‘The truth of wounded memories’ : the question of forgiveness in selected post-apartheid texts

Van Vuuren, Marijke Elizabeth

17 June 2012

Apartheid may have ended formally in 1994, but its legacy endures in many aspects of South African society and in the lives of individual South Africans. One of the difficulties which post-apartheid South Africa has had to contend with is the question of justice for the victims of atrocities committed during the apartheid years, and the possibility of redress. The Truth and Reconciliation Committee (TRC) was established in order to formalise a process whereby victims could tell their stories and have their pain recognized, and to grant perpetrators an opportunity to provide information and acknowledge their wrongdoing. This thesis explores the possibility of forgiveness in relation to the complexities of guilt and victimhood. Forgiveness is posited as a powerful and viable response, which has the potential to free both the perpetrators and the injured parties from the stranglehold of the past. The thesis draws on studies which approach the question of forgiveness from a moral and philosophical perspective. These include the work of historians and theorists such as Simon Wiesenthal, Hannah Arendt, Jacques Derrida and Paul Ricoeur. It then goes on to consider the ways in which a number of seminal post-apartheid texts, works of fiction and non-fiction, have dealt with forgiveness and its potential to heal. One chapter focuses specifically on texts which deal with the TRC and its aftermath, especially Antjie Krog’s Country of My Skull (1999) and Pumla Gobodo-Madikizela’s A Human Being Died That Night (2003). This is followed by an analysis of three important novels which foreground and problematise the issue of forgiveness: J. M. Coetzee’s Disgrace (1999), Marlene van Niekerk’s Agaat (published initially in Afrikaans in 2004, and then in an English translation in 2006), and Mark Behr’s Kings of the Water (2009). Nelson Mandela will not go down in history for the 27 consecutive years that he lived imprisoned without ever renouncing his ideas. He will go down in history because he was able to draw from his soul all the poison accumulated by such an unjust punishment. He will be remembered for his generosity and for his wisdom at the time of an already uncontainable victory, when he knew how to lead so brilliantly his self-sacrificing and heroic people, aware that the new South Africa would never be built on foundations of hatred and revenge. / Thesis (DLitt)--University of Pretoria, 2012. / English / unrestricted

Heroic people

Forgiveness

Selected post-apartheid texts

Self-sacrificing people

UCTD

Sacrifice in Marriage: Motives, Behaviors, and Outcomes

Figuerres, Kevin Shitamoto

20 November 2008

Today's society appears to have become focused on the individual and his/her exclusive needs in relationships. Self-sacrifice has seemingly become a forgotten value and behavior. The motives for sacrificing for another can widely vary for each individual. This study examined the effects of couples' sacrificing behaviors and the motives for sacrificing on the couples' marital quality. In this research, a random sample of 138 couples from Oakland, CA; Phoenix, AZ; Ogden, UT; and Atlanta, GA were assessed on these variables using the Self Perception of Sacrifice, Partner Perception of Sacrifice, Motives for Sacrifice, Revised Dyadic Adjustment Scale, and Personal Assessment of Intimacy in Relationships measures. Analyzing the data with structural equation modeling showed that approach and avoidance motives for sacrifice were related to the individual's marital quality. The approach motives were also related to the individual's actual frequency of sacrificing, but only wives' avoidance motives were a predictor of her frequency in sacrificing. Husband's sacrificing frequency was a strong predictor of his own marital quality and also his wife's. The wife's frequency of sacrificing was also connected with her and his marital quality, but was not as strong of a predictor as his frequency of sacrificing. In examining the partner effects, only wives' approach and avoidance motives had an effect upon their husband's marital quality. Husband's approach and avoidance motives were not related to his wife's marital quality; rather, the husband's actual frequency of sacrifice and the wife's perception of his sacrificing influenced her marital quality. Husbands' and wives' approach motives were associated with their partner's frequency of sacrifice, but their avoidance motives were not significant predictors of their partner's frequency of sacrifice. Clinical implications and directions for future research are discussed.

sacrifice

sacrificing behaviors

couples

motives

motivation

marital quality

relationship quality

Family, Life Course, and Society

CT610: A Mn-Dependent Self-Sacrificing Oxygenase in p-Aminobenzoate Biosynthesis in Chlamydia trachomatis

