Director of Laboratory Operations – Single-molecule Imaging Center

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 a team, comprised of a principle scientific computing engineer, staff scientific computing engineer and scientific computing engineer, whose backgrounds span from computer science and mathematics to mechanical and electrical engineering. 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 maintaining a focus on 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 has been founded on advanced confocal and TIRFM single-molecule fluorescence as well as live-cell imaging microscopes 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. Integrated acquisition and image analysis software is in place. The SMC currently consists of three custom built, sCMOS-based wide-field TIRF microscopes equipped with stopped-flow instrumentation, a modified and elaborated MicroTime200 confocal time-correlated single-photon counting (TCSPC) instrument with 7 laser lines and 4 SPADs together with an ensemble FluoTime300 instrument from PicoQuant, and hybrid live-cell imaging instrumentation. Space and financial support for other types of single-molecule technologies (including optical traps and atomic force microscopes) are available. The SMC is integrated with 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 targetable 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. In collaborations with the Blanchard laboratory at St. Jude, the SMC also has access to the latest generation of “self-healing” fluorophore technologies and non-natural amino acid incorporation technologies that are both fundamental to advancing the single-molecule imaging field.
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.