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Full-Text Articles in Molecular Biology
Reconstruction Of Gut Microbiome Via Intermittent Feeding, Kourtney Sprague
Reconstruction Of Gut Microbiome Via Intermittent Feeding, Kourtney Sprague
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The benefits of intermittent fasting have been studied across many facets of health. It is known that physiologically fasting results in a metabolic switch from liver-derived glucose to adipose cell derived ketones to be used as energy and signaling molecules. Fasting down-regulates inflammation, increases expression of antioxidant defenses, and activates pathways for DNA repair and autophagy. While fasting or intermittent feeding effects on host physiology have been identified, the relationship between fasting and gut microbiome is not as well known. In times of gut rest, resident microbes undergo detoxication and motility, and in times of activity, gut microbes undergo DNA …
The Role Of Pi4kb In Cellular Localization Of Small Gtpases, Parisa Sadrpour
The Role Of Pi4kb In Cellular Localization Of Small Gtpases, Parisa Sadrpour
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Constitutively active oncogenic mutant K-Ras is one the principal contributors to human cancers including 90% of pancreatic, 50% of colorectal and 32% of non-small cell lung cancers. However, except for K-Ras G12C oncogenic mutant, which only presents in about 13% of non-small cell lung cancer patients, there is no anti-K-Ras therapy for a considerable subset of K-Ras mutations in human tumors, reflecting challenges for targeting oncogenic K-Ras activity. K-Ras is a membrane-bound small GTPase; when active, it triggers multiple signaling pathways regulating a variety of key cellular functions such as cell growth, proliferation and survival. To initiate these signaling cascades, …
Instability And Extrachromosomal Circular Dna Formation At Microsatellites And Unstable Dna Sequences, Matilyn M. Shanahan
Instability And Extrachromosomal Circular Dna Formation At Microsatellites And Unstable Dna Sequences, Matilyn M. Shanahan
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We have previously documented our evidence of genetic instabilities at the (Pu/Py)78 and (ATTCT)47 sequences and our reasoning for identifying break-induced replication (BIR) as the mode of repair responsible for the mutations in the DNA flanking the unstable inserts. Now, as our lab investigates the protein mechanisms at play in the BIR pathway taking place at these sites, we are also expanding our knowledge of how this mechanism extends into the pathways responsible for forming extrachromosomal circular DNA (eccDNA) molecules. We have documented the phenomena posed as the driving factors for eccDNA formation in our systems containing (Pu/Py)78 and (ATTCT)47. …
Genomic Instability At A Polypurine/Polypyrimidine Repeat Sequence, Nathen S. Zavada
Genomic Instability At A Polypurine/Polypyrimidine Repeat Sequence, Nathen S. Zavada
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Microsatellite repeat sequences have been shown to induce replication stalling, fork collapse, double-strand breaks (DSBs), and possibly stimulate break-induced replication. In this study we use a dual-fluorescent HeLa model that is designed to monitor recombination at an ectopic site through use of flow cytometry and inverse PCR with a microsatellite in the lagging strand for DNA synthesis. To test the stability of the 78 bp polypurine/pyrimidine repeat from the PDK1 locus, we subjected cells to replication stress drugs designed to induce DSBs and measure break-induced replication (BIR). The study revealed that polypurine repeat cells undergo endogenous stress contributing to instability …