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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the 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.
1

Secondary Functions And Novel Inhibitors Of Aminoacyl-Trna Synthetases

Wiencek, Patrick 01 January 2018 (has links)
The aminoacyl-tRNA synthetases are a family of enzymes involved in the process of translation, more specifically, ligating amino acids to their cognate tRNA molecules. Recent evidence suggests that aminoacyl-tRNA synthetases are capable of aminoacylating proteins, some of which are involved in the autophagy pathway. Here, we test the conditions under which E. coli and human threonyl-tRNA synthetases, as well as hisidyl-tRNA synthetase aminoacylate themselves. These reactions are ATP dependent, stimulated by Mg2+, and are inhibited by increasing cognate tRNA concentrations. These data represent the foundation for future aminoacylation experiments, specifically delving into the relationship between the autophagy pathway and the aminoacylation of proteins. Additionally, we provide evidence of the inhibitory abilities of the compound EHTS-0 on both E. coli and human threonyl-tRNA synthetases. Further, we also show that an EHTS-0 analog, EHTS-1, also significantly inhibits E. coli threonyl-tRNA synthetase but not the human enzyme. These data could be useful in determining the potential for EHTS-0 and EHTS-1 as possibly anti-angiogenic drugs.
2

Multi-Aminoacyl-Trna Synthetase Complexes In Archaeal Translation

Hausmann, Corinne D. 08 September 2008 (has links)
No description available.
3

Biochemical properties of class I LYSYL-tRNA synthetase

Levengood, Jeffrey D. 05 January 2007 (has links)
No description available.
4

Identification of genes that interact with liquid facets

Van Der Ende, Gerrit Alexander 03 February 2014 (has links)
The protein Liquid facets (Lqf) promotes endocytosis at the plasma membrane1. Lqf activity is required for proper Notch signaling, likely through facilitating the endocytosis of Notch ligand by indirectly linking ligand to clathrin. A genetic modifier screen to identify genes that interact with lqf was performed by a previous graduate student. Genes identified in the screen might provide new insights into how Lqf promotes endocytosis or how Notch signaling is regulated. In this work, I performed genetic mapping techniques to identify the genes mutated in each complementation group of the screen. I identified the gene mutated in complementation group 6 as mitochondrial alanyl tRNA synthetase (Aats-ala-m). tRNA synthetases link a tRNA to its cognate amino acid during translation. Mitochondrial tRNA synthetases function in the mitochondria in translation. Aats-ala-m genetically interacts with lqf, suggesting the two genes function in the same pathway. In this work, I also identified chromosomal regions where the genes mutated in complementation groups 1,2, and 9 are located. / text
5

Developing new orthogonal tRNA/synthetase pairs for genetic code expansion

Willis, Julian C. W. January 2018 (has links)
No description available.
6

Characterization of the Cys-tRNA<sup>Pro</sup> Editing Mechanism and Functional Interactions of Bacterial YbaK Protein

So, Byung Ran 24 August 2010 (has links)
No description available.
7

Probing the Evolution of New Specificities in Aminoacyl-tRNA Synthetases

Gilreath, Marla S. 08 September 2011 (has links)
No description available.
8

Cellular Requirements for Phenylalanyl-tRNA Synthetase Quality Control

Reynolds, Noah Martin Wiersma 19 October 2011 (has links)
No description available.
9

Mechanistic Studies of Class II Bacterial Prolyl-tRNA Synthetase and YbaK Editing

Das, Mom 25 June 2012 (has links)
No description available.
10

Characterization Of A Non-Canonical Function For Threonyl-Trna Synthetase In Angiogenesis

Mirando, Adam Christopher 01 January 2015 (has links)
In addition to its canonical role in aminoacylation, threonyl-tRNA synthetase (TARS) possesses pro-angiogenic activity that is susceptible to the TARS-specific antibiotic borrelidin. However, the therapeutic benefit of borrelidin is offset by its strong toxicity to living cells. The removal of a single methylene group from the parent borrelidin generates BC194, a modified compound with significantly reduced toxicity but comparable anti-angiogenic potential. Biochemical analyses revealed that the difference in toxicities was due to borrelidin's stimulation of amino acid starvation at ten-fold lower concentrations than BC194. However, both compounds were found to inhibit in vitro and in vivo models of angiogenesis at sub-toxic concentrations, suggesting a similar mechanism that is distinct from the toxic responses. Crystal structures of TARS in complex with each compound indicated that the decreased contacts in the BC194 structure may render it more susceptible to competition with the canonical substrates and permit sufficient aminoacylation activity over a wider concentration of inhibitor. Conversely, both borrelidin and BC194 induce identical conformational changes in TARS, providing a rationale for their comparable effects on angiogenesis. The mechanisms of TARS and borrelidin-based compounds on angiogenesis were subsequently tested using zebrafish and cell-based models. These data revealed ectopic branching, non-functional vessels, and increased cell-cell contracts following BC194-treatment or knockdown of TARS expression, suggesting a role for the enzyme in the maturation and guidance of nascent vasculature. Using various TARS constructs this function was found to be dependent on two interactions or activities associated with the TARS enzyme that are distinct from its canonical aminoacylation activity. Furthermore, observations that TARS may influence VEGF expression and purinergic signaling suggest the possibility for a receptor-mediated response. Taken together, the results presented here demonstrate a clear role for TARS in angiogenesis, independent of its primary function in translation. Although the exact molecular mechanisms through which TARS and borrelidin regulate this activity remain to be determined, these data provide a foundation for future investigations of TARS's function in vascular biology and its use as a target for angiogenesis-based therapy.

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