Wooldridge, Rowan Scott

09 June 2022

Folate is an essential cofactor required for several processes including DNA and amino acid biosynthesis. Folate molecules are made up of three parts: a pteridine ring, p-aminobenzoate (pABA), and a variable number of glutamate residues. Chlamydia trachomatis synthesizes folate de novo; however, several genes encoding enzymes required for the canonical folate biosynthesis pathway are missing, including pabA/B and pabC, which are normally required for pABA biosynthesis from chorismate. Previous studies have found that a single gene in C. trachomatis, CT610, functionally replaces the canonical pABA biosynthesis genes. Interestingly, CT610 does not use chorismate as a substrate. Instead, the CT610-route for pABA biosynthesis incorporates isotopically labeled tyrosine into the synthesized pABA molecule. However, in vitro experiments revealed that CT610 produces pABA without any added substrates (including tyrosine) in the presence of a reducing agent and molecular oxygen. CT610 shares low sequence similarity to non-heme diiron oxygenases and the previously solved crystal structure revealed a diiron active site. Taken together, CT610 is proposed to be a novel self-sacrificing enzyme that uses one of its active site tyrosine residues as a precursor to pABA in a reaction that requires O2 and a reduced metallocofactor. Here, we discuss our progress towards understanding CT610-catalyzed pABA synthesis. Upon investigation of the pABA production and oxygenase activities of several active site tyrosine to phenylalanine variants, we found that Y27 and/or Y43 are the most likely precursors to the resulting pABA molecule. Further, activity was nearly completely abolished with a K152R variant, suggesting that this conserved lysine may be the required amino group donor. We also developed an in vitro Fe(II) reconstitution procedure, where the reconstituted enzyme exhibited a drastic increase in oxygenase activity but, surprisingly, a significant decrease in pABA synthase activity. Interestingly, a significant increase in pABA synthase activity was observed when the enzyme was reconstituted with manganese as opposed to iron, suggesting that the diiron active site of this enzyme might not be directly involved in CT610-dependent production of pABA and instead Mn may be the actual cofactor. Finally, we show that two 18O atoms from molecular oxygen are incorporated into the pABA molecule when synthesized by Mn-reconstituted CT610, providing further evidence for the oxygenase activity of CT610 and supporting our proposed mechanism that involves two monooxygenase reactions. / Master of Science in Life Sciences / Folate is an essential molecule that is required for all cells to survive. Folate is usually made in the cell with the help from proteins known as enzymes. Enzymes help biochemical reactions happen by speeding up the rate of their specific chemical reaction. In order for this to occur, an enzyme binds to a very specific molecule, called a substrate, and facilitates the reaction transforming the substrate into a new product while not altering the enzyme in the process, allowing for the protein to continuously facilitate this reaction. Chlamydia trachomatis is the strain of bacteria that causes one of the most common sexually transmitted infections in the US, Chlamydia. These bacteria make folate themselves but have been shown to make this molecule in a very different way from an average folate-synthesizing organism. One enzyme in C. trachomatis known as CT610 has been shown to participate in this unusual route to produce folate. Interestingly, CT610 is thought to remove part of itself to donate to the molecule it produces, effectively killing the enzyme after only one reaction. In this study we show that CT610 performs very unique chemistry to ultimately facilitate the production of folate to allow C. trachomatis to survive. This knowledge could be used in the future for the design of antibiotics specifically targeting C. trachomatis and thus treating the infections caused by this organism.

Self-Sacrificing enzyme

oxygenase

folate biosynthesis

Biochemical Characterization of Self-Sacrificing P-Aminobenzoate Synthases from Chlamydia Trachomatis and Nitrosomonas Europaea

