Role of the NC protein of human immunodeficiency virus type 1 in viral RNA dimerization and packaging, as well as in virus replication and stability

Kafaie, Jafar.

January 2008

No description available.

RNA, Viral -- metabolism.

Nucleocapsid Proteins -- metabolism.

HIV-1 -- physiology.

Dimerization.

Taming Highly Unstable Radical Anions Using Flow Microreactors / フローマイクロリアクターによる不安定ラジカルアニオンの反応制御

Jiang, Yiyuan

23 March 2023

京都大学 / 新制・課程博士 / 博士(理学) / 甲第24435号 / 理博第4934号 / 新制||理||1705(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)教授 依光 英樹, 教授 若宮 淳志, 教授 畠山 琢次 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

flow microreactor

reductive dimerization

borylmetallation

dianion

radical anion

400

MECHANISMS OF ACTION OF THE ESTROGEN RECEPTOR

SHEELER, CAMERON Q.

11 October 2001

No description available.

Biology, Molecular

estogen receptor

coactivator

environmental estrogens

antiestrogens

dimerization

Conserved Variation in Tandem Repeat Sequences Tunes the Self-Assembly and Stability Characteristics of the Staphylococcus epidermidis Biofilm Protein Aap

Shelton, Catherine L.

10 October 2016

No description available.

Biochemistry

biofilm

intercellular adhesion

Aap

stability

dimerization

Staphylococcus

Structural basis and functional impact of ligand-independent dimerization for human prolactin receptor

Liu, Wei

05 January 2012

No description available.

Biochemistry

prolactin receptor

human

dimerization

disulfide

structure function

The Challenge of Selectivity in Ethylene Oligomerization: Ligand Design and Metal Valence States

Thapa, Indira

23 August 2012

Catalytic ethylene oligomerization is a well understood industrially viable process. The large majority of scientific literature and patents concerning this process has been developed with the use of chromium catalysts. Commercial systems producing selective tri/tetramerization, non-selective oligomerization and polymerization are all based on this metal with the exception of a few systems based on other transition metals (Zr, Ti, Ni etc.). This versatility raises interesting questions about chromium’s unique behaviour. Essentially, selective or non-selective oligomerization and polymerization processes could be regarded as belonging to the same category of C-C bond forming reactions, though different mechanisms are involved. The first part of this thesis explores a variety of chromium complexes for ethylene oligomerization purposes. In order to gather further information about the unique behaviour of chromium, we have explored a variety of nitrogen and phosphorus containing ligands. We started with a simple bi-dentate anionic amidophosphine (NP) ligand and assessed the role of the ligand’s negative charge and number of donor atoms in determining the type of catalytic behaviour in relation to the metal oxidation state. This ligand proved capable of generating a series of chromium dimeric, tetrameric or polymeric and even heterobimetallic chromium-aluminate complexes in different valence states. This allowed us to isolate a “single component” self activating Cr(II) complex as well as a rare example of mixed valence Cr(I)/Cr(II) species. Additionally, each of these species acted as switchable catalyst depending on the type of co-catalyst

selective

trimerization

tetramerization

ethylene oligomerization

polymerization

dimerization

chromium catalysts

Nickel catalysts

Structure-fonction de MARCH1, une E3 ubiquitine ligase régulant la présentation antigénique par le CMH II

