1. Development of Rhodobacter for the Production of Functional Membrane Proteins Open Access Author: Curtis, Brandon Scott Title: Development of Rhodobacter for the Production of Functional Membrane Proteins Area of Honors: Interdisciplinary in Biochemistry and Molecular Biology and Chemical Engineering Keywords: heterologousbioprocessingbiomolecular engineeringRhodobacterphotoreactorexpression platform File: Download BC_Thesis_-_DONE.pdf Thesis Supervisors: Dr. Wayne Roger Curtis, Thesis SupervisorDr. Wayne Roger Curtis, Thesis SupervisorDarrell Velegol, Thesis Honors AdvisorPhilip Warren Mohr, Thesis Honors AdvisorAndrew Zydney, Faculty Reader
2. Cloning of Insecticidal BT Genes for Application to Protection of Mushrooms from Fungus Gnats Open Access Author: Curtis, Matthew Steven Title: Cloning of Insecticidal BT Genes for Application to Protection of Mushrooms from Fungus Gnats Area of Honors: Biochemistry and Molecular Biology Keywords: Bacillus thuringiensisBTMolecular CloningAgaricus bisporusMushroomsBiocontrol File: Download Thesis_Matthew_Curtis_BMB.pdf Thesis Supervisors: Ming Tien, Thesis Honors AdvisorDr. Wayne Roger Curtis, Thesis SupervisorDavid Scott Gilmour, Faculty ReaderScott Brian Selleck, Faculty Reader
3. Novel Temporary Immersion Bioreactor Allows the Manipulation of Headspace Composition to Improve Plant Tissue Propagation Open Access Author: Curtis, Matthew Steven Title: Novel Temporary Immersion Bioreactor Allows the Manipulation of Headspace Composition to Improve Plant Tissue Propagation Area of Honors: Chemical Engineering Keywords: Plant PropagationSomatic embryogenesisOrganogenesisAseptic designBioreactor File: Download Thesis_Matthew_Curtis_ChE.pdf Thesis Supervisors: Dr. Wayne Roger Curtis, Thesis SupervisorDr. Michael John Janik, Thesis Honors Advisor
4. Development of the Marine Cyanobacterium Synechococcus sp. PCC 7002 as a Scalable Low-Cost Photoautotrophic Protein Production Platform Open Access Author: Curtis, Erik M Title: Development of the Marine Cyanobacterium Synechococcus sp. PCC 7002 as a Scalable Low-Cost Photoautotrophic Protein Production Platform Area of Honors: Chemical Engineering Keywords: CyanobacteriaSynechococcusCloningCRISPRCas9Protein ExpressionProtein Production File: Download Curtis_Thesis_Final.pdf Thesis Supervisors: Dr. Wayne Roger Curtis, Thesis SupervisorDr. Wayne Roger Curtis, Thesis Honors AdvisorAndrew Zydney, Faculty Reader