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- ATRX (2)
- Amyotrophic Lateral Sclerosis (2)
- Alpha thalassemia mental retardation (1)
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- FUS (1)
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- Huntington's disease (1)
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Articles 1 - 4 of 4
Full-Text Articles in Biochemistry
Illuminating Transfer Rna Variants As Genetic Modifiers In Models Of Human Disease, Jeremy T. Lant
Illuminating Transfer Rna Variants As Genetic Modifiers In Models Of Human Disease, Jeremy T. Lant
Electronic Thesis and Dissertation Repository
Transfer RNAs (tRNAs) physically link the genetic code to an amino acid sequence, by recruiting amino acids to three-nucleotide codons in messenger RNAs. To ensure that the genetic code is translated as intended, tRNAs must be accurately aminoacylated and faithfully recognize codons in the ribosome during protein synthesis. Given the critical function of tRNAs, it has often been assumed that mutations in human tRNA genes would be either lethal to cells or not significantly impair tRNA function. My goal was to rigorously test this assumption in mammalian cell models, prompted by the recent discovery of unprecedented variation in human tRNA …
Dnajc7, A Molecular Chaperone Protein That Modulates Protein Misfolding In Amyotrophic Lateral Sclerosis (Als), Meaghan Kathleen Stoltz
Dnajc7, A Molecular Chaperone Protein That Modulates Protein Misfolding In Amyotrophic Lateral Sclerosis (Als), Meaghan Kathleen Stoltz
Electronic Thesis and Dissertation Repository
Amyotrophic Lateral Sclerosis (ALS) is a neurodegenerative disease associated with protein misfolding and dysregulated cellular protein quality control mechanisms. Molecular chaperones, and heat shock proteins (Hsp), are key players in maintaining cellular protein quality control. DNAJC7 is an understudied cytosolic Hsp40 that works together with Hsp70 and Hsp90 to regulate proper protein folding or degradation. Of note, mutations in the gene encoding DNAJC7 were discovered to cause familial ALS. We asked whether ALS-associated mutations in DNAJC7 compromise its function as a chaperone, which may cause the toxic accumulation of misfolded proteins. This study attempts to uncover the functions of DNAJC7 …
Thyroxine-Dependent And -Independent Effects On Premature Aging And Myelination In Atrx Mutant Mice, Megan E. Rowland
Thyroxine-Dependent And -Independent Effects On Premature Aging And Myelination In Atrx Mutant Mice, Megan E. Rowland
Electronic Thesis and Dissertation Repository
ATRX is an ATP-dependent chromatin remodeler required to safeguard genomic integrity. Conditional deletion of Atrx in the mouse embryonic forebrain and anterior pituitary in AtrxFoxg1Cre mice phenocopies mouse models of progeria which display increased DNA damage, coupled with reduced lifespan, growth and subcutaneous fat. These mice also have severely low circulating levels of insulin like growth factor 1 (IGF-1) and (T4) which have been reported in models of premature aging. Based on evidence that Igf1 is activated by the ligand-bound thyroid hormone receptor, I tested whether T4 supplementation could restore IGF-1 levels and ameliorate premature aging phenotypes in Atrx …
Examining The Role Of Atrx In Astrocytes, Haley Mcconkey
Examining The Role Of Atrx In Astrocytes, Haley Mcconkey
Electronic Thesis and Dissertation Repository
Astrocytes perform many homeostatic roles in the brain while supplying metabolites to neurons and mediating synaptic transmission. The current study explored a possible role of the Atrx gene in astrocytes. Hypomorphic mutations in this gene cause the ATR-X intellectual disability syndrome. Deletion of Atrx in the forebrain leads to an apparent increase in reactive astrocytes, potentially caused by the high level of neuroprogenitor cell death. To avoid such non cell-autonomous effects on astrocytes, we generated mice with inducible conditional inactivation of Atrx in astrocytes. Preliminary analysis two weeks following induction of Atrx gene deletion revealed variably lower expression of Connexin …