THESES
2024
17. Jade J. Basinski . 2024.
Elucidating Iron Oxide-Catalyzed Phosphorus Recycling from Nucleotides by Combining Multiple Spectroscopic Analyses with Molecular Simulations.
Ph.D. Thesis, Northwestern University, 247 pp. (2022)
Elucidating Iron Oxide-Catalyzed Phosphorus Recycling from Nucleotides by Combining Multiple Spectroscopic Analyses with Molecular Simulations.
Ph.D. Thesis, Northwestern University, 247 pp. (2022)
2022
16. Caroll M. Mendonca. 2022.
Tracking Carbon Cycling of Lignocellulose Derivatives in Pseudomonas species: A 13C-Assisted Multi-Omics Investigation.
Ph.D. Thesis, Cornell University, 119 pp. (2022)
Tracking Carbon Cycling of Lignocellulose Derivatives in Pseudomonas species: A 13C-Assisted Multi-Omics Investigation.
Ph.D. Thesis, Cornell University, 119 pp. (2022)
15. Mina Solhtalab. 2022.
Reactivity and Structural Dynamics of Extracellular Phosphatases: Implications for Phosphorus Recycling.
Ph.D. Thesis, Cornell University, 145 pp. (2022)
Reactivity and Structural Dynamics of Extracellular Phosphatases: Implications for Phosphorus Recycling.
Ph.D. Thesis, Cornell University, 145 pp. (2022)
2021
14. Wenting Li. 2021.
Metabolomics Insights on the Effects of Phosphonate Herbicides (Glyphosate, Glufosinate, Fosamine) on the Biosynthesis of Beneficial Compounds by Plant-Beneficial Bacteria: Implications for Biocontrol Applications.
M.S. Thesis, Northwestern University, 59 pp. (2021)
Metabolomics Insights on the Effects of Phosphonate Herbicides (Glyphosate, Glufosinate, Fosamine) on the Biosynthesis of Beneficial Compounds by Plant-Beneficial Bacteria: Implications for Biocontrol Applications.
M.S. Thesis, Northwestern University, 59 pp. (2021)
13. Rebecca A. Wilkes. 2021.
Multi-Omics Investigation of Metabolic Flux Networks in Core and Peripheral Pathways.
Ph.D. Thesis, Cornell University, 160 pp. (2021)
Multi-Omics Investigation of Metabolic Flux Networks in Core and Peripheral Pathways.
Ph.D. Thesis, Cornell University, 160 pp. (2021)
12. Sabrina E. Kelch. 2021.
Carbohydrates, Moisture, and Mineral Interfacial Interactions.
Ph.D. Thesis, Cornell University, 103 pp. (2021)
Carbohydrates, Moisture, and Mineral Interfacial Interactions.
Ph.D. Thesis, Cornell University, 103 pp. (2021)
11. Yeonsoo Park. 2021.
Structural and Metabolic Mechanisms Underlying the Biological Fate of Two Resource Recovery Biopolymers: Polyphosphate and Poly(Beta-Hydroxybutyrate).
M.S. Thesis, Cornell University, 71 pp. (2021)
Structural and Metabolic Mechanisms Underlying the Biological Fate of Two Resource Recovery Biopolymers: Polyphosphate and Poly(Beta-Hydroxybutyrate).
M.S. Thesis, Cornell University, 71 pp. (2021)
2020
10. Zijian Chang. 2020.
Adsorption Interactions of Ribonucleotides on Iron-Oxide Minerals: Molecular Simulations and Infrared Spectroscopy.
M.Eng. Thesis, Cornell University, 54 pp. (2020)
Adsorption Interactions of Ribonucleotides on Iron-Oxide Minerals: Molecular Simulations and Infrared Spectroscopy.
M.Eng. Thesis, Cornell University, 54 pp. (2020)
2018
9. Rebecca A. Wilkes. 2018.
Quantitative Metabolic Analysis of Carbohydrate Co-Utilization in Pseudomonas protegens Pf-5.
