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The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
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Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 41 to 50 of 83 (0.092 seconds)| 41 |
Reconstitution of Doa10-mediated ER-associated protein degradation with purified componentsSchmidt, Claudia C 25 November 2019 (has links)
No description available.
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Underline Mechanisms of Remodeling Diverse Topological Substrate Proteins through Bacterial Clp ATPase using Computer SimulationsFonseka, Hewafonsekage Yasan Yures January 2021 (has links)
No description available.
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Does Proteasome Activity Impact Skeletal Muscle Hypertrophy?Lozar, Olivia Mae January 2019 (has links)
No description available.
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Probing Asymmetric Conformational Dynamics and Allosteric Regulation of ClpBiological Nanomachines using Machine Learning and Molecular Dynamics SimulationsDayananda, Ashan Chandil 06 June 2023 (has links)
No description available.
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Identifikace a funkční charakterizace nových substrátů cullin-RING ubikvitin ligáz / Novel substrates of cullin-RING ubiquitin ligases: identification and functional characterisationLiďák, Tomáš January 2022 (has links)
Selective protein degradation by the ubiquitin-proteasome system is essential for cellular homeostasis and the regulation of diverse biological processes. The selectivity of this system is imparted by hundreds of ubiquitin ligases that specifically recognise substrates and catalyse their ubiquitination, thereby targeting them for degradation. Among ubiquitin ligases, multisubunit cullin-RING ubiquitin ligases constitute the largest group. However, despite significant advances in understanding their assembly, regulation, and molecular architecture, the substrates and functions of most of them remain unknown. This thesis focuses on two ubiquitin ligases from the cullin-RING ubiquitin ligase 4 (CRL4) subfamily: CRL4DCAF4 and CRL4DCAF12 . To identify their candidate substrates and to address their biological roles, several different approaches have been employed. First, proteomic screening revealed a wide range of candidate substrates. Next, detailed characterisation of the identified interactions and exploration of the condition under which candidate substrates undergo degradation was performed. Finally, knockout human cell lines and mice with a targeted disruption of genes encoding DCAF4 and DCAF12 were generated to explore the physiological roles of CRL4DCAF4 and CRL4DCAF12 . In summary, the herein...
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The Effect of Post Exercise Nutrition on Anabolic Response to Resistance ExerciseBird, Randy Lee 13 April 2005 (has links)
Purpose: To determine the effect of four postexercise beverages, differing in macronutrient content, on metabolic response to an acute resistance exercise bout.
Methods: Forty male subjects performed five sets of eight repetitions at 80% 1RM for leg press and leg extension, and then consumed one of four postexercise beverages (Placebo, PL: a carbohydrate-electrolyte beverage, CE; or one of two milk-based beverages, MILK 1: 1% chocolate milk; MILK 2: a high protein milk beverage). Indicators of muscle protein synthesis (MPS) were assessed before and 1-hr after consuming a postexercise beverage. Muscle protein degradation (MPD) was examined the day before and the day of exercise.
Results: No significant differences were found among groups in MPS. The resistance exercise bout increased the amount of eIF4E-eIF4G by 4.5% 1-hr postexercise (p<0.05) without affecting the amount of eIF4E-4E-BP1. One hour after beverage consumption, serum total amino acid concentration increased for MILK 1 (p=0.003) and MILK 2 (p<0.001) but decreased for CE (p=0.028) and PL (p=0.276). Consumption of MILK 1, MILK 2, and CE significantly increased circulating levels of serum insulin (p<0.001). Serum growth hormone increased 3-fold as a result of the exercise bout but fell to baseline for all groups by 60 min (p<0.001).
Conclusion: The resistance exercise bout was anabolic as shown by the increase in the active eIF4E-eIF4G complex and serum growth hormone. Consumption of MILK 2 led to the most optimal environment for muscle anabolism; however, none of the experimental beverages influenced the measured indicators of muscle protein translation 1-hr after ingestion. / Master of Science
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Mechanism of Substrate Protein Remodeling by Allosteric Motions of AAA+ NanomachinesTonddast-Navaei, Sam, M.S. 17 February 2014 (has links)
No description available.
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The Translational Applications of Using Oxadiazole-Derived Small-Molecule Agents to Induce Protein Degradation PathwaysFang, Chun Sheng, (Jason) January 2017 (has links)
No description available.