Stone, Spenser

05 June 2023

Tetrahydrofolate (THF) is an essential cofactor for one-carbon transfer reactions in various biochemical pathways including DNA and amino acid biosynthesis. This cofactor is made up of three distinct moieties: a pteridine ring, p-aminobenzoate (pABA), and glutamate residues. Most bacteria and plants can synthesize folate de novo, unlike animals that obtain folate from their diet. An established pathway for THF biosynthesis exists in most bacteria, but there is evidence of some organisms such as Chlamydia trachomatis and Nitrosomonas europaea which do not contain the canonical THF biosynthesis genes, despite still being able to synthesize THF de novo. Previous studies have shown that these organisms do not contain the pabABC genes, normally required to synthesize the pABA portion of THF, and can circumvent their presence with just a single gene: ct610 and ne1434 from C. trachomatis and N. europaea, respectively. Interestingly, these novel enzymes for pABA synthesis do not use the canonical substrates, chorismate or other shikimate pathway intermediates. The gene product of ct610 was named Chlamydia Protein Associating with Death Domains (CADD) due to its established role in host mediated apoptosis, while the crystal structure showed an architecture similar to know diiron oxygenases. However, we provide evidence of a moonlighting function in pABA synthesis. Isotopic labeling experiments to understand what substrate might be used by CADD found that isotopically labeled tyrosine was incorporated into the final pABA product. Compellingly, CADD was able to produce pABA in the presence of molecular oxygen and a reducing agent alone without the addition of any exogenous substrate, implicating this unusual enzyme as a self-sacrificing pABA synthase from C. trachomatis. Here, we provide strong evidence for Tyr27 being a sacrificial residue that is cleaved from the protein backbone to serve as the pABA scaffold. Furthermore, we also provide evidence that K152 is an internal amino donor for this pABA synthase reaction performed by CADD. In the case of NE1434, we have conducted initial experiments such as site-directed mutagenesis and our findings suggest that these self-sacrificing residues are conserved between two distantly related organisms. Finally, the pABA synthase activity is reliant on an oxygenated dimetal cofactor and despite the crystal structure of CADD depicting a diiron active site, we have demonstrated that CADD's pABA synthase activity is dependent on a heterodinuclear Mn/Fe cofactor. Conversely, NE1434 demonstrates no preference for manganese and likely employs a more traditional Fe/Fe cofactor for catalysis. Our results implicate the CADD and NE1434 as self-sacrificing pABA synthases that have diverging metal requirements for catalysis. / Master of Science in Life Sciences / Folate is a molecule used by all organisms that is necessary for survival. Many kinds of bacteria are able to make this molecule with proteins called enzymes, which help by quickening the rate of a reaction. Enzymes are catalysts that usually work by binding a molecule, called a substrate, and will act on this substrate to generate a product; the enzyme remains unchanged in this process, which allows it to facilitate many more of these reactions. Chlamydia trachomatis, which is a leading cause of sexually transmitted infections (STIs) in the United States, and Nitrosomonas europaea, an environmental bacterium, are able to use enzymes to make their own folate, but not in the way that many other bacteria do. These organisms contain enzymes that use a part of their own structure as a substrate, making them "sacrificial lambs". Our study provides evidence of how these organisms carry out an abnormal chemical reaction to make folate which can help scientists target this pathway for the development of antibiotics.

Chlamydia trachomatis

Nitrosomonas europaea

self-sacrificing enzyme

folate biosynthesis

p-aminobenzoate

oxygenase

metalloenzyme

Biblické podobenství a jeho výtvarná interpretace / Biblical parable and its artistic interpretation

KREJČÍ, Astrid

January 2018

Diploma thesis named "Biblical parables and its artistic interpretation" consists of two parts theoretical part and practical part. The goal of the theoretical part is to compare biblical story from the Old Testament with a New Testament parable, describe and explain all fundamental symbols found in these narratives. The first part of the diploma thesis describes the origin of Bible and Bible in general. The story of Sacrificing of Isaac is chosen from the Old Testament and parable of Prodigal son is chosen from the New Testament. The theoretical part deals with description of both narratives and the symbols involved in them and also artists who were inspired by the Book of books in their work. In the practical part findings form theoretical part will be applied to create free graphical papers using linocut and woodcut techniques with the Prodigal son comeback theme.

Impact of intraoperative adjustment method for increased flexion gap on knee kinematics after posterior cruciate ligament‐sacrificing total knee arthroplasty / 後十字靭帯切除型人工膝関節置換術における膝屈曲時の関節開大に対する術中対処法が術後機能に及ぼす影響

Watanabe, Mutsumi

23 March 2020

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22346号 / 医博第4587号 / 新制||医||1042(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 安達 泰治, 教授 森本 尚樹, 教授 福原 俊一 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Excessive flexion gap

Adjustment method

Joint line elevation

Femoral flexion setting

Larger femoral component

490