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Ni Site Structure And Function In Biological Sensing And Enzyme Activity, Hsin-Ting Huang
Ni Site Structure And Function In Biological Sensing And Enzyme Activity, Hsin-Ting Huang
Doctoral Dissertations
Ni(II) is one of the important cofactors involved in various enzyme functions. For organisms utilizing Ni(II), a regulation system is required to maintain Ni(II) homeostasis and prevent toxicity. The focus of this dissertation is on investigating the relationship between the Ni(II) site structure and the function of proteins, a Ni(II) sensor and a Ni(II) enzyme. RcnR, a Ni(II)/Co(II) sensor in E. coli, controls the expression of the Ni(II)/Co(II) exporter proteins, RcnAB. Due to the lack of structural information, the mechanism of metal induced allosteric regulation and metal selection is not fully elucidated. Results presented here show that binding of …
Maximizing And Modeling Malonyl-Coa Production In Escherichia Coli, Tatiana Thompson Silveira Mello
Maximizing And Modeling Malonyl-Coa Production In Escherichia Coli, Tatiana Thompson Silveira Mello
LSU Master's Theses
In E. coli, fatty acid synthesis is catalyzed by the enzyme acetyl-CoA carboxylase (ACC), which converts acetyl-CoA into malonyl-CoA. Malonyl-CoA is a major building block for numerous of bioproducts. Multiple parameters regulate the homeostatic cellular concentration of malonyl-CoA, keeping it at a very low level. Understanding how these parameters affect the bacterial production of malonyl-CoA is fundamental to maximizing it and its bioproducts. To this end, competing pathways consuming malonyl-CoA can be eliminated, and optimal nutritional and environmental conditions can be provided to the fermentation broth. Most previous studies utilized genetic modifications, expensive consumables, and high-cost quantification methods, making …
Post-Translational Modifications And Functional Studies Of Dksa In Escherichia Coli, Andrew Charles Isidoridy
Post-Translational Modifications And Functional Studies Of Dksa In Escherichia Coli, Andrew Charles Isidoridy
Legacy Theses & Dissertations (2009 - 2024)
DksA is a bacterial gene regulator that functions synergistically with the stress alarmone ppGpp to mediate the stringent response. DksA also functions independently of ppGpp to regulate transcription of a number of genes. DksA function is dependent on its binding affinity to RNA polymerase and requires specific interactions between RNAP and catalytic amino acids located on the coiled coil tip, D74 and A76. While much of the previous work on DksA has focused on understanding the mechanisms of action and the numerous gene targets for transcriptional regulation, little is known about the mechanisms by which DksA expression and function may …