines of sight to high‑impact publications and therapeutic development.
  • Structured mentoring to help you define your scientific niche, build an independent research vision, and prepare competitive grant and faculty applications.
  • Access to state‑of‑the‑art core facilities and an extensive network of international collaborators in mitochondrial biology, microproteins, and therapeutic development.

How to apply

Please email the following materials to lena@ho-lab.org with the subject line "Postdoctoral application - Microproteins & Mitochondria":

  • CV including publication list.

  • A 1-2 page statement of purpose describing:

  • Your past research experience.

  • How your skills intersect with our program's goals.

  • One or two scientific questions you would be excited to pursue within the themes above.

  • Contact information for 2-3 referees.

Informal inquiries are welcome if you would like to discuss fit or project directions before applying. For more information on our work, please visit www.ho-lab.org.

Minimum Qualifications Preferences Type Benefited Staff Special Instructions Summary Additional Information

The University is a participating employer with Utah Retirement Systems ("URS"). Eligible new hires with prior URS service, may elect to enroll in URS if they make the election before they become eligible for retirement (usually the first day of work). Contact Human Resources at (801) 581-7447 for information. Individuals who previously retired and are receiving monthly retirement benefits from URS are subject to URS' post-retirement rules and restrictions. Please contact Utah Retirement Systems at (801) 366-7770 or (800) 695-4877 or University Human Resource Management at (801) 581-7447 if you have questions regarding the post-retirement rules.

This position may require the successful completion of a criminal background check and/or drug screen.

The University of Utah values candidates who have experience working in settings with students and possess a strong commitment to improving access to higher education.

Veterans' preference is extended to qualified applicants, upon request and consistent with University policy and Utah state law. Upon request, reasonable accommodations in the application process will be provided to individuals with disabilities.

Consistent with state and federal law, the University of Utah does not discriminate based upon race, ethnicity, color, religion, national origin, age, disability, sex, sexual orientation, gender, gender identity, gender expression, pregnancy, pregnancy-related conditions, genetic information, or protected veteran's status. The University does not discriminate on the basis of sex in the education program or activity that it operates, as required by Title IX and 34 CFR part 106. The requirement not to discriminate in education programs or activities extends to admission and employment. Inquiries about the application of Title IX and its regulations may be referred to the Title IX Coordinator, to the Department of Education, Office for Civil Rights, or both.

To request a reasonable accommodation for a disability or if you or someone you know has experienced discrimination or sexual misconduct including sexual harassment, you may contact the Director/Title IX Coordinator in the Office of Equal Opportunity and Title IX (OEO). More information, including the Director/Title IX Coordinator's office address, electronic mail address, and telephone number can be located at the: University of Utah Non‑Discrimination page.

Online reports may be submitted at https://oeo.utah.edu

https://publicsafety.utah.edu/safetyreport/ This report includes statistics about criminal offenses, hate crimes, arrests and referrals for disciplinary action, and Violence Against Women Act offenses. They also provide information about safety and security-related services offered by the University of Utah. A paper copy can be obtained by request at the Department of Public Safety located at 1658 East 500 South.

As per University of Utah policy 5-108: Transfer of Benefits Eligible Staff Members, a new hire to the University of Utah who is still serving a 12 month probationary period will not be hired into another University of Utah job (a transfer) until the successful completion of the probationary period.

Posting Specific Questions

Required fields are indicated with an asterisk (*).

    • Do you meet the minimum qualifications of the position as specified in the job posting?
  • Yes
  • No

Applicant Documents

Required Documents

Optional Documents

  • Resume
  • Cover Letter
  • Historical Only - Do Not Use - See Document Description for More Information - Addendum to the University of Utah - Veteran Only
  • Historical Only - Do Not Use - See Description for More Information - Appropriate discharge document (such as DD-2214) - Veteran Only

About the Company

U

University of Utah

The state’s oldest and largest institution of higher education, the University of Utah is the flagship university of the state. The University offers more than 100 undergraduate and 90 graduate degree programs to more than 31,000 students (23,500 undergraduate and 7,500 graduate). The University is noted for its high research profile, its diversity of ideas and people, its stunningly beautiful setting and the warmth, friendliness, and collegiality of its faculty staff, and students. Imagine yourself working in a collaborative, creative, respectful environment where everyone’s contribution is needed and appreciated – University of Utah!

COMPANY SIZE
1,500 to 1,999 employees
INDUSTRY
Education
FOUNDED
1850
WEBSITE
http://www.utah.edu/