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Membrane Domain of Plant 3-Hydroxy-3-Methylglutaryl Coenzyme A Reductase: Targeting, Topology, and FunctionDenbow, Cynthia J. 06 May 1997 (has links)
The rate limiting step in isoprenoid biosynthesis is catalyzed by 3-hydroxy-3-methylglutaryl CoA reductase (HMGR, EC 1.1.1.34). In plants, HMGR is encoded by small gene families whose members are differentially expressed. In tomato, hmg2 was previously isolated and sequenced. We report the isolation and sequence analysis of a clone (pCD4) encompassing exon I of tomato hmg1 which encodes the putative membrane domain. Sequence comparisons of plant HMGR proteins reveal two hydrophobic stretches within the amino terminus which are highly conserved among species. Using in vitro transcription and translation systems, the membrane domain structure of two tomato HMGR isoforms, HMG1 and HMG2, were analyzed. Results from these experiments reveal that tomato HMGRs are targeted to microsomal membranes in a cotranslational fashion that does not involve cleavage of an N-terminal targeting peptide. Membrane topography of HMGR was revealed by protease protection studies, indicating that both tomato HMGRs span the membrane two times such that both the C- and N-termini are located within the cytosol. HMG2 but not HMG1 was glycosylated in the in vitro system. Deletion of the hmg1 5' untranslated regions and sequences encoding the first six highly charged amino acids resulted in inefficient translation in vitro. However, targeting to microsomes was unchanged. HMG1 membrane domain was tagged with a FLAG epitope to facilitate in vivo studies. Agrobacterium-mediated transformation was used to introduce the tagged hmg1 gene into two Nicotiana tabacum cell lines, BY-2 and KY-14. The slow growth kinetics of KY-14 prevented effective recovery of transformed lines, however, Northern analyses of BY-2 showed that the hmg1 transgene was expressed. Comparisons of BY-2 and KY-14 revealed differences in defense responses to elicitor treatment. BY-2 cells showed minimal defense capabilities, whereas KY-14 cells were rapidly induced as indicated by increased HMGR enzyme activity and browning of the cells. HMGR enzyme activity was decreased in both KY-14 and BY-2 cells following sterol treatment, but the reduction was more pronounced in KY-14 cells. Thus transgenic BY-2 cells may be useful in future in vivo immunolocalization studies, but analyses of HMGR transcriptional regulation and regulated degradation will require use of the more responsive KY-14 cells.. / Ph. D.
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Regulation of protein metabolism in skeletal muscle of low-birth-weight neonatal pigsChen, Ying 27 September 2017 (has links)
The neonatal period in mammals is characterized by high rates of growth, attributed to rapid myonuclear accretion and protein deposition in muscle. Low-birth-weight (LBWT) neonates experience restricted muscle development, which leads to impaired postnatal growth and metabolic disorders later in life. The overall hypothesis of this dissertation was that dysfunction of myogenic satellite cells and aberrant regulation of protein synthesis and degradation signaling predispose LBWT neonatal pigs to slower postnatal growth. We sought to determine the proliferation and differentiation of satellite cells (SCs) derived from skeletal muscle of LBWT neonatal pigs and to elucidate the cellular mechanisms that regulate protein synthesis and degradation in LBWT pig muscles. Newborn pigs were considered as normal-birth-weight (NBWT) or LBWT when weight at birth was within 0.5 SD and below 2 SD of litter average respectively. SCs isolated from longissimus dorsi (LD) muscle of NBWT and LBWT neonatal pigs displayed similar proliferation rates. Fusion was modestly diminished in SCs from muscle of LBWT pigs compared with their NBWT siblings, suggesting SCs were not intrinsically different between the two groups and were unlikely a major contributor to the impaired muscle growth of LBWT pigs. Plasma and muscle insulin-like growth factor (IGF)-I was diminished in LBWT compared with NBWT pigs. In addition, reduced activation of key components of IGF-I downstream signaling pathway in LBWT pigs muscle may lead to diminished translation initiation signaling and thus decreased protein synthesis in these animals. However, IGF-I receptor expression and myostatin signaling inversely correlated to LBWT, indicating they may participate in compensatory responses for the reduction in protein synthesis signaling. Expression of eukaryotic initiation factor (eIF) 4F complex subunits, eIF4E, eIF4G, and eIF4A was reduced in LBWT compared with NBWT pigs. This would suggest that diminished translation initiation signaling in skeletal muscle of LBWT pigs is the main factor that predisposes LBWT pigs to slower growth rates in the neonatal period. In contrast, changes in protein degradation signaling do not appear to affect protein turnover in LBWT neonatal pigs. / PHD
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