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Description
Non-alcoholic fatty liver disease occurs when triglycerides are stored in the liver leading to irreversible scarring and damage of liver tissue. Inside the liver, adipose triglyceride lipase is responsible for the breaking down of triglycerides and is regulated by the

Non-alcoholic fatty liver disease occurs when triglycerides are stored in the liver leading to irreversible scarring and damage of liver tissue. Inside the liver, adipose triglyceride lipase is responsible for the breaking down of triglycerides and is regulated by the inhibitor g0/g1 switch gene 2 (G0S2). G0S2 is proposed to be one of the targets against drug design for non-alcoholic fatty liver disease, and more information is needed on the structure of this protein to aid in drug discovery. Here I describe the expression of G0S2 in an E. coli system as well as purification and biophysical characterization of a functional G0S2 in amounts viable for solution state Nuclear Magnetic Resonance (NMR) spectroscopy. Initial spectra of the isotopically labeled protein show well dispersed 15N resonance lines, clean 13C resonances, and dominant a-helices characteristics. These results show that a prepared G0S2 construct is suitable for solution NMR such that 20 amino acids are now assigned in the G0S2 portion of the protein, allowing for further NMR work with this protein for structural discovery. Further work with a large oligomeric complex of G0S2 with Maltose Binding Protein also shows promise for future cryo-EM work.


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Title
  • Structure and Biophysical Studies of Proteins Involved in Non-Alcoholic Fatty Liver Disease
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Date Created
2020
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  • Text
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    Note
    • Doctoral Dissertation Biochemistry 2020

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