Investigating the interactions between Wilms' tumor suppressor protein and the protein ligands par4, p53, Ciao 1 and U2AF65

Weiss, Tristen Carla

18 February 2010

Wilms' tumor suppressor protein (WTI) is a key regulatory factor involved in controlling the development and normal physiology of the genitourinary tract. Mutations within WT1 result in multiple syndromes affecting the kidney and gonads with the most severe effects being Wilms' tumor, a pediatric kidney cancer. The WTI protein is composed of two distinct functional domains; the amino terminus is a proline and glutamine rich regulatory domain, while the carboxyl terminus is a DNA binding domain which contains four C2H2 zinc fingers. Although the zinc finger motif is small in size, proteins containing zinc fingers are extremely diverse in their functions. The functional diversity of WT1 is exemplified through its interactions with a wide range of ligands, such as DNA, RNA and proteins. The interaction between WT1 and DNA has been well characterized, while the interactions with RNA and proteins still require intensive investigation. Recent studies have identified a diverse group of WT1 protein partners but the characterization of the protein-protein interactions has been limited and inconclusive. Therefore, the experiments conducted in this study focused on investigating the mechanism of interaction between WTI with the protein ligands Ciao 1, p53, par4, and U2AF65. To identify which WTI zinc finger(s) are critical in protein binding, a series of finger swap and deletion mutant proteins were created using site directed mutagenic PCR. The effects the mutant proteins had on the protein interactions were analyzed qualitatively using GST pulldown assays. Two different approaches were used for the GST pulldown assays. The first approach utilized bacterially expressed and purified proteins. None of the mutant WTI proteins exhibited a decrease in protein binding in these assays. Numerous pulldown trials involving various zinc fmger proteins revealed non-specific protein-protein interactions were occurring. The second approach employed in vitro translated 35S-labelled proteins. The results from these assays demonstrate a clear role for WT lzf3, and a possible role for WTI zf4 in the WT 1-par4 interaction. The replacement of WT 1 zinc fingers 3 and 4 with those from YY1 caused a distinct reduction in binding to par4 which was exclusive for the WT1-par4 interaction. YY1 is a transcription factor from yeast that contains four C2H2 type zinc fingers. A decrease in binding between the chimeric proteins WTI :YY1 and the protein partners Ciao 1 and U2AF65 was also observed, although to a much lesser extent. This difference in binding ability may indicate that the interactions between WT1 and its protein ligands involve different zinc fingers.

Zinc-finger proteins

Ultrasound imaging of finger tendons at the bedside in the emergency department: a pilot study to assess whether it is a feasible and useful investigation

Hall, Ann Charlotte

Unknown Date

The interplay of structures in the finger that facilitate movement is complex and not yet fully understood. Subtle finger injuries are often missed during the initial assessment in the Emergency Department, because clinical examination of the acutely injured hand can be difficult. The consequences of unrecognized finger injuries can be devastating for the patient. Ultrasound imaging of tendons is a useful investigative tool although little has been published regarding the reliability of finger tendon measurements. The overall objective of this project was to establish if bedside ultrasound imaging of tendons was possible and useful in the setting of acute injury. The project was divided into two studies.In the first study, 65 apparently normal volunteers were scanned to allow the principal investigator to practise and refine the ultrasound technique. The dimensions of the Extensor Digitorum Longus and two flexor tendons combined (Flexor Digitorum Profundus and Flexor Digitorum Superficialis) were measured in both transverse and longitudinal sections. Fifteen of the volunteers had their left middle fingers scanned twice within 48 hours to establish the test to retest reliability of tendon measurement. The established scanning technique was simple to perform and the scans, including both static and real time images, were completed within five minutes. All volunteers were able to tolerate a full scan. Measurement of tendon width showed fair to good reliability (Intra class correlation [ICC] of flexor tendons = 0.66, ICC of extensor tendon = 0.54). However measurement of the depth of all the tendons was unreliable test to retest (ICC < 0.37).In the second study, 30 patients who presented to the Emergency Department at Lismore Base Hospital with hand injuries were scanned for evidence of tendon injury and tendon gliding restriction. The patient’s ability to tolerate ultrasound examination was investigated. The scan findings were compared with the clinical findings and then to the operation report or to the patient’s self reported outcome, one month after injury.Patients were willing to undergo ultrasound examination regardless of the extent of their injury. There was a significant difference (p = 0.04) in scan tolerance related to the site of injury with 50% of those with extensor surface injuries having completed scans in comparison to 36% with flexor surface injuries and 9.1% of finger tip injuries. Injury mechanism was not related to scan tolerance.Excluding a partial tendon laceration was technically difficult due to the presence of anisotropy artefact. However, all complete tendon lacerations were successfully identified prior to surgery. The gliding of the tendons was easy to visualize and abnormal gliding was found to be a marker of tendon injury.The overall results show that ultrasound imaging of finger tendons at the bedside in the Emergency Department is a feasible examination to perform. The addition of ultrasound examination, however, did not identify any cases of tendon injury not already suspected on routine clinical examination.Therefore, this pilot study suggests that routine use of ultrasound examination to detect finger tendon injury in the Emergency Department setting will not prove to be a useful investigation. There may be a role for ultrasound as a screening tool as the gliding of normal tendons differed noticeably from the gliding of injured tendons. The presence of normal tendon gliding may be helpful in identifying those patients that are safe to be discharged from the Emergency Department without further evaluation.

