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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

R7 photoreceptor axon targeting and presynaptic assembly in Drosophila

Holbrook, Scott, 1975- 12 1900 (has links)
xi, 56 p. : ill. (some col.) A print copy of this thesis is available through the UO Libraries. Search the library catalog for the location and call number. / The development of a functional nervous system is paramount for the ability of animals to interact with their environments. Minor defects in nervous system function compromise the effectiveness of sensing and responding to stimuli. Severe defects in nervous system function often lead to extreme sensory, cognitive and motor skill impairment. The nervous system is a complex network of connections, with each neuron making functional contacts with several other neurons. Any single animal species generally exhibits a stereotyped pattern of neuronal connectivity, but the specific intrinsic and extrinsic signals that impart to a neuron its unique connective properties have only recently begun to be identified. In this study, we use the Drosophila visual system to examine neuronal connectivity. Our screen for genes involved in R7 photoreceptor connectivity led to the identification of the RhoGAP domain-containing protein dsyd-1 and the transcriptional repressor tramtrack . Flies harboring homozygous mutant dsyd-1 R7s fail to phototax towards UV light, an innate behavior mediated by the R7s. Subsequent analysis of axons of dsyd-1 R7s showed abnormal morphology in the region of presynaptic sites, suggesting that similar to its role in C. elegans , dsyd-1 is involved in presynaptic assembly. Further analysis demonstrated a requirement for dsyd-1 function in docking presynaptic components to terminal sites of contact. R7 axons are restricted to non-overlapping columns in the optic neuropil, thereby preserving spatial visual information in the retintopic map. The axon terminals of tramtrack mutant R7s exhibit overgrowth, similar to that observed in R7s that have loss of function mutations in genes involved in the activin signaling pathway. Previous studies have shown that activin signaling is involved in restricting R7 axons to their appropriate columns, and our results demonstrate that tramtrack may be functioning in the same pathway. One of two tramtrack isoforms, ttk69 , is expressed in photoreceptors after they have differentiated, and expression of ttk69 is specifically required for R7 axon targeting. / Committee in charge: Eric Johnson, Chairperson, Biology; Victoria Herman, Advisor, Biology; Bruce Bowerman, Member, Biology; Christopher Doe, Member, Biology; Tom Stevens, Outside Member, Chemistry
22

Enhanced Survival of Apparent Presynaptic Elements on Polylysine-Coated Beads by Inhibition of Non-Neuronal Cell Proliferation

Burry, Richard W., Kniss, Douglas A., Ho, Raymond H. 28 October 1985 (has links)
Increased survival of presynaptic-like neuronal profiles was found in cell cultures of rat cerebellum when the non-neuronal cell numbers were reduced with an antimitotic drug. In both treated and untreated cell cultures, neurites grew onto the polylysine-coated surface of sepharose beads and formed a swelling. The neuronal swelling contained an accumulation of synaptic vesicles and a membrane density at the site of contact with the bead and was called an apparent presynaptic element. The apparent presynaptic elements in untreated cultures increased in number from the time the beads were added to the culture to 7 days incubation and then showed a decrease to one half the 7-day value at 14 days incubation. A 75% reduction in cell division of non-neuronal cells was seen in cultures exposed to a 5 × 10-6 M cytosine arabinoside (Ara-C) for 2 days. Adding polylysine-coated beads to cultures treated with Ara-C showed at 14 days incubation a 7-fold increase in the number of apparent presynaptic elements as compared to untreated cultures. Additional experiments examined the numbers of neurites on the beads and found only small differences between treated and untreated cultures. A decrease, however, was shown in the number of glial fibrillary acidic protein staining astrocytes on the surface of the beads in treated cultures. The reduction of astrocytes by Ara-C appeared to enhance the survival of apparent presynaptic elements but did not enhance the growth of neurites. These results suggest that proliferating non-neuronal cells at a site of injury in the central nervous system may inhibit the formation of synaptic contacts and the growth of neurites through the site of injury.
23

NEUROBIOLOGICAL MECHANISMS OF FEAR GENERALIZATION

Cullen, Patrick Kennedy 23 July 2013 (has links)
No description available.
24

Biomechanics and electrophysiology of sensory regulation during locomotion in a novel in vitro spinal cord-hindlimb preparation

