Global ETD Search

31	Development of Zinc-Finger-Based Artificial Restriction Endonucleases and Fluorescent Peptidyl Metal Sensors Czerny, Florian 08 August 2016 (has links) No description available. 540 Zinc finger Zif268 Chemie (PPN62138352X)
32	Hand function assessment: a study of finger amputation. January 1991 (has links) by Ho Kim Kong Enoch. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1991. / Includes bibliographical references (leaves 98-102). / ABSTRACT --- p.I / ACKNOWLEDGMENT --- p.IV / TABLE OF CONTENTS --- p.V / LIST OF TABLES --- p.VIII / LIST OF ILLUSTRATIONS --- p.X / Chapter CHAPTER 1 - --- INTRODUCTION --- p.1-5 / Chapter 1.1 --- Introduction / Chapter 1.2 --- Questions address / Chapter 1.3 --- Definition / Chapter CHAPTER 2 - --- LITERATURAL REVIEW - DEVELOPMENT OF HAND FUNCTION TESTS --- p.6-14 / Chapter 2.1 --- Introduction / Chapter 2.2 --- Trends of studies of hand injury in Hong Kong / Chapter 2.3 --- Previous studies to compare and relate physical and functional impairment / Chapter 2.4 --- Conclusion / Chapter CHAPTER 3 - --- FUNCTION ASSESSMENT - CRITERIA FOR THE EVALUATION --- p.15-28 / Chapter 3.1 --- Introduction / Chapter 3.2 --- Functional Anatomy / Chapter 3.3 --- Grip force study / Chapter 3.4 --- Sensation / Chapter 3.5 --- Functional assessment / Chapter 3.6 --- Conclusion / Chapter CHAPTER 4 - --- METHODOLOGY --- p.29-43 / Chapter 4.1 --- Subject selection / Chapter 4.2 --- Organization / Chapter 4.3 --- Physical assessment / Chapter 4.4 --- Functional assessment / Chapter 4.5 --- Evaluation of loss of earning capacity / Chapter 4.6 --- Control group / Chapter 4.7 --- Statistical analysis / Chapter CHAPTER 5 - --- RESULT --- p.44-57 / Chapter 5.1 --- Introduction / Chapter 5.2 --- Subject characteristics / Chapter 5.3 --- Result of individual tests / Chapter 5.4 --- Assessment of loss of earning capacity / Chapter 5.5 --- Hand function assessment after return to work / Chapter 5.6 --- Effect of severity of injury / Chapter CHAPTER 6 - --- DISCUSSION --- p.58-67 / Chapter 6.1 --- Introduction / Chapter 6.2 --- Impairment of hand function in finger amputation / Chapter 6.3 --- The effect of return to work / Chapter 6.4 --- Official schema for assessment of percentage of loss of earning capacity / Chapter 6.5 --- Severity of injury and the outcome / Chapter 6.6 --- The hand assessment protocol / Chapter CHAPTER 7 - --- CONCLUSION --- p.68-70 / APPENDIX --- p.71-90 / ILLUSTRATIONS --- p.91-97 / REFERENCES --- p.98-102 Finger Injuries--rehabilitation Hand Amputation--rehabilitation
33	Changes In angulation and phalangeal length of fingers and thumbs following surgical treatment for congenital clinodactyly Gordon, Alanna Alexandra 22 January 2016 (has links) INTRODUCTION: Congenital clinodactyly is a condition characterized by the deviation of a digit or digits in the coronal plane. Angulation is often due to the presence of a delta phalanx. There is a scarcity of long-term data regarding the results of surgical treatment for clinodactyly, particularly with respect to postoperative phalangeal growth and risk factors for recurrent deformity. METHODS: Our retrospective study involved the analysis of data from medical records of patients who had corrective surgery for congenital clinodactyly. We also measured radiographs to quantify the angle of deviation and the longitudinal lengths of the surgically corrected phalanx and corresponding metacarpal. Clinodactyly was defined as radiographic angulation of 10° or greater in the coronal plane. Recurrence was defined as a final angulation of 10° or greater as well as an increase of at least 10° compared with the immediate postoperative measurement. The primary ratio was defined as the ratio of the length of the primary ossification center of the surgically corrected phalanx to the length of the primary ossification center of the corresponding metacarpal. The secondary ratio was the ratio of the length of the primary and secondary ossification centers together of the corrected phalanx to those of the metacarpal. Comparisons were made between preoperative, postoperative, and most-recent follow-up values. Postoperative data was restricted to radiographs taken within three months after surgery. Final follow-up data was initially permitted if radiographs were taken at least one year after surgery. Additional analysis was performed of patients with a minimum of two years clinical and radiographic follow-up. RESULTS: There was a significant decrease in angulation with surgery and a significant increase in angulation postoperatively (p<0.001; p<0.01). Overall, the mean preoperative and final digital angulation was 40.4° and 17.4°, respectively, when a two-year minimum between the time of surgery and final