@misc{overton_boi_shastry_smith-moore_balchunas_sambandan_gilleskie_2023, title={Development and Delivery of a Hands-On Short Course in Adeno-Associated Virus Manufacturing to Support Growing Workforce Needs in Gene Therapy}, volume={34}, ISSN={["1557-7422"]}, url={http://dx.doi.org/10.1089/hum.2022.235}, DOI={10.1089/hum.2022.235}, abstractNote={The manufacturing of gene therapy products is a rapidly growing industry bolstered by the tremendous potential of these therapies to provide lifesaving treatment for rare and complex genetic diseases. The industry's steep rise has resulted in a high demand for skilled staff required to manufacture gene therapy products of the expected high quality. To address this skill shortage, more opportunities for education and training in all aspects of gene therapy manufacturing are needed. The Biomanufacturing Training and Education Center (BTEC) at the North Carolina State University (NC State) has developed and delivered (and continues to deliver) a four-day, hands-on course titled Hands-On cGMP Biomanufacturing of Vectors for Gene Therapy. The course, which consists of 60% hands-on laboratory activities and 40% lectures, aims to provide a comprehensive understanding of the gene therapy production process, from vial thaw through the final formulation step, and analytical testing. This paper discusses the design of the course, the backgrounds of the nearly 80 students who have participated in the seven offerings held since March 2019, and feedback from the course participants.}, number={7-8}, journal={HUMAN GENE THERAPY}, publisher={Mary Ann Liebert Inc}, author={Overton, Laurie and Boi, Cristiana and Shastry, Shriarjun and Smith-Moore, Caroline and Balchunas, John and Sambandan, Deepa and Gilleskie, Gary}, year={2023}, month={Apr}, pages={259–272} }
 @misc{smith-moore_grunden_2018, title={Bacteria and archaea as the sources of traits for enhanced plant phenotypes}, volume={36}, ISSN={["1873-1899"]}, DOI={10.1016/j.biotechadv.2018.07.007}, abstractNote={Rising global demand for food and population increases are driving the need for improved crop productivity over the next 30 years. Plants have inherent metabolic limitations on productivity such as inefficiencies in carbon fixation and sensitivity to environmental conditions. Bacteria and archaea inhabit some of the most inhospitable environments on the planet and possess unique metabolic pathways and genes to cope with these conditions. Microbial genes involved in carbon fixation, abiotic stress tolerance, and nutrient acquisition have been utilized in plants to enhance plant phenotypes by increasing yield, photosynthesis, and abiotic stress tolerance. Transgenic plants expressing bacterial and archaeal genes will be discussed along with emerging strategies and tools to increase plant growth and yield.}, number={7}, journal={BIOTECHNOLOGY ADVANCES}, author={Smith-Moore, Caroline M. and Grunden, Amy M.}, year={2018}, month={Nov}, pages={1900–1916} }