Bourgeois-Daigneault, Marie-Claude

05 1900

Les molécules classiques du CMH de classe II sont responsables de la présentation de peptides exogènes par les cellules présentatrices d’antigène aux lymphocytes T CD4+. Cette présentation antigénique est essentielle à l’établissement d’une réponse immunitaire adaptative. Cependant, la reconnaissance d’auto-antigènes ainsi que l’élimination des cellules du Soi sont des problèmes à l’origine de nombreuses maladies auto-immunes. Notamment, le diabète et la sclérose en plaque. D’éventuels traitements de ces maladies pourraient impliquer la manipulation de la présentation antigénique chez les cellules dont la reconnaissance et l’élimination engendrent ces maladies. Il est donc primordial d’approfondir nos connaissances en ce qui concerne les mécanismes de régulation de la présentation antigénique. La présentation antigénique est régulée tant au niveau transcriptionnel que post-traductionnel. Au niveau post-traductionnel, diverses cytokines affectent le processus. Parmi celles-ci, l’IL-10, une cytokine anti-inflammatoire, cause une rétention intracellulaire des molécules du CMH II. Son mécanisme d’action consiste en l’ubiquitination de la queue cytoplasmique de la chaîne bêta des molécules de CMH II. Cette modification protéique est effectuée par MARCH1, une E3 ubiquitine ligase dont l’expression est restreinte aux organes lymphoïdes secondaires. Jusqu’à tout récemment, il y avait très peu de connaissance concernant la structure et les cibles de MARCH1. Considérant son impact majeur sur la présentation antigénique, nous nous sommes intéressé à la structure-fonction de cette molécule afin de mieux caractériser sa régulation ainsi que les diverses conditions nécessaires à son fonctionnement. Dans un premier article, nous avons étudié la régulation de l’expression de MARCH1 au niveau protéique. Nos résultats ont révélé l’autorégulation de la molécule par formation de dimères et son autoubiquitination. Nous avons également démontré l’importance des domaines transmembranaires de MARCH1 dans la formation de dimères et l’interaction avec le CMH II. Dans un second article, nous avons investigué l’importance de la localisation de MARCH1 pour sa fonction. Les résultats obtenus montrent la fonctionnalité des motifs de localisation de la portion C-terminale de MARCH1 ainsi que la présence d’autres éléments de localisation dans la portion N-terminale de la protéine. Les nombreux mutants utilisés pour ce projet nous ont permis d’identifier un motif ‘‘VQNC’’, situé dans la portion cytoplasmique C-terminale de MARCH1, dont la valine est requise au fonctionnement optimal de la molécule. En effet, la mutation de la valine engendre une diminution de la fonction de la molécule et des expériences de BRET ont démontré une modification de l’orientation spatiale des queues cytoplasmiques. De plus, une recherche d’homologie de séquence a révélé la présence de ce même motif dans d’autres ubiquitines ligases, dont Parkin. Parkin est fortement exprimée dans le cerveau et agirait, entre autre, sur la dégradation des agrégats protéiques. La dysfonction de Parkin cause l’accumulation de ces agrégats, nommés corps de Lewy, qui entraînent des déficiences au niveau du fonctionnement neural observé chez les patients atteints de la maladie de Parkinson. La valine comprise dans le motif ‘’VQNC’’ a d’ailleurs été identifiée comme étant mutée au sein d’une famille où cette maladie est génétiquement transmise. Nous croyons que l’importance de ce motif ne se restreint pas à MARCH1, mais serait généralisée à d’autres E3 ligases. Ce projet de recherche a permis de caractériser des mécanismes de régulation de MARCH1 ainsi que de découvrir divers éléments structuraux requis à sa fonction. Nos travaux ont permis de mieux comprendre les mécanismes de contrôle de la présentation antigénique par les molécules de CMH II. / Classical MHC class II molecules are responsible for the presentation of exogenous peptides to CD4+ T cells, which is essential for the establishment of the adaptive immune response. However, problems with recognition of auto-antigens and the subsequent cell elimination are at the root of numerous autoimmune diseases. Manipulation of the antigen presentation pathway in order to eliminate cells that present self-antigens could serve as potential treatments of many autoimmune disorders. It is therefore essential to deepen our knowledge regarding the mechanisms regulating antigen presentation. Antigen presentation is regulated both transcriptionally and post-translationally. Whereas many cytokines affect the latter, IL-10, an anti-inflammatory cytokine, causes the intracellular retention of MHC II molecules. This phenotype is the result of the ubiquitination of MHC II -chain cytoplasmic tail by MARCH1. MARCH1 is an E3 ubiquitin ligase expressed in secondary lymphoid organs. Until recently, little was known about the structure-function and the targets of MARCH1. Considering its major impact on antigen presentation, we were interested to study this E3 ligase in order to reveal how it is regulated and what are the required conditions for its function. In a first report, we have investigated the regulation of MARCH1’s protein expression. Our results revealed its autoregulation via dimer formation and autoubiquitination. In addition, we have demonstrated the involvement of MARCH1’s transmembrane domains for dimerization and MHC II interaction. In a second article, we highlighted the importance of MARCH1 localization for its function. Our results indicated that localization motifs in the C-terminal portion of MARCH1 were functional and revealed the presence of some sorting elements in the N-terminal portion of the molecule. A panel of mutant were used and allowed us to identify a ‘’VQNC’’ motif, located in the C-terminal cytoplasmic portion of MARCH1, in which the valine is central for the molecule’s function. Indeed, point-mutation of the valine led to a decrease in MARCH1 ability to relocate MHC II whereas BRET experiments revealed a modification in the spatial organization of the cytoplasmic tails. Moreover, a blast of sequence homology showed the presence or that same motif in others ubiquitine ligases, one of which is Parkin. Parkin is highly expressed in the brain and seems to be implicated in protein aggregates’ degradation. It was reported that malfunction of Parkin leads to the accumulation of aggregates, called Lewy bodies, responsible for the neural functions deficiencies observed in patients with Parkinson disease. Interestingly, a family for which the sickness was genetically transmitted has a mutated valine in the VQNC motif. We believe that the importance of this motif is not restricted to MARCH1 and could be generalized to others E3 ubiquitin ligases. This project enabled us to characterize the regulation mechanisms of MARCH1. In addition, we discovered various structural elements required for its function. Altogether, our data allows for a better understanding of the mechanisms controlling MHC II molecules antigen presentation.