ultrasound

finger

tendon

emergency

injury

Medicine and Health Sciences

Radiology

Ultrasound imaging of finger tendons at the bedside in the emergency department: a pilot study to assess whether it is a feasible and useful investigation

Hall, Ann Charlotte

Unknown Date

The interplay of structures in the finger that facilitate movement is complex and not yet fully understood. Subtle finger injuries are often missed during the initial assessment in the Emergency Department, because clinical examination of the acutely injured hand can be difficult. The consequences of unrecognized finger injuries can be devastating for the patient. Ultrasound imaging of tendons is a useful investigative tool although little has been published regarding the reliability of finger tendon measurements. The overall objective of this project was to establish if bedside ultrasound imaging of tendons was possible and useful in the setting of acute injury. The project was divided into two studies.In the first study, 65 apparently normal volunteers were scanned to allow the principal investigator to practise and refine the ultrasound technique. The dimensions of the Extensor Digitorum Longus and two flexor tendons combined (Flexor Digitorum Profundus and Flexor Digitorum Superficialis) were measured in both transverse and longitudinal sections. Fifteen of the volunteers had their left middle fingers scanned twice within 48 hours to establish the test to retest reliability of tendon measurement. The established scanning technique was simple to perform and the scans, including both static and real time images, were completed within five minutes. All volunteers were able to tolerate a full scan. Measurement of tendon width showed fair to good reliability (Intra class correlation [ICC] of flexor tendons = 0.66, ICC of extensor tendon = 0.54). However measurement of the depth of all the tendons was unreliable test to retest (ICC < 0.37).In the second study, 30 patients who presented to the Emergency Department at Lismore Base Hospital with hand injuries were scanned for evidence of tendon injury and tendon gliding restriction. The patient’s ability to tolerate ultrasound examination was investigated. The scan findings were compared with the clinical findings and then to the operation report or to the patient’s self reported outcome, one month after injury.Patients were willing to undergo ultrasound examination regardless of the extent of their injury. There was a significant difference (p = 0.04) in scan tolerance related to the site of injury with 50% of those with extensor surface injuries having completed scans in comparison to 36% with flexor surface injuries and 9.1% of finger tip injuries. Injury mechanism was not related to scan tolerance.Excluding a partial tendon laceration was technically difficult due to the presence of anisotropy artefact. However, all complete tendon lacerations were successfully identified prior to surgery. The gliding of the tendons was easy to visualize and abnormal gliding was found to be a marker of tendon injury.The overall results show that ultrasound imaging of finger tendons at the bedside in the Emergency Department is a feasible examination to perform. The addition of ultrasound examination, however, did not identify any cases of tendon injury not already suspected on routine clinical examination.Therefore, this pilot study suggests that routine use of ultrasound examination to detect finger tendon injury in the Emergency Department setting will not prove to be a useful investigation. There may be a role for ultrasound as a screening tool as the gliding of normal tendons differed noticeably from the gliding of injured tendons. The presence of normal tendon gliding may be helpful in identifying those patients that are safe to be discharged from the Emergency Department without further evaluation.

