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Full-Text Articles in Life Sciences
Meiotic Cohesion Requires Accumulation Of Ord On Chromosomes Before Condensation, Eric M. Balicky, Matthew W. Endres, Cary Lai, Sharon E. Bickel
Meiotic Cohesion Requires Accumulation Of Ord On Chromosomes Before Condensation, Eric M. Balicky, Matthew W. Endres, Cary Lai, Sharon E. Bickel
Dartmouth Scholarship
Cohesion between sister chromatids is a prerequisite for accurate chromosome segregation during mitosis and meiosis. To allow chromosome condensation during prophase, the connections that hold sister chromatids together must be maintained but still permit extensive chromatin compaction. In Drosophila, null mutations in the orientation disruptor (ord) gene lead to meiotic nondisjunction in males and females because cohesion is absent by the time that sister kinetochores make stable microtubule attachments. We provide evidence that ORD is concentrated within the extrachromosomal domains of the nuclei ofDrosophila primary spermatocytes during early G2, but accumulates on the meiotic chromosomes by …
Cell Modeling, Matthew L. Campbell
Cell Modeling, Matthew L. Campbell
Theses and Dissertations
The Air Force is currently developing new products that incorporate a variety of chemicals which may come in contact with product users. To define which chemicals are dangerous to the user, toxicity studies have been performed. However, analysis of toxicity ultimately requires models of the exposed cellular systems. This thesis provides an introduction of how to model and analyze small and large cellular systems. Understanding the underlying behavior of small models and their relation to large systems will lead to a better understanding of how the Air Force should construct intracellular models to assist in future toxicology studies. Developing analysis …
Genomic Analysis Of Homotypic Vacuole Fusion, E Scott Seeley, Masashi Kato, Nathan Margolis, William Wickner, Gary Eitzen
Genomic Analysis Of Homotypic Vacuole Fusion, E Scott Seeley, Masashi Kato, Nathan Margolis, William Wickner, Gary Eitzen
Dartmouth Scholarship
Yeast vacuoles undergo fission and homotypic fusion, yielding one to three vacuoles per cell at steady state. Defects in vacuole fusion result in vacuole fragmentation. We have screened 4828 yeast strains, each with a deletion of a nonessential gene, for vacuole morphology defects. Fragmented vacuoles were found in strains deleted for genes encoding known fusion catalysts as well as 19 enzymes of lipid metabolism, 4 SNAREs, 12 GTPases and GTPase effectors, 9 additional known vacuole protein-sorting genes, 16 protein kinases, 2 phosphatases, 11 cytoskeletal proteins, and 28 genes of unknown function. Vacuole fusion and vacuole protein sorting are catalyzed by …