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Articles 1 - 7 of 7
Full-Text Articles in Biochemistry, Biophysics, and Structural Biology
Spidroin N-Terminal Domain: A Ph Sensor In The Spider Silk Assembly Process, William Gaines
Spidroin N-Terminal Domain: A Ph Sensor In The Spider Silk Assembly Process, William Gaines
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Spider silks are protein-based fibers with remarkable mechanical qualities. Perhaps even more impressive is the spinning process in which the spider silk proteins (spidroins) are assembled from a highly soluble storage state into a well-ordered and insoluble fiber. Indeed, the ordered arrangement of spidroins, which is endowed by the spinning process, is the basis of fiber strength. However, the forces driving fiber assembly and the mechanisms by which spidroins respond those forces are only poorly understood. Spidroins have a tripartite domain architecture consisting of a large and repetitive central domain flanked by small, non-repetitive N- and C-terminal domains. Both terminal …
Resistance And Dna Repair Mechanisms Under Nitrosative Stress In Mammalian And Microbial Systems, Hyun-Wook Lee
Resistance And Dna Repair Mechanisms Under Nitrosative Stress In Mammalian And Microbial Systems, Hyun-Wook Lee
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Living organisms are exposed a nitrosative stress mediated by reactive nitrogen species (RNS) that can cause DNA damage and mutation. DNA base deamination is a typical damage occurred under nitrosative stress, which results in conversion of cytosine (C) to uracil (U), adenine (A) to hypoxanthine (I), and guanine (G) to xanthine (X) or oxanine (O). Base excision repair (BER) is an important pathway to remove deaminated DNA lesions in mammalian and microbial systems. My dissertation work concerns with genes and enzymes involved in resistance to nitrosative stress and DNA glycosylases in the BER pathway. In chapter one, I will briefly …
Nitrosative Stress And Dna Repair In Microorganisms, Sung-Hyun Park
Nitrosative Stress And Dna Repair In Microorganisms, Sung-Hyun Park
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DNA can be damaged by reactive nitrogen intermediates (RNI) and reactive oxygen intermediates (ROI) from both endogenous and exogenous sources. Under nitrosative stress conditions, DNA may be modified through base deamination or crosslinking. Uracil (U), xanthine (X) and oxanine (O), hypoxanthine (I), and thymine (T) are the corresponding deamination products derived from cytosine (C), guanine (G), adenine (A), and 5-methylcytosine, respectively. To remove DNA damage, cells are equipped with a variety of DNA repair enzymes which participate in different repair pathways.
My dissertation work involves studies of genes and enzymes in nucleotide excision repair (NER) and base excision repair (BER) …
Understanding Gafp, A Plant Lectin With Broad Spectrum Inhibitory Activity, Alexis Nagel
Understanding Gafp, A Plant Lectin With Broad Spectrum Inhibitory Activity, Alexis Nagel
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South Carolina and Georgia are the largest peach producing regions in the Southeastern United States, generating about $60 million worth (~90,000 tons) of fruit per year on average. Peaches and other stone-fruits (Prunus sp.) can be afflicted by a variety of root-associated diseases which negatively impact annual yield and long-term tree mortality. An engineered Prunus rootstock with enhanced resistance to soil-borne pathogens would therefore be of great benefit to the Southeastern peach industry. The Gastrodia anti-fungal protein (GAFP) is a monocot mannose-binding lectin which is able to inhibit the growth of multiple species of plant pathogenic fungi. Previous findings from …
The Role Of Car And Pxr In Toxicant Sensitivity, Linda Mota
The Role Of Car And Pxr In Toxicant Sensitivity, Linda Mota
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The Constitutive Androstane Receptor (CAR) and the Pregnane X Receptor (PXR) are nuclear receptors of significant importance in the regulation of enzymes that metabolize, detoxify and eliminate compounds from the body. In this study we assessed the protective role of CAR and PXR in the basal and inducible regulation of Cytrochrome P450s (CYPs), and the potential of CAR and PXR to help protect individuals from the organophosphate, parathion and the plasticizer, nonylphenol, putatively due to improved metabolism and elimination. Knockout models of these receptors were used to model susceptible populations such as children that are known to have lower CAR …
Fosinopril, A Potential Substrate For Mrp2, Competes With Several High Use Pharmaceuticals For Elimination, Benjamin Green
Fosinopril, A Potential Substrate For Mrp2, Competes With Several High Use Pharmaceuticals For Elimination, Benjamin Green
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The multidrug-resistance associated protein 2 (MRP2) is a membrane-bound transporter responsible for the efflux of a variety of drugs and endogenous compounds. MDCK cells transfected with the human MRP2 gene were used to assess whether several highly used pharmaceuticals were potential substrates by examining their differential toxicity, accumulation, and efflux. Fosinopril, an ACE inhibitor, was 2.4-fold less toxic to the MRP2 transfected cells compared to mock transfected cells, suggesting that fosinopril is a potential MRP2 substrate. In addition, fosinopril was effluxed more rapidly, as the MRP2 cells only retained 13 % of the dosed fosinopril after 20 minutes compared with …
Investigation Of Biochemistry And Enzymology Of Acyl-Coenzyme A Synthetase, Yu Meng
Investigation Of Biochemistry And Enzymology Of Acyl-Coenzyme A Synthetase, Yu Meng
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Acetyl-CoA, an essential metabolite at the junction of various anabolic and catabolic pathways, is generated both from the breakdown of carbohydrates, lipids, and amino acids, and from the activation of acetate. AMP-forming acetyl-CoA synthetase, a key enzyme for acetate activation into acetyl-CoA in all domains of life, is a member of the adenylate-forming enzyme superfamily. Although members in the superfamily have different biological functions, they all share the property of forming an acyl-adenylate intermediate. Here I describe my research on characterization of a medium-chain acyl-CoA synthetase from Methanosarcina acetivorans (MacsMa) and identification of key residues in acyl substrate …