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Full-Text Articles in Engineering
Vitamin D Receptor And 1Α, 25-Dihydroxyvitamin D3 Mediated Regulation Of Δnp63Α, Hill Tremayne Natasha
Vitamin D Receptor And 1Α, 25-Dihydroxyvitamin D3 Mediated Regulation Of Δnp63Α, Hill Tremayne Natasha
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1alpha, 25-dihydroxyvitamin D3 (VD3), the ligand for the Vitamin D Receptor (VDR), functions to both inhibit cell growth and promote cell survival. High-dose VD3 is being utilized as a cancer preventive therapy for melanoma, breast and colorectal cancers, without a complete understanding of VD3/VDR signaling. DeltaNp63alpha, considered to be a proto-oncogene, is overexpressed in non-melanoma skin cancers (NMSCs), induces VDR gene expression and promotes keratinocyte proliferation, and may serve to exacerbate non-melanoma skin cancer. The objective of this dissertation was to determine whether VDR/VD3 signaling promotes keratinocyte proliferation by up-regulating DeltaNp63alpha. I showed that VDR increases DeltaNp63alpha expression at both …
Silver Nanoparticles: The Immediate Benefits Of Low Bacterial Resistance And The Long-Term Risk Of Persistent Stress In Mammalian Cells, David Harold Ellis
Silver Nanoparticles: The Immediate Benefits Of Low Bacterial Resistance And The Long-Term Risk Of Persistent Stress In Mammalian Cells, David Harold Ellis
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Silver nanoparticles (AgNPs) are the fastest growing sector of nanotechnology, due mostly to their antibacterial properties. The antibacterial effectiveness of AgNPs is well known and derives from the shedding of silver ions which have multiple antibacterial targets in the bacterial cell. Due to their continuous release of ions and demonstrated antibacterial potency, some predict that AgNPs have a low potential for resistance development, which would make them a valuable asset in wound management. The ability for AgNPs to cause oxidative imbalance in mammalian cells is also well known, but the potential long-term impact of such a stress has not been …
Regulation Of Motoneuron Firing Properties: Intrinsic And Circuit-Based Mechanisms, Adam S. Deardorff
Regulation Of Motoneuron Firing Properties: Intrinsic And Circuit-Based Mechanisms, Adam S. Deardorff
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Body and limb movements are controlled by regulating the activity of motor pools and their constituent motoneurons. An extensive complement of tightly regulated ion channels and second messenger systems determine active motoneuron spiking behavior, while segmental propriospinal circuits ensure the faithful execution of motor commands by providing real time sensory feedback to motoneurons and other somatosensory centers. However, current mechanistic understanding is incomplete for critical factor regulating motoneuron firing properties. Fundamental gaps in knowledge exist regarding (a) the spatial distribution and organization of specific ion channels in motoneurons, (b) the contribution of specific channels to motoneuron intrinsic properties, (c) the …
Manipulation Of Gold Nanorod Physicochemical Properties To Enhance Biocompatibility, Uptake And Intracellular Preservation Of Optical Properties For Bio-Imaging And Plasmonic Photo-Therapeutic Applications, Anthony B. Polito
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Gold nanorods (GNRs) due to their tunable optical properties within the near infrared (NIR) region have been identified as strong candidates for new nano-based biomedical applications. Unfortunately, many have reported GNR cytotoxicity and it is still unclear how GNR aspect ratio (AR), surface charge and surface chemistry contribute to cellular association and cytotoxicity. GNR surface chemistry modifications have been reported to reduce cytotoxicity, however they can result in poor cellular uptake and loss of NIR optical properties preventing efficiency with bio-imaging and photo-thermal applications. The aim of this study was to determine if manipulation of GNR physicochemical properties could enhance …
A Novel Function For Fancj Helicase In Microsatellite Stabilization During Replication Stress, Joanna Barthelemy
A Novel Function For Fancj Helicase In Microsatellite Stabilization During Replication Stress, Joanna Barthelemy
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Noncanonical DNA structure-forming sequences, such as hairpin structures, stall replication forks in vivo, expand or contract during DNA replication, and colocalize with chromosome fragile sites. Since the frequency of hairpin formation is higher than the frequency of expansion or contraction, the cell may possess mechanisms to resolve hairpin structures prior to replication fork stalling. One possible activity for hairpin resolution is the FANCJ DNA helicase, known to unwind noncanoncial DNA structures in vitro. Indeed, mutations or loss of any of the nineteen FANC genes, including FANCJ, leads to genome instability and the cancer-prone syndrome Fanconi anemia (FA). To test whether …
The Organization Of Kv2.1 Channel Proteins In The Membrane Of Spinal Motoneurons: Regulation By Injury And Cellular Activity, Shannon Hunt Romer
The Organization Of Kv2.1 Channel Proteins In The Membrane Of Spinal Motoneurons: Regulation By Injury And Cellular Activity, Shannon Hunt Romer
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The intrinsic membrane properties of neurons in the central nervous system are controlled by the tight regulation of membrane-bound ion channels. Rather than existing as static entities operating only in opened or closed states in fixed locations, ion channels are dynamic molecules with the capacity to adopt multiple functional states through conformational changes and/or post-translational modification - enabling flexibility in their activity. Furthermore, the location of ion channels within certain membrane compartments and/or signaling ensembles is critical to synaptic integration and shaping of firing properties, and can also be dynamically modified by changes in neuronal activity and pathology. In mammalian …