follow-up measurements was implemented. This resulted in a significant average correction of 23.3° (p<0.001). The postoperative change in angulation was found to be significantly different depending on the surgical technique used. Digits corrected with reverse wedge osteotomies showed little to no change in angulation during the postoperative period. However, digits corrected with closing wedge osteotomies showed a significant increase in angulation between the immediate postoperative and final follow-up measurements (p=0.007). The rate of recurrence was 43.2% (95% CI: 28.7-58.9% with a one year minimum for follow-up; 95% CI: 27.5-60.4% with a two year minimum for follow-up). Postoperative changes in angulation or recurrence were not significantly associated with gender, patient age at the time of surgery, the type of digit corrected, coexisting congenital syndromes, or the presence of additional hand abnormalities. The primary ratio decreased significantly with surgery, from 0.35 preoperatively to 0.27 postoperatively (p=0.03). The primary ratio then increased significantly over time to 0.40 when there was a two-year minimum between the time of surgery and final follow-up. There was an insignificant change in primary ratio from immediately after surgery to final follow-up when data as early as one year postoperatively was included. The secondary ratio did not change significantly with surgery or during the postoperative period regardless of whether one or two-year time restrictions were in place. The mean secondary ratio was 0.29 before surgery, 0.25 immediately after surgery, and 0.33 at the time of final follow-up at least two years after surgery. CONCLUSIONS: Surgery to correct clinodactyly effectively decreases angulation of the digit, despite the risk of recurrent deformity over time. Our study did not identify any factors associated with recurrence. However, there was a significant difference in the change in angulation between the immediate postoperative and final follow-up measurements depending on the surgical technique used. Surgery to correct clinodactyly does not hinder postoperative growth of the corrected phalanx. Medicine Clinodactyly Delta phalanx Finger Surgery
34	Characterisation of the non-canonical zinc finger protein ZFP263 in mouse Delahaye, Celia January 2018 (has links) Multicellular organisms are composed of a number of different specialised cells that all carry the same genetic material but are highly divergent in their functions and characteristics. This diversity is only allowed because sets of specific genes are expressed in one type of cells and silent in others. A precise control mechanism is required to fine-tune gene regulation and relies on chromatin structure and regulatory proteins. One of the largest families of DNA-binding factors that influence this in human and mouse is the KRAB zinc finger protein (KZFP) family. KZFPs are thought to have rapidly evolved alongside transposable elements and be mediators of transcriptional repression. The few KZFPs that have been characterised so far have been shown to be involved in a wide range of regulatory and biological processes; hence it is hard to make functional generalisations. During my PhD, I studied one member of the KZFP family in mouse, ZFP263, with the aim of understanding its mechanism of action in mouse embryonic stem cells (mESCs) and its role in mice. My work has shown that ZFP263 is an ancient protein highly conserved in mammals and under purifying selection. One of its two functional domains however is divergent from the consensus sequence found in most KZFPs and suggests that ZFP263 might have lost the ability to recruit repressive chromatin states. My research identified the targets of ZFP263 binding in mESCs and showed that it does not bind and silence transposable elements. Indeed it targets unique regions of the genome, mostly within transcribed regions of genes. These genes show a wide range of expression levels and are involved in several key biological processes. Surprisingly, binding sites are not associated with the canonical KZFP co-factor but mostly co-localize with active histone marks. My findings lead me to hypothesise that ZFP263 has evolved to target active epigenetic states to unique regions that are positive regulators of transcription, in contrast to the more canonical model of KZFP function. To test this hypothesis, I have generated targeted mutations at Zfp263 in mice using CRISPR-Cas9 and my preliminary results suggest that Zfp263 mutants have growth defects indicating a role for this protein in mouse development. My findings indicate that ZFP263 is a unique KZFP with non-canonical properties and provide novel insights into the evolution and functions of KZFPs in mammals.
