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Position Summary

The team of investigators from Michigan State University, Argonne National Laboratory and Lawrence Berkeley National Laboratory will work together  to acquire a fundamental understanding of how multi-step reaction pathways are confined within and optimized by selectively permeable protein-based shells of Bacterial Microcompartments (BMCs).  The CCBC will apply this knowledge to establish BMC shell proteins as building blocks that can be used for confined, hierarchically-ordered biological and synthetic multi-step catalysis for reactions with long-range goals that involve addressing global challenges related to energy and the environment.

Several Postdoctoral positions, either computational or experimental, are available at MSU, research areas include biochemistry, structural and synthetic biology and computational modeling:

In the Ducat lab, a postdoctoral research associate is sought for research involving the expression/engineering of carboxysomes and other bacterial microcompartments in vivo within prokaryotes, including cyanobacteria. Successful candidates will have demonstrated productivity commensurate with their career stage involving molecular biology, microscopy, biochemical techniques, and/or model cyanobacterial species.

In the Feig lab, a postdoctoral research associate is sought to study crowding, confinement, and assembly questions related to bacterial microcompartments via computational modeling and simulation. A background in biophysics or physical chemistry along with experience in molecular dynamics simulations, multi-scale approaches including coarse-grained modeling, and programming in python or other computer languages are desired. A record of peer-reviewed publications is expected to document past research experiences.

In the Hausinger lab, a postdoctoral research assocciate position is available focused on construction of closed and open-shell bacterial microcompartments containing 2-aminophenol 1,6-dioxygenase and investigation of the effects of enzyme confinement on its activity.

In the Hegg lab, a postdoctoral research associate is sought to encapsulate cytochrome c nitrite reductase in bacterial microcompartments to reduce nitrogen compounds to ammonia, a promising energy storage molecule. The position will employ a combination of molecular biology, biochemistry, enzymology, kinetics, and spectroscopy to probe the role of confinement and enzyme organization on multi-electron redox reactions.

In the Kerfeld lab, postdoctoral research associate position is available involving protein/enzyme biochemistry, functional and structural characterization (including EM techniques, x-ray crystallography, x-ray footprinting), and synthetic biology-based approaches in vitro and in E. coli.

The TerAvest laboratory is seeking a molecular biologist or synthetic biologist postdoctoral research associate to create engineered bacterial microcompartments containing enzymes to catalyze specific reactions and to model and measure the rates of those reactions inside and outside of the compartments. Successful candidates will have experience with simultaneous expression of multiple heterologous proteins in bacteria, UV-Vis spectroscopy, analytical chemistry (HPLC and/or GC), and a publication record commensurate with their career stage.

In the Vermaas lab, a computational chemist or biophysicist postdoctoral research associate is sought to characterize permeation across bacterial microcompartment proteins for small organic molecules through equilibrium and non-equilibrium classical molecular dynamics simulations in the Vermaas laboratory. Successful candidates will have prior experience with molecular dynamics simulation in any molecular simulation engine, with a publication record commensurate with their career stage.

Equal Employment Opportunity Statement

All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, citizenship, age, disability or protected veteran status.

Required Degree

Doctorate -biochemistry, structural and synthetic biology and computational modeling

Minimum Requirements

PhD in  biochemistry, structural and synthetic biology and computational modeling

Desired Qualifications

Experience with biochemistry, structural and synthetic biology and computational modeling as it relates to compartmentalization in bacteria.

Required Application Materials

• CV required
• Cover letter that indicates which position you have interest 

Together-we-will Statement

Special Instructions

Submit CV and list of 3 named references

Review of Applications Begins On

10/10/2022

MSU Statement

Michigan State University has been advancing the common good with uncommon will for more than 160 years. One of the top research universities in the world, MSU pushes the boundaries of discovery and forges enduring partnerships to solve the most pressing global challenges while providing life-changing opportunities to a diverse and inclusive academic community through more than 200 programs of study in 17 degree-granting colleges.

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About Michigan State University

Spartans work every day to advance the common good in uncommon ways.Together, we tackle some of the world?s toughest problems to find solutions that make life better?from alternative energy to better food safety to breakthrough medical and environmental applications achieved through rare isotope research.We teach. We explore and we discover. We collaborate and lead. We innovate, inspire, and empower. We achieve our potential and create circumstances that help our students and others achieve theirs.We're good at it, and we've been at it for more than 150 years.The nation?s pioneer land-grant university, MSU began as a bold experiment that democratized higher education and helped bring science and innovation into everyday life. The revolutionary concept became a model for the nation.Today, MSU is one of the top research universities in the world?on one of the biggest, greenest campuses in the nation. Home to nationally ranked and recognized academic, residential college, and service-learning programs, we?re a diverse community of dedicated students and scholars, athletes and artists, scientists and leaders.In ways both practical and profound, we work to create a stronger, more sustainable, and more hopeful future for all.

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