Hayes, Heather Brant 18 October 2010 (has links)
The purpose of this dissertation was to gain insight into spinal sensory regulation during locomotion. To this end, I developed a novel in vitro spinal cord-hindlimb preparation (SCHP) composed of the isolated in vitro neonatal rat spinal cord oriented dorsal-up with intact hindlimbs locomoting on a custom-built treadmill or instrumented force platforms. The SCHP combines the neural and pharmacological accessibility of classic in vitro spinal cord preparations with intact sensory feedback from physiological hindlimb movements. thereby expanding our ability to study spinal sensory function. I then validated the efficacy of the SCHP for studying behaviorally-relevant, sensory-modulated locomotion by showing the impact of sensory feedback on in vitro locomotion. When locomotion was activated by serotonin and N-methyl D-aspartate, the SCHP produced kinematics and muscle activation patterns similar to the intact rat. The mechanosensory environment could significantly alter SCHP kinematics and muscle activitation patterns, showing that sensory feedback regulates in vitro spinal function. I further demonstrated that sensory feedback could reinforce or initiate SCHP locomotion. Using the SCHP custom-designed force platform system, I then investigated how presynaptic inhibition dynamically regulates sensory feedback during locomotion and how hindlimb mechanics influence this regulation. I hypothesized that contralateral limb mechanics would modulate presynaptic inhibition on the ipsilateral limb. My results indicate that contralateral limb stance-phase loading regulates ipsilateral swing-phase sensory inflow. As contralateral stance-phase force increases, contralateral afferents act via a GABAergic pathway to increase ipsilateral presynaptic inhibition, thereby inhibiting sensory feedback entering the spinal cord. Such force-sensitive contralateral presynaptic inhibition may help preserve swing, coordinate the limbs during locomotion, and adjust the sensorimotor strategy for task-specific demands. This work has important implications for sensorimotor rehabilitation. After spinal cord injury, sensory feedback is one of the few remaining inputs available for accessing spinal locomotor circuitry. Therefore, understanding how sensory feedback regulates and reinforces spinally-generated locomotion is vital for designing effective rehabilitation strategies. Further, sensory regulation is degraded by many neural insults, including spinal cord injury, Parkinson's disease, and stroke, resulting in spasticity and impaired locomotor function. This work suggests that contralateral limb loading may be an important variable for restoring appropriate sensory regulation during locomotion.
25

Experimental studies of spinal mechanisms associated with muscle fatigue

Kalezic, Ivana January 2004 (has links)
Muscle fatigue is ubiquitous in every day life.Muscle fatigue might be considered as an altered state of motor behaviour, which impairs motor performance. By contrast, muscle fatigue could also be considered a positive phenomenon, which protects muscle tissue from damage that might be incurred to it by overuse. The principal aim of the thesis was to explore some of the mechanisms of muscle fatigue at the spinal level in animal models.The activation of multiple motor units of a single calf muscle may influence contractile properties of its neighbouring, otherwise inactive units, providing evidence for spatial spreading of fatigue between different muscle parts. The release of metabolites, their action on inactive muscle units and the effects of local hypoxia are the most likely causes. Fatigue-induced metabolite shift in the interstitium provokes excitation and/or sensitisation of high-threshold afferent fibers, with complex effects on the spinal premotoneuronal network involved in the modulation of motoneuronal output. This was examined by studing the intrasegmental lamellar distribution of the lumbar spinal interneurons following fatiguing contractions of the triceps surae muscle. Furthermore, fatigue of calf muscles enhanced the activity of fusimotor neurons to these muscles irrespective of the regime of muscle activity (isometric vs. lengthening) in conditions that simulate locomotion. Altered fusimotor activity, through increased or maintained muscle spindle afferent responsiveness may be advantageous, providing support to the skeletomotor activity and enhanced information about muscle periphery to higher nervous centres. The particular effects of interneuronal network at motor input (presynaptic inhibition system) and output (recurrent inhibition system) stages were then addressed. Fatigue of triceps surae muscle induced a suppression of the monosynaptic reflex. The intensity of presynaptic inhibition increased, while the intensity of recurrent inhibition decreased. Post fatigue-evoked changes in monosynaptic reflexes and presynaptic inhibition indicate the possibility that high-threshold afferents inhibit group Ia terminals pre-synaptically, which would allow fatigue-induced signals from the muscle to reduce the relevance of proprioceptive feedback. Besides intrasegmental, intersegmental spreading of nociceptive signals was explored. Activation of sensory afferents from dorsal neck muscles by capsaicin induces powerful activation of interneurons located in the cervical spinal cord, as well as a widespread activation of cells in lumbar spinal cord segments. The results confirm the pivotal role of small diameter muscle afferents in the orchestration of segmental responses to fatigue and show complex interactions that may lead to limited accuracy of motor output. They also depict processes that may be related to, and even become precursors of chronic muscle pain.
26