ultrasound

finger

tendon

emergency

injury

Medicine and Health Sciences

Radiology

Zinc-finger transcription factors and the response of non-myelinating Schwann cells to axonal injury

Ellerton, Elaine Louise,

January 1900

Thesis (Ph. D.)--University of Texas at Austin, 2008. / Vita. Includes bibliographical references.

Characterisation of the zinc fingers of erythroid krüppel-like factor

Hallal, Samantha.

January 2008

Thesis (Ph. D.)--University of Sydney, 2009. / Title from title screen (viewed February 10, 2009). Submitted in fulfilment of the requirements for the degree of Doctor of Philosophy to the School of Molecular and Microbial Biosciences, Faculty of Science. Degree awarded 2009; thesis submitted 2008. Includes bibliographical references. Also available in print form.

Structure and energetics of RNA-protein interactions for HIV RREIIB targeting zinc finger proteins.

Mishra, Subrata H.

January 2008

Thesis (Ph. D.)--Georgia State University, 2008. / Title from file title page. Markus W. Germann, committee chair; Kathryn B. Grant , W. David Wilson, committee members. Electronic text (147 p. : ill. (some col.)) : digital, PDF file. Description based on contents viewed Oct. 6, 2008. Includes bibliographical references.

Deciphering the molecular mechanisms of the transcriptional regulation mediated by orphan nuclear receptor COUP-TFI and C2H2 zinc finger protein Ctip2 /

Zhang, Lingjuan.

January 1900

Thesis (Ph. D.)--Oregon State University, 2010. / Printout. Includes bibliographical references (leaves 158-168). Also available on the World Wide Web.

An electromyographic analysis of the temporalis muscles and certain facial muscles in thumb and finger sucking patients a thesis submitted in partial fulfillment ... orthodontics ... /

Baril, Claude.

January 1959

Thesis (M.S.)--University of Michigan, 1959.

Darstellung der Auswirkungen von kohlensäurehaltigen Handbädern bei Patienten mit systemischer Sklerose und Raynaud-Phänomen mittels Doppler und B-Flow Ultraschalltechnik

Müller-Eschner, Matthias

January 2009

Zugl.: Giessen, Univ., Diss., 2009

Effect of relative humidity and temperature on the strength properties of finger-jointed furniture components from solid scots pine

Lindstam, Gustaf

January 2018

Mechanical strength in wood has always been compromised due to the complex behaviours of the material when interfered with moisture and heat. These factors has always limited the use of the material. However, the will of using more sustainable materials such as wood has contributed to a wider use of the material and several new ways that lead to improvement. Several of these methods emphasizes the joining of two wood components together endwise, where finger-joints are the most commonly used method. Several studies regarding how well finger-joints can withstand external load has been made over the years. However, many of these studies focuses on geometrical properties or strength varying in different species. This study focuses on how relative humidity and temperature affects mechanical strength in finger-jointed wood products. There were beliefs before the research started that increasing temperature would affect mechanical strength greatly. However, it turned out to only affect the mechanical strength marginally, and that relative humidity was the largest contributor to decreasing tolerance levels. It is important to notify that mechanical strength seemed to be directly affected to moisture content (MC), which is a result of an interactive relationship with both temperature and RH. It was particularly MC-levels above 9.2% that showed a decrease in mechanical strength. This research also focused on estimating the relative MOR per cross-section in varying conditions. This method could be used to better understand to which degree hygroscopic factors affects mechanical strength relative to the glued-surface area between finger-joints. Even though the findings in this study indicates that there seems to be possible to estimate strength in regards to relative MOR per cross-section, the results were not sufficient to be viewed as scientifically proof. The findings could however be used as ground for future studies.

Finger-joint

Engineering and Technology

Teknik och teknologier

Forest Science

Skogsvetenskap