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AMP-activated protein kinase kinase activity and phosphorylation of AMP-activated protein kinase in contracting muscle of sedentary and endurance trained rats /Hurst, Denise, January 2007 (has links) (PDF)
Thesis (M.S.)--Brigham Young University. Dept. of Physiology and Developmental Biology, 2007. / Includes bibliographical references (p. 19-25).
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Application of information from homologous proteins for the prediction of protein structure /Chivian, Dylan Casey, January 2005 (has links)
Thesis (Ph. D.)--University of Washington, 2005. / Vita. Includes bibliographical references (p. 83-102).
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Observations On Phosvitin-Protein Interactions : Implications Of Their Biological SignificanceLakhey, Hitendra V 09 1900 (has links) (PDF)
No description available.
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Using Experimental and Computational Methods to Study Loop Mutations in a Four-bundle Helix ProteinAshrafian, Hossein January 2020 (has links)
No description available.
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Substrate recognition by the cytosolic iron sulfur cluster targeting complexMarquez, Melissa Danae 03 November 2022 (has links)
The cytosolic iron sulfur cluster assembly (CIA) pathway is responsible for the maturation of >40 cytosolic and nuclear iron sulfur (FeS) proteins critical for fundamental processes such as DNA replication, transcription, and translation. The final stages of the pathway require the CIA targeting complex, which is composed of Cia1, Cia2, and Met18. This large multiprotein complex is proposed to recognize apo-enzyme substrates and insert their FeS clusters. However, it is unclear how these substrates are identified and how the CIA targeting complex mediates cofactor insertion. In this thesis, I mapped the protein-protein interaction sites critical for formation of the CIA targeting complex and discovered the first peptide motif that is both necessary and sufficient for recognition of a subset of FeS proteins by the CIA system.
Cia1’s seventh beta-propeller blade was found to bind to Cia2, while Cia2’s fifth conserved region mainly interacts with Cia1, via an in vitro affinity co-purification assay. A quantitative MicroScale Thermophoresis assay supported these findings, in addition this approach affirmed that Cia2’s N-terminal intrinsically disordered domain and hyperreactive cysteine are dispensable for CIA targeting complex assembly. In collaboration with the Drennan Lab at MIT, Met18 was discovered to form a hexamer via cryo-EM. Met18 is proposed to arrange into a hexamer before its CIA-related function. Hexamer formation and Cia2 binding depend on Met18’s C-terminus, whereas Leu1 recognition relies on Met18’s N-terminus.
A C-terminal W motif was demonstrated as both necessary and sufficient for identification of a subset of FeS proteins by the CIA targeting complex. A bioinformatics analysis revealed roughly 20% of CIA client proteins, including substrates, factors, and adaptors, terminate in a conserved [LTQ]-[DE]-[W]-COO- motif. CIA recognition depends on the C-terminal aromatic side chain and the carboxy terminus. This tripeptide motif is also sufficient for identification by the CIA system when attached to SUMO. Moreover, a series of competition experiments showed that the CIA targeting complex contains distinct, non-overlapping binding sites for client proteins where Cia1 serves as the docking site for the C-terminal W motif. Altogether, the first recognition motif is defined for one in five of CIA client proteins. / 2024-11-03T00:00:00Z
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Spectroscopic Characterization of the Interaction of Nck Domains with the Epidermal Growth Factor Receptor Juxtamembrane DomainHake, Michael James 05 April 2008 (has links)
No description available.
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Structure of KI67 FHA domain and its binding to HNIFKLi, Hongyuan January 2003 (has links)
No description available.
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Protein surface charge of trypsinogen changes its activation patternBuettner, Karin, Kreisig, Thomas, Sträter, Norbert, Züchner, Thole 21 January 2015 (has links) (PDF)
Background: Trypsinogen is the inactive precursor of trypsin, a serine protease that cleaves proteins and peptides after arginine and lysine residues. In this study, human trypsinogen was used as a model protein to study the influence of electrostatic forces on protein–protein interactions. Trypsinogen is active only after its eight-amino-acid-long activation peptide has been cleaved off by another protease, enteropeptidase. Trypsinogen can also be autoactivated without the involvement of enteropeptidase. This autoactivation process can occur if a trypsinogen molecule is activated by another trypsin molecule and therefore is based on a protein–protein interaction. Results: Based on a rational protein design based on autoactivation-defective guinea pig trypsinogen, several amino acid residues, all located far away from the active site, were changed to modify the surface charge of human trypsinogen. The influence of the surface charge on the activation pattern of trypsinogen was investigated. The autoactivation properties of mutant trypsinogen were characterized in comparison to the recombinant wild-type enzyme. Surface-charged trypsinogen showed practically no autoactivation compared to the wild-type but could still be activated by enteropeptidase to the fully active trypsin. The kinetic parameters of surface-charged trypsinogen were comparable to the recombinant wild-type enzyme. Conclusion: The variant with a modified surface charge compared to the wild-type enzyme showed a complete different activation pattern. Our study provides an example how directed modification of the protein surface charge can be utilized for the regulation of functional protein–protein interactions, as shown here for human trypsinogen.
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Disrupting protein-protein interactions in the amino-terminal domain of the androgen receptor : design, characterization and effects of peptide inhibitorsOrafidiya, Folake January 2015 (has links)
No description available.
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Investigations on recombinant Arabidopsis acyl-coenzyme A binding protein 1Tse, Muk-hei., 謝牧熙. January 2005 (has links)
published_or_final_version / abstract / Botany / Master / Master of Philosophy
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