Synaptic Transmission in the Leaner Mutant Mouse Calyx of Held/MNTB Synapse

Epps, Tina 20 January 2009 (has links)
The effects of alpha1A subunit mutations on presynaptic Ca2+ channel activity and functional development of synaptic properties remain elusive. The calyx of Held/medial nucleus of the trapezoid body synapse is an ideal model for studying the developmental effects of presynaptic voltage-gated Ca2+ channel (VGCC) impairment on synaptic function since simultaneous voltage-clamp recordings can be made directly from the pre- and postsynapse. The alpha1A subunit leaner (tgla/la) mutation induced a profound reduction in synaptic transmission after hearing onset (> postnatal day 12; P12), with relatively preserved relationship between presynaptic Ca2+ current (Pre-ICa) and release and G-protein-mediated inhibition. Some synaptic properties were more reflective of an immature state, while other properties displayed a delay in maturation after P12. Direct presynaptic recordings from P15/16 tgla/la nerve terminals revealed a decrease in the density of Pre-ICa, elevated activation threshold and slowing in the kinetics of VGCCs, all of which contribute to the deficit in transmitter release. Fractional contribution of P/Q-type channels to total Pre-ICa and their role in vesicle release was markedly reduced. N-type Ca2+ channels and close association of VGCCs to release sites was not sufficient to fully compensate for impaired P/Q-type channel function. The extent to which compensatory mechanisms preserve synaptic transmission at tgla/la synapses was further constrained by the developmental narrowing of the action potential waveform. Activation of the cAMP pathway by forskolin or direct modulation of VGCCs by cdk inhibitors rescued deficits in transmitter release at P15/16 tgla/la synapses. The major effect of roscovitine was a slowing of presynaptic VGCC deactivation kinetics accompanied by a leftward shift in the activation curve. Activation of the cAMP pathway or direct modulation of presynaptic VGCCs may serve as two potential pathways to facilitate release and improve neuronal communication at synapses normally compromised by impaired P/Q-type channel function. While significant for the tgla/la mutant, these studies provide an important advancement in our understanding of the crucial developmental and functional roles of P/Q-type Ca2+ channels in driving the maturation of synaptic properties at central synapses. These findings may improve our understanding of the pathophysiology of presynaptic VGCCs and elucidate essential mechanisms underlying the tgla/la phenotype.
27

Synaptic Transmission in the Leaner Mutant Mouse Calyx of Held/MNTB Synapse

Epps, Tina 20 January 2009 (has links)
The effects of alpha1A subunit mutations on presynaptic Ca2+ channel activity and functional development of synaptic properties remain elusive. The calyx of Held/medial nucleus of the trapezoid body synapse is an ideal model for studying the developmental effects of presynaptic voltage-gated Ca2+ channel (VGCC) impairment on synaptic function since simultaneous voltage-clamp recordings can be made directly from the pre- and postsynapse. The alpha1A subunit leaner (tgla/la) mutation induced a profound reduction in synaptic transmission after hearing onset (> postnatal day 12; P12), with relatively preserved relationship between presynaptic Ca2+ current (Pre-ICa) and release and G-protein-mediated inhibition. Some synaptic properties were more reflective of an immature state, while other properties displayed a delay in maturation after P12. Direct presynaptic recordings from P15/16 tgla/la nerve terminals revealed a decrease in the density of Pre-ICa, elevated activation threshold and slowing in the kinetics of VGCCs, all of which contribute to the deficit in transmitter release. Fractional contribution of P/Q-type channels to total Pre-ICa and their role in vesicle release was markedly reduced. N-type Ca2+ channels and close association of VGCCs to release sites was not sufficient to fully compensate for impaired P/Q-type channel function. The extent to which compensatory mechanisms preserve synaptic transmission at tgla/la synapses was further constrained by the developmental narrowing of the action potential waveform. Activation of the cAMP pathway by forskolin or direct modulation of VGCCs by cdk inhibitors rescued deficits in transmitter release at P15/16 tgla/la synapses. The major effect of roscovitine was a slowing of presynaptic VGCC deactivation kinetics accompanied by a leftward shift in the activation curve. Activation of the cAMP pathway or direct modulation of presynaptic VGCCs may serve as two potential pathways to facilitate release and improve neuronal communication at synapses normally compromised by impaired P/Q-type channel function. While significant for the tgla/la mutant, these studies provide an important advancement in our understanding of the crucial developmental and functional roles of P/Q-type Ca2+ channels in driving the maturation of synaptic properties at central synapses. These findings may improve our understanding of the pathophysiology of presynaptic VGCCs and elucidate essential mechanisms underlying the tgla/la phenotype.
28

Kainate receptor modulation of synaptic transmission in neocortex

Mathew. Seena S. January 2007 (has links) (PDF)
Thesis (Ph. D.)--University of Alabama at Birmingham, 2007. / Title from first page of PDF file (viewed Feb. 7, 2008). Includes bibliographical references.
29

On the cholinergic C-bouton /

Hellström, Johan, January 2004 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 4 uppsatser.
30

The effects of fluoxetine and environmental enrichment on recovery of function following focal dentate gyrus lesions

Salling, Michael C. January 2008 (has links) (PDF)
Thesis (M.A.)--University of North Carolina Wilmington, 2008. / Title from PDF title page (October 20, 2008) Includes bibliographical references (59-71)

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