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Articles 1 - 7 of 7
Full-Text Articles in Molecular Biology
The Effect Of Nuclear Perturbations On The 3d Organization Of The Genome, Rosela Golloshi
The Effect Of Nuclear Perturbations On The 3d Organization Of The Genome, Rosela Golloshi
Doctoral Dissertations
Cells in our body experience constant mechanical forces that influence biological functions such as growth and development. The nucleus has been implicated as a key mechanosensor and can directly influence chromatin organization and epigenetic alterations leading to gene expression changes. However, the mechanism by which such mechanical forces lead to genomic alterations and expression of mechanosensitive genes is not fully understood. The work presented in this dissertation investigates the effect of mechanical and epigenetic perturbations on the 3D genome organization. To investigate this 3D genome folding, we use Chromosome Conformation Capture followed by high throughput sequencing (Hi-C) (Chapter-1) which identifies …
A Study On The Interactions Of Trehalose With Model Folate Compounds, Carolyn R Ware
A Study On The Interactions Of Trehalose With Model Folate Compounds, Carolyn R Ware
Chancellor’s Honors Program Projects
No abstract provided.
Manipulating Adipose Tissue Fatty Acid Oxidation To Reduce Fatness In Broiler Chickens, Tania Emmanuelle Torchon
Manipulating Adipose Tissue Fatty Acid Oxidation To Reduce Fatness In Broiler Chickens, Tania Emmanuelle Torchon
Masters Theses
Compared to rodents, broiler chickens, those reared for meat, are an attractive model for studies of adipose biology, and obesity development in children. The broiler chicken lacks the gene for uncoupling protein 1, the hallmark for brown adipose tissue making them a useful model to study lipid metabolism in white adipocytes. Two studies were performed to investigate if white adipose tissue had the metabolic ability for fatty acid oxidation (FAO), and to investigate the effects of dietary fatty acids on abdominal fat development of young broiler chickens as a model for childhood obesity. In study one, chickens were fasted for …
Studies On Solo Working Mechanism In The Meiosis Of Drosophila Melanogaster, Qian Ma
Studies On Solo Working Mechanism In The Meiosis Of Drosophila Melanogaster, Qian Ma
Masters Theses
In eukaryotes, sister chromatids are closely aligned due to cohesion, a process essential for chromosome pairing and segregation during both mitosis and meiosis. A conserved cohesin complex in a ring structure is composed of four subunits, including each of these four members or their homologs, SMC1, SMC3, SCC1/RAD21/REC8, and SCC3/SA. Up to now, no REC8 homolog has been identified in the meiosis of Drosophila. SOLO is a meiotic protein required for accurate chromosome segregation, centromere cohesion, and cohesin complex localization in Drosophila meiosis. In addition, SOLO is required for synapsis and recombination in Drosophila female meiosis.
In this study, …
Development And Application Of Mass Spectrometry-Based Proteomics To Generate And Navigate The Proteomes Of The Genus Populus, Paul Edward Abraham
Development And Application Of Mass Spectrometry-Based Proteomics To Generate And Navigate The Proteomes Of The Genus Populus, Paul Edward Abraham
Doctoral Dissertations
Historically, there has been tremendous synergy between biology and analytical technology, such that one drives the development of the other. Over the past two decades, their interrelatedness has catalyzed entirely new experimental approaches and unlocked new types of biological questions, as exemplified by the advancements of the field of mass spectrometry (MS)-based proteomics. MS-based proteomics, which provides a more complete measurement of all the proteins in a cell, has revolutionized a variety of scientific fields, ranging from characterizing proteins expressed by a microorganism to tracking cancer-related biomarkers. Though MS technology has advanced significantly, the analysis of complicated proteomes, such as …
Stress Effects On Myosin Mutant Root Length In Arabidopsis Thaliana, Brett A. George
Stress Effects On Myosin Mutant Root Length In Arabidopsis Thaliana, Brett A. George
Chancellor’s Honors Program Projects
No abstract provided.
Characterizing The Role Of Dna Repair Proteins In Telomere Length Regulation And Maintenance: Fanconi Anemia Complementation Group C Protein And 8-Oxoguanine Dna Glycosylase, David Beomjin Rhee
Characterizing The Role Of Dna Repair Proteins In Telomere Length Regulation And Maintenance: Fanconi Anemia Complementation Group C Protein And 8-Oxoguanine Dna Glycosylase, David Beomjin Rhee
Doctoral Dissertations
Telomeres are the chromosome end structures consisting of telomere-associated proteins and short tandem repeat sequences, TTAGGG, in humans and mice. Telomeres prevent chromosome termini from being recognized as broken DNA ends. The structural integrity of DNA including telomeres is constantly threatened by a variety of DNA damaging agents on a daily basis. To counteract the constant threats from DNA damage, organisms have developed a number of DNA repair pathways to ensure that the integrity of genome remains intact. A number of DNA repair proteins localize to telomeres and contribute to telomere maintenance; however, it is still unclear as to what …