35	Studies on HIV-1 virion infectivity factor / Feng Feng. Feng, Feng January 2004 (has links) "October, 2004" / Bibliography: leaves 118-154. / xii, 154 leaves : ill. (some col.), plates (col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, School of Molecular and Biomedical Sciences, Discipline of Microbiology and Immunology, 2005 Zinc-finger proteins. HIV infections. Transcription factors.
36	Einfluss von Arsenverbindungen auf die Funktion der DNA-Reparaturproteine Fpg, XPA und PARP-1 Walter, Ingo January 2007 (has links) Zugl.: Berlin, Techn. Univ., Diss., 2007
37	Design and Control of an Anthropomorphic Robotic Finger with Multi-point Tactile Sensation Banks, Jessica 01 May 2001 (has links) The goal of this research is to develop the prototype of a tactile sensing platform for anthropomorphic manipulation research. We investigate this problem through the fabrication and simple control of a planar 2-DOF robotic finger inspired by anatomic consistency, self-containment, and adaptability. The robot is equipped with a tactile sensor array based on optical transducer technology whereby localized changes in light intensity within an illuminated foam substrate correspond to the distribution and magnitude of forces applied to the sensor surface plane. The integration of tactile perception is a key component in realizing robotic systems which organically interact with the world. Such natural behavior is characterized by compliant performance that can initiate internal, and respond to external, force application in a dynamic environment. However, most of the current manipulators that support some form of haptic feedback either solely derive proprioceptive sensation or only limit tactile sensors to the mechanical fingertips. These constraints are due to the technological challenges involved in high resolution, multi-point tactile perception. In this work, however, we take the opposite approach, emphasizing the role of full-finger tactile feedback in the refinement of manual capabilities. To this end, we propose and implement a control framework for sensorimotor coordination analogous to infant-level grasping and fixturing reflexes. This thesis details the mechanisms used to achieve these sensory, actuation, and control objectives, along with the design philosophies and biological influences behind them. The results of behavioral experiments with a simple tactilely-modulated control scheme are also described. The hope is to integrate the modular finger into an %engineered analog of the human hand with a complete haptic system. AI tactile sensation finger robot anthropomorphic skin
38	Structural characterization of N-terminus of XIAP associated factor 1 Wong, Wai-fung., 黃偉鋒. January 2011 (has links) The main focus of this thesis is to study the physical characteristics of the N-terminus of human XAF1 protein, a 17kD protein named NTA1, by biophysical methods. Structural studies of the N-terminus of XAF1 serves as a base for the studies of the structure and function relationship of the N-terminus, and the same maybe true for the full length XAF1. Bioinformatics analysis shows that NTA1 shares high sequence identity with the TRAF-type zinc finger domain-containing protein 1 (TRAFD1) and FLN29. Protein structure prediction has been performed on NTA1 by the I-TASSER web server. The prediction result suggests that NTA1 is a structure that consists of α-helices which are joined by flexible linkers. The loose structure shown by I-TASSER is expected to have high solvent accessibility. This coincides with the deuterium exchange data. In addition, by the CD approach, NTA1 was estimated to contain high α-helix content. This result is consistent with the bioinformatics prediction and the secondary structure obtained from the chemical shift index method as well. The physical characterizations of NTA1 showed that NTA1 is a loosely packed protein; and the five zinc ions are bound in the protein structure. Based on the chemical shifts of β-carbons, the Cysteine residues Cys8, Cys11, Cys34, Cys37, Cys50, Cys59, Cys62, Cys86, Cys89 and Cys115 showed a significantly downfield shift, they are probably involved in the zinc ions coordination. The dynamic property of NTA1 was investigated by NMR techniques. Backbone dynamics of NTA1 reveal that NTA1 does not have a typical spherical structure, it is anisotropic. Residues corresponding to the zinc finger regions in the predicted structure show large R2/R1 and S2 values, while regions shown to be flexible linkers in the 3D structure prediction show small R2/R1 and S2 values. Thus, the protein structure homology modeling data are supported by the backbone dynamics data. / published_or_final_version / Chemistry / Master / Master of Philosophy Zinc-finger proteins. Apoptosis - Molecular aspects.
39	Structural insights into eukaryotic DNA damage response from NMR studies of unusual zinc finger complexes Eustermann, Sebastian January 2011 (has links) No description available. 610 DNA damage ; Zinc-finger proteins
40	Wheat Zinc Finger Proteins Potentially Involved in Drought Adaptation Mr Wing-hei Kam Unknown Date (has links) No description available.

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