Life Sciences Commons^™

Dynamics Of The Toc Gtpases: Modulation By Nucleotides And Transit Peptides Reveal A Mechanism For Chloroplast Protein Import, Lovett Evan Reddick

Doctoral Dissertations

The chloroplast is the green organelle in the plant cell responsible for harvesting energy from sunlight and converting it into sugars and ATP. Origins of this organelle can be traced back to an endosymbiotic event in which a primitive eukaryotic cell capable of oxidative phosphorylation engulfed a free-living cyanobacterium capable of photosynthetic respiration (1). Immediately following this event the details are not clear, however what is known is that over the course of evolution, the engulfed cyanobacteria relinquished approximately 97% of its protein coding sequences to the host cell nucleus, thus making the newly formed chloroplast reliant on its host …

Functional Analysis Of Chromodomain Helicase Dna Binding Protein 2(Chd2) Mediated Genomic Stability, Sangeetha Rajagopalan

Doctoral Dissertations

Histone modifying enzymes and chromatin remodeling complexes play an important regulatory role in chromatin dynamics that dictate the interaction of regulatory factors involved in processes such as DNA replication, recombination, repair and transcription, with DNA template. The CHD (Chromodomain Helicase DNA Binding Protein) family of proteins is known to be involved in the regulation of gene expression, recombination and chromatin remodeling via their chromatin specific interactions and activities. Phenotypic analysis of the Chd2 mutant mouse model developed by our laboratory indicates that the Chd2 protein plays a critical role in tumor suppression as the heterozygous mutant mice develop spontaneous lymphomas. …

Determining The Role Of Water And Proton Uptake/Release Upon Binding Of Substrate Dhf And Cofactor Nadph To The Enzyme Dihydrofolate Reductase's Active Site, Sharghi Rahmanian

Chancellor’s Honors Program Projects

No abstract provided.

Reverse Genetic And Cell Biological Approaches To The Study Of Developmental Functions Of Class Xi Myosin In Arabidopsis Thaliana, Eunsook Park

Doctoral Dissertations

Myosin proteins function as molecular motors that drive the ATP-dependent movement of cellular components along actin filaments. Vascular plants encode two different types of myosin, referred to as class VIII and class XI. Although class XI myosins have been suggested to function in organelle movement and cytoplasmic streaming, little is known about their cellular function in detail.

The Arabidopsis genome encodes 13 class XI myosin genes. The reasons for the relatively large number of myosin XI isoforms present within a single plant species are unknown. To investigate the function of these gene products in the cell, we determined the spatial …

Linkage Analysis Of Caffeine Resistance And Circadian Rhythm In Caffeine-Treated Ddt Resistant And Susceptible Strains Of Drosophila Melanogaster, Chandrashis Bhowmick

Masters Theses

Caffeine is found in coffee, tea, soft drinks, many plant products and various drug preparations. It is the most consumed common psychoactive drug around the world. Consumption of caffeine causes several behavioral and physiological responses in humans and other mammals. Caffeine is also known to be an insect repellant and can be used as an insecticide. As observed in mammals, caffeine treatment increases the locomotor activity in insects including Drosophila. However, very little is known about genetic and molecular basis of caffeine sensitivity and action in insects. In the present study, I have used DDT resistant (91-R) and susceptible …

Studies On The Mechanisms Of Homolog Pairing And Sister Chromatid Cohesion During Drosophila Male Meiosis, Jian Ma

Masters Theses

Meiosis is a complex process involving one round of DNA replication followed by two rounds of cell divisions. The proper segregation of homologs at meiosis I and sister chromatids during meiosis II is essential for the survival of the offspring. Aberrant chromosome segregation at any stage of meiosis can lead to aneuploidy. Meiotic chromosome segregation without crossing over or chiasmata is a widespread but poorly understand chromosome segregation pathway. In male Drosophila meiosis the absence of recombination in chromosomes makes it easier to identify mutations which influence homologous chromosome pairing and segregation.

Modifier of Mdg4 in Meiosis (MNM), a protein …

The Effects Of Acute Ethanol Treatment On The Suprachiasmatic Nucleus In Adult Male Mice, Charles Andrew Mangrum

Masters Theses

Light is the primary entraining signal for the mammalian circadian clock located in the suprachiasmatic nucleus (SCN). Light entering the eye leads to release of glutamate directly onto SCN neurons where it binds to N-methyl D-aspartate (NMDA) receptors initiating a cascade of cellular processes that ultimately modulates clock phase. SCN neurons show a 24-hour rhythm in neuronal activity that peaks in the middle of the day when isolated in a brain slice preparation. Treatments that phase-shift the SCN clock in vivo have been shown similarly to shift this rhythm of neuronal activity in vitro. Here, I have investigated …

High Resolution X-Ray And Neutron Crystallographic Studies Of Escherichia Coli Dihydrofolate Reductase, Brad C. Bennett

Doctoral Dissertations

Dihydrofolate Reductases (DHFRs) have been identified in nearly every proteome and are essential for most biosynthetic pathways involving one-carbon transfer reactions due to their recycling of tetrahydrofolate (THF). They catalyze the NADPH-dependent reduction of dihydrofolate (DHF), producing THF. Inhibition of DHFR ultimately depletes cellular pools of THF; causing a reduced supply of thymine nucleotides for DNA synthesis, resulting in genomic instability and cell death. Therefore, DHFRs remain important drug targets in antimicrobial and chemotherapeutic treatments. Despite exhaustive investigation of E. coli chromosomal DHFR, controversy persists over the dynamics of regulatory loops (the Met20, the βF-βG, and the βG-βH) and the …