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Full-Text Articles in Medicine and Health Sciences
Role Of Nucleosome Remodeling Factor (Nurf) In Tumorigenesis Using A Breast Cancer Mouse Model, Aiman Alhazmi
Role Of Nucleosome Remodeling Factor (Nurf) In Tumorigenesis Using A Breast Cancer Mouse Model, Aiman Alhazmi
Theses and Dissertations
Understanding the impact of epigenetic mechanisms on tumorigenesis is essential, as epigenetic alterations are associated with tumor initiation and progression. Because epigenetic changes are reversible, they are potential targets for cancer therapy. Nucleosome Remodeling Factor (NURF) is a chromatin-remodeling complex that regulates gene expression by changing nucleosome positioning along the DNA sequence. Previous studies have shown a role for NURF in embryonic development as well as regulating genes involved in tumor progression. In this work we investigated the impact of eliminating NURF function in tumorigenesis in vivo. BALB/c mice challenged with syngeneic 67NR breast cancer cell lines, injected into the …
Characterizing The Role Of Nucleosome Remodeling Factor (Nurf) In Tumorigenesis And Metastatic Progression Using Mouse Models Of Breast Cancer., Suehyb Alkhatib
Characterizing The Role Of Nucleosome Remodeling Factor (Nurf) In Tumorigenesis And Metastatic Progression Using Mouse Models Of Breast Cancer., Suehyb Alkhatib
Theses and Dissertations
Increasingly the role of epigenetic machinery as a bridge between underlying DNA sequence and cellular phenotype is being discovered. The establishment of a myriad of unique cellular types sharing identical gene sequences in a multicellular organism gives a broad sense for the inherent role of epigenetic influence on cell differentiation. Importantly, the epigenetic mechanisms involved in establishing cell identity unsurprisingly contribute to diseased states, including cancer. Recent research continues to elucidate contributory roles of epigenetic mechanisms, such as DNA methylation, histone modification, and microRNA regulation, in human cancers. Additionally, chromatin remodelers, such as the Nucleosome Remodeling Factor (NURF), have been …
Investigation Of Histone Lysine Methylation In Stem Cell Differentiation Using Inhibitor Peptide, Wendy Zhu
Investigation Of Histone Lysine Methylation In Stem Cell Differentiation Using Inhibitor Peptide, Wendy Zhu
Electronic Thesis and Dissertation Repository
In an effort to expand the histone code, we examine a novel site of methylation on lysine 43 of histone H2B. In mouse embryonic stem cells (ESCs), KDM5b acts as the lysine demethylase for H2BK43me2, diminishing this histone mark as cells differentiate. We utilize a synthetic peptide mimetic corresponding to amino acids 37-49 of histone H2B in order to sterically inactivate KDM5b enzyme. The addition of inhibitor peptide into culture enhanced stem cell differentiation, upregulating cell cycle and neural-specific markers while downregulating the expression of pluripotency genes. Global gene analysis patterns of peptide-treated ESCs were representative of differentiated cell populations. …
The Role Of Ptip In Breast Cancer, Lina Niu
The Role Of Ptip In Breast Cancer, Lina Niu
Theses, Dissertations and Capstones
In the U.S., breast cancer comprises about 30% of all cancer cases (excluding skin cancer) in women. Such a high incidence makes breast cancer a significant health concern, but our understanding of the molecular and cellular mechanisms of this disease is still limited. Growing evidence suggests that the development of human breast cancer may involve epigenetics, which attributes changes in phenotype to mechanisms other than changes in the DNA sequence itself. Histones as the chief proteins of chromatin work on gene expression, and methylation of histone 3 lysine 4 (H3K4) results in transcriptional activation. Lately, Paired box (Pax) trans-activation domain-interacting …
The Role Of Histone Methylation In The Medial Temporal Lobe During Long-Term Memory Formation, Swati Gupta
The Role Of Histone Methylation In The Medial Temporal Lobe During Long-Term Memory Formation, Swati Gupta
All ETDs from UAB
Several studies have established the importance of epigenetic regulation of gene transcription in the brain during memory consolidation. Epigenetic mechanisms involve modifying the DNA or the associated histone proteins to determine the transcriptional outcome of a gene. The work encompassed in this dissertation serves as an initial investigation for the role of histone lysine methylation mechanisms in regulating gene activation and suppression in the medial temporal lobe that includes entorhinal cortex (EC), hippocampus, and amygdala during memory consolidation. To this end, we found that di-methylation of histone H3 at lysine 9 (H3K9me2) which promotes gene suppression was specific to associative …
Transcriptional Regulation Of Gfap, Sujeong Yeo
Transcriptional Regulation Of Gfap, Sujeong Yeo
All ETDs from UAB
Glial fibrillary acidic protein (GFAP) is an astrocytic intermediate filament protein whose levels are increased in response to CNS injuries. Aim one of my thesis is to find the regulatory elements of the GFAP promoter responsible for its expression properties using a transgenic approach, since previous studies showed inconsistent results between in vitro and in vivo approaches. Two contiguous DNA segments previously implicated in transcriptional control of the GFAP gene, the B region (bp -1612 to -1489), and the C1.1 and C1.2 regions (bp -1488 to -1399), were analyzed. Block mutation of each of 4 contiguous sequences together spanning the …