MARCH1

ubiquitination

autorégulation

dimérisation

localisation

autoregulation

dimerization

localization

Development of Orthogonal Split-Kinase and Split-Phosphatase Systems for Interrogating and Rewiring Signal Transduction

Castillo-Montoya, Javier, Castillo-Montoya, Javier

January 2016

The function of most proteins is regulated by post-translational modifications, of which phosphorylation in particular has been shown to be ubiquitous and of paramount importance to cell signaling. Two enzyme families, protein kinases and phosphatases, regulate phosphorylation, and aberrant activities of family members have been implicated in many diseases such as cancer and neurological disorders. Thus, understanding the function of these enzymes in living cells is important for understanding their biology and for designing new therapies, but a challenging task due to their highly conserved architecture. The major focus of the dissertation is on the development of a new approach to selectively turn-on multiple specific kinases and/or phosphatases using orthogonal ligands as chemical inducers of dimerization (CIDs). Specific kinases or phosphatases were dissected at particular sites into two inactive fragments or split-proteins. The split fragments are attached to interacting protein pairs of CID systems, such that upon addition of the specific ligand they heterodimerize with subsequent reassembly of the split-protein and concomitant activity. We demonstrated the in vitro and in cellulo feasibility of this approach using three orthogonal CIDs, rapamycin, abscisic acid, and gibberellic acid, to turn-on members of the tyrosine kinase group such as Lyn and Src, and of the tyrosine phosphatase group such as PTP1B and SHP1. We have also developed a new synthetic photocleavable di-trimethoprim CID that allows for ligand-gated turn-on of desired kinases in live cells. The new CID can be cleaved or turned-off by UV irradiation which results in a turn-off of kinase activity. Small molecule controlled split-proteins allow for developing logic gates and we demonstrate that the systems we have developed can be used to construct 7 out of the 10 basic, circuit-type Boolean phosphorylation-based logic gates in living cells. These post-translational logic gates may have interesting applications in synthetic biology. Finally, we present an initial approach to use redesigned kinases and redesigned ligands as potential scaffolds for developing new CIDs. Thus, we provide and extend new methodologies that potentially allow for posttranslational control over the activity of user defined split-kinases and split-phosphatases for interrogating and redesigning signaling pathways. The last section of this work focuses on understanding small-molecule selectivity toward protein kinases. We systematically analyzed different reported kinase screens to further understand the reliability of large scale data in the kinome field as the design of selective inhibitors is one the most useful approaches for understanding the function of enzymes or the development of drugs in a natural setting such as a primary cell or an organism.

Kinases

Ligand-Gated Phosphorylation

Protein Engineering

Split-Kinase

Split-Phosphatase

Chemical Inducer of Dimerization

Teoria do funcional da densidade para sistemas espacialmente correlacionados / Density functional theory for systems spatially correlated

