The Molecular Technologies Department (MTD), within the Wisconsin Crop Innovation Center (WCIC) at the University of Wisconsin - Madison, has an exciting career opportunity for an experienced plant biology focused molecular biologist who will engage in a wide variety of tasks associated with the fast-paced, high-throughput, day-to-day operations of the MTD. Primary responsibility is execution of, via Golden Gate mediated cloning, the plant transformation plasmid assembly strategies devised in collaboration with the MTD Research Manager, for both external fee-for-service clients and WCIC internal Research and Development (R&D) projects. The successful candidate will also be responsible for post-transformation molecular characterization of transgenic plants with multiplexed endpoint PCR analyses and/or transgene copy number measurements made via multiplexed probe based droplet digital PCR assays. Fully analyzed and annotated data will be uploaded daily into the MTD cloud based repository to support timely reporting of results to both external clients and WCIC internal teams. The successful candidate will also be responsible for conducting literature reviews, training junior staff members, and assisting with the development of research methodologies and procedures. There may also be the opportunity to assist with proposals to secure research funding. Additional critical duties include ongoing assistance with curation of MTD stocks of bacterial clones, plasmids, and DNA and RNA extracted from transgenic plants generated by the Production Transformation, R&D, and Greenhouse Teams. Candidate will have an opportunity to engage in research aimed at positively impacting plant transformation and gene editing efficiency for a wide variety of crop plants. Competency with Photoshop, and DNA analysis software (e.g. VectorNTI, SnapGene, and/or Geneious) is preferred. Previous experience in plant biology, Golden Gate cloning, RNA extraction, cDNA synthesis, robot assisted DNA extraction, and design of plant transformation plasmids, PCR primers, PCR probes, and multiplexed PCR assays is preferred. The MTD is within the WCIC, which is a ~100,000 square foot state-of-the-art agricultural biotechnology complex housing laboratories and greenhouses dedicated to the production and analysis of transgenic and gene edited plants. This facility is the largest publicly held plant transformation facility in the United States and is aimed at improving crop plants for humans, livestock, and the environment. People from backgrounds underrepresented in the sciences are strongly encouraged to apply.
The UW-Madison College of Agricultural and Life Sciences is committed to maintaining and growing a culture that embraces diversity, inclusion, and equity, believing that these values are foundational elements of our excellence and fundamental components of a positive and enriching learning and working environment for all students, faculty, and staff.
Apply Online through the University of Wisconsin - Madison Human Resources Department @ https://jobs.hr.wisc.edu/en-us/job/508632/molecular-biologist
UW-Madison is an AA/EEO employer. All qualified applicants will receive consideration for employment without regard to race, religion, color, national origin, sex, age, status as a protected veteran, and status as a qualified individual with a disability.
-Experience working in a molecular lab setting or related experience is required. -Knowledge of Golden Gate cloning, DNA/RNA extractions, PCR, ddPCR, media preparation, and biolistic transformation methods are preferred. -Prior molecular cloning, PCR, and nucleic acid experience is highly desired. -Ability to follow procedures and protocols
Additional Salary Information: Minimum salary shown, actual salary offered is D.O.E.
Internal Number: 232379-AS
About Wisconsin Crop Innovation Center
Wisconsin Crop Innovation Center is a public crop biotechnology service and research center. WCIC enables exploration of plant gene function in the context of extensive crop genome resources and global challenges such as population growth, world hunger, climate instability, and sustainability concerns.
WCIC dramatically increases U.S. translational and functional genomic research potential with the capacity to handle thousands of constructs per year across primary crop and model plant species. Initial fee-for-service offerings will be expanded over time as we work toward technologies to transform and edit cultivars of interest to the research community efficiently and cost-effectively. We are interested in initial partnerships that have the potential to immediately utilize the capacity of WCIC.