M.S. Thesis, Cornell University, 54 pp. (2018) [Link to Thesis]
Quantitative Metabolic Analysis of Carbohydrate Co-Utilization in Pseudomonas protegens Pf-5.
M.S. Thesis, Cornell University, 54 pp. (2018) [Link to Thesis]
2017
8. Caroll M. Mendonca. 2017.
Iron-dependent cellular reprogramming of mixed substrate metabolism in Pseudomonoas putida KT2440.
M.Eng. Thesis, Cornell University, 54 pp. (2017) [Link to Thesis]
Iron-dependent cellular reprogramming of mixed substrate metabolism in Pseudomonoas putida KT2440.
M.Eng. Thesis, Cornell University, 54 pp. (2017) [Link to Thesis]
7. Julie Wushensky. 2017.
Elucidating the central carbon metabolism of Bacillus megaterium QM B1551.
M.Eng. Thesis, Cornell University, 92 pp. (2017) [Link to Thesis]
Elucidating the central carbon metabolism of Bacillus megaterium QM B1551.
M.Eng. Thesis, Cornell University, 92 pp. (2017) [Link to Thesis]
6. Tracy Youngster. 2017.
Carbon source-mediated shifts in bacterial composition of mixed-species bioinoculant and metabolism of Bacillus megaterium QM B1551.
M.Eng. Thesis, Cornell University, 39 pp. (2017) [Link to Thesis]
Carbon source-mediated shifts in bacterial composition of mixed-species bioinoculant and metabolism of Bacillus megaterium QM B1551.
M.Eng. Thesis, Cornell University, 39 pp. (2017) [Link to Thesis]
5. Okaikue-Woodi F.. 2017.
Structure Versus Chemical Factors in The Trapping of Fluoroquinolone Antibiotics in Clay Interlayers.
M.Eng. Thesis, Cornell University, 43 pp. (2017) [Link to Thesis]
Structure Versus Chemical Factors in The Trapping of Fluoroquinolone Antibiotics in Clay Interlayers.
M.Eng. Thesis, Cornell University, 43 pp. (2017) [Link to Thesis]
4. Kukurugya M.A.. 2017.
Quantifying the Intracellular Metabolic Network that Establishes the Simultaneous Utilization of Sugars and Aromatic Substrates in Pseudomonas putida KT2440.
M.S. Thesis, Cornell University, 70 pp. (2017) [Link to Thesis]
Quantifying the Intracellular Metabolic Network that Establishes the Simultaneous Utilization of Sugars and Aromatic Substrates in Pseudomonas putida KT2440.
M.S. Thesis, Cornell University, 70 pp. (2017) [Link to Thesis]
2015
3. Flannelly D.F.. 2015.
Toward A Structural Basis For The Ph-Dependent Activity Of Beta-Glucosidases: Computational Evidence Of Conformational And Substrate-Binding Dynamics.
M.S. Thesis, Cornell University, 110 pp. (2015) [Link to Thesis]
Toward A Structural Basis For The Ph-Dependent Activity Of Beta-Glucosidases: Computational Evidence Of Conformational And Substrate-Binding Dynamics.
M.S. Thesis, Cornell University, 110 pp. (2015) [Link to Thesis]
2. Sasnow S.S.. 2015.
Effects Of Iron Limitation And Carbon Source On Extracellular Excretions And Intracellular Carbon Metabolism In Pseudomonas Putida.
M.S. Thesis, Cornell University, 74 pp. (2015) [Link to Thesis]
Effects Of Iron Limitation And Carbon Source On Extracellular Excretions And Intracellular Carbon Metabolism In Pseudomonas Putida.
M.S. Thesis, Cornell University, 74 pp. (2015) [Link to Thesis]
2014
1. Pochodylo A.. 2014.
Metal Complexation By Phytochelatins And Microcystins: A Molecular Dynamics Study.
M.S. Thesis, Cornell University, 41 pp. (2014) [Link to Thesis]
Metal Complexation By Phytochelatins And Microcystins: A Molecular Dynamics Study.
M.S. Thesis, Cornell University, 41 pp. (2014) [Link to Thesis]