Lima, Neemias Alves de

26 April 2002

A aproximação da densidade local para a teoria do funcional da densidade tem, no passado, levado a resultados conflitantes para a dimerização de cadeias infinitas do trans-poliacetileno (trans-PA). Estes resultados variaram deste forte dimerização, próximo dos resultados experimentais, até fraca dimerização, ou até mesmo nenhuma dimerização. Desde que a aproximação da densidade local usualmente descreve transições de fase estruturais corretamente, esta situação insatisfatória no caso do trans-PA clama por uma investigação detalhada. Neste trabalho estudamos o problema descrevendo a molécula como um modelo de Hubbard-Peierls unidimensional. Estabelecemos uma teoria do funcional da densidade e construímos uma aproximação da densidade local para este modelo. Em acordo com os cálculos ab initio encontramos que este tipo de aproximação não descreve adequadamente a dimerização. Propomos então um Formalismo alternativo, baseado em funcionais da matriz-densidade. Neste formalismo a energia de troca-correlação é escrita como um funcional da densidade de carga (como no método tradicional) e do parâmetro de ordem para a transição. Desta maneira obtemos um tratamento aperfeiçoado para a fase dimerizada. Nossos resultados sugerem que uma descrição adequada de sistemas espacialmente correlacionados dentro da teoria do funcional da densidade requer uma nova classe de funcionais, que vai além da aproximação da densidade local por levar explicitamente em conta parâmetros de ordem espaciais de longo alcance. / The local-density approximation to density-functional theory has, in the past, lead to conflicting results for the dimerization of infinite trans-polyacetylene (trans-PA) chains. These results range from strong dimerization, close to the one observed experimentally, to weak dimerization, or even no dimerization at all. Since the local-density approximation usually describes structural phase transitions correctly, this unsatisfactory situation in the case of trans-PA calls for a detailed investigation. In this work we study the problem by describing the polyacetylene molecule as a one-dimensional Hubbard-Peierls model. We set up a density-functional theory for this model, and construct a local-density approximation. In agreement with the ab initio calculations we find that this type of approximation does not consistently describe the dimerization. We therefore propose an alternative formalism, based on density-matrix functionals. In this formalism the exchange-correlation energy is written as a functional of the charge density (as in the traditional method) and the order parameter for the dimerization transition. In this way we achieve an improved treatment of the dimerized phase. Our results suggest that a reliable description of spatially correlated systems within density-functional theory requires a new type of functionals, going beyond the local-density approximation by explicitly accounting for long-range spatial order.

Density functional theory

Dimerização

Dimerization

Hubbard-Peierls model

Modelo de Hubbard-Peierls

Poliacetileno

Polyacetylene

Teoria do funcional da densidade

Teoria do funcional da densidade para sistemas espacialmente correlacionados / Density functional theory for systems spatially correlated

Neemias Alves de Lima

26 April 2002

A aproximação da densidade local para a teoria do funcional da densidade tem, no passado, levado a resultados conflitantes para a dimerização de cadeias infinitas do trans-poliacetileno (trans-PA). Estes resultados variaram deste forte dimerização, próximo dos resultados experimentais, até fraca dimerização, ou até mesmo nenhuma dimerização. Desde que a aproximação da densidade local usualmente descreve transições de fase estruturais corretamente, esta situação insatisfatória no caso do trans-PA clama por uma investigação detalhada. Neste trabalho estudamos o problema descrevendo a molécula como um modelo de Hubbard-Peierls unidimensional. Estabelecemos uma teoria do funcional da densidade e construímos uma aproximação da densidade local para este modelo. Em acordo com os cálculos ab initio encontramos que este tipo de aproximação não descreve adequadamente a dimerização. Propomos então um Formalismo alternativo, baseado em funcionais da matriz-densidade. Neste formalismo a energia de troca-correlação é escrita como um funcional da densidade de carga (como no método tradicional) e do parâmetro de ordem para a transição. Desta maneira obtemos um tratamento aperfeiçoado para a fase dimerizada. Nossos resultados sugerem que uma descrição adequada de sistemas espacialmente correlacionados dentro da teoria do funcional da densidade requer uma nova classe de funcionais, que vai além da aproximação da densidade local por levar explicitamente em conta parâmetros de ordem espaciais de longo alcance. / The local-density approximation to density-functional theory has, in the past, lead to conflicting results for the dimerization of infinite trans-polyacetylene (trans-PA) chains. These results range from strong dimerization, close to the one observed experimentally, to weak dimerization, or even no dimerization at all. Since the local-density approximation usually describes structural phase transitions correctly, this unsatisfactory situation in the case of trans-PA calls for a detailed investigation. In this work we study the problem by describing the polyacetylene molecule as a one-dimensional Hubbard-Peierls model. We set up a density-functional theory for this model, and construct a local-density approximation. In agreement with the ab initio calculations we find that this type of approximation does not consistently describe the dimerization. We therefore propose an alternative formalism, based on density-matrix functionals. In this formalism the exchange-correlation energy is written as a functional of the charge density (as in the traditional method) and the order parameter for the dimerization transition. In this way we achieve an improved treatment of the dimerized phase. Our results suggest that a reliable description of spatially correlated systems within density-functional theory requires a new type of functionals, going beyond the local-density approximation by explicitly accounting for long-range spatial order.

Dimerização

Modelo de Hubbard-Peierls

Poliacetileno

Teoria do funcional da densidade

Density functional theory

Dimerization

Hubbard-Peierls model

Polyacetylene