Complementary intrastrand base pairing during initiation of Herpes simplex virus type 1 DNA replication

The herpes simplex virus type 1 origin of DNA replication, oriS, contains three copies of the recognition sequence for the viral initiator protein, origin binding protein (OBP), arranged in two palindromes. The central box I forms a short palindrome with box III and a long palindrome with box II. Single-stranded oriS adopts a conformation, oriS*, that is tightly bound by OBP. Here we demonstrate that OBP binds to a box III–box I hairpin with a 3′ single-stranded tail in oriS*. Mutations designed to destabilize the hairpin abolish the binding of OBP to oriS*. The same mutations also inhibit DNA replication. Second site complementary mutations restore binding of OBP to oriS* as well as the ability of mutated oriS to support DNA replication. OriS* is also an efficient activator of the hydrolysis of ATP by OBP. Sequence analyses show that a box III–box I palindrome is an evolutionarily conserved feature of origins of DNA replication from human, equine, bovine, and gallid alpha herpes viruses. We propose that oriS facilitates initiation of DNA synthesis in two steps and that OBP exhibits exquisite specificity for the different conformations oriS adopts at these stages. Our model suggests that distance-dependent cooperative binding of OBP to boxes I and II in duplex DNA is succeeded by specific recognition of a box III–box I hairpin in partially unwound DNA.

Condensation by DNA looping facilitates transfer of large DNA molecules into mammalian cells

Experimental studies of complete mammalian genes and other genetic domains are impeded by the difficulty of introducing large DNA molecules into cells in culture. Previously we have shown that GST–Z2, a protein that contains three zinc fingers and a proline-rich multimerization domain from the polydactyl zinc finger protein RIP60 fused to glutathione S-transferase (GST), mediates DNA binding and looping in vitro. Atomic force microscopy showed that GST–Z2 is able to condense 130–150 kb bacterial artificial chromosomes (BACs) into protein–DNA complexes containing multiple DNA loops. Condensation of the DNA loops onto the Z2 protein–BAC DNA core complexes with cationic lipid resulted in particles that were readily transferred into multiple cell types in culture. Transfer of total genomic linear DNA containing amplified DHFR genes into DHFR– cells by GST–Z2 resulted in a 10-fold higher transformation rate than calcium phosphate co-precipitation. Chinese hamster ovarian cells transfected with a BAC containing the human TP53 gene locus expressed p53, showing native promoter elements are active after GST–Z2-mediated gene transfer. Because DNA condensation by GST–Z2 does not require the introduction of specific recognition sequences into the DNA substrate, condensation by the Z2 domain of RIP60 may be used in conjunction with a variety of other agents to provide a flexible and efficient non-viral platform for the delivery of large genes into mammalian cells.

Resolution of Holliday junctions in genetic recombination: RuvC protein nicks DNA at the point of strand exchange.

The RuvC protein of Escherichia coli catalyzes the resolution of recombination intermediates during genetic recombination and the recombinational repair of damaged DNA. Resolution involves specific recognition of the Holliday structure to form a complex that exhibits twofold symmetry with the DNA in an open configuration. Cleavage occurs when strands of like polarity are nicked at the sequence 5'-WTT decreases S-3' (where W is A or T and S is G or C). To determine whether the cleavage site needs to be located at, or close to, the point at which DNA strands exchange partners, Holliday structures were constructed with the junction points at defined sites within this sequence. We found that the efficiency of resolution was optimal when the cleavage site was coincident with the position of DNA strand exchange. In these studies, junction targeting was achieved by incorporating uncharged methyl phosphonates into the DNA backbone, providing further evidence for the importance of charge-charge repulsions in determining DNA structure.

Binding site size limit of the 2:1 pyrrole-imidazole polyamide-DNA motif.

Polyamides containing N-methylimidazole (Im) and N-methylpyrrole (Py) amino acids can be combined in antiparallel side-by-side dimeric complexes for sequence-specific recognition in the minor groove of DNA. Six polyamides containing three to eight rings bind DNA sites 5-10 bp in length, respectively. Quantitative DNase I footprint titration experiments demonstrate that affinity maximizes and is similar at ring sizes of five, six, and seven. Sequence specificity decreases as the length of the polyamides increases beyond five rings. These results provide useful guidelines for the design of new polyamides that bind longer DNA sites with enhanced affinity and specificity.

The nuclear matrix protein NMP-1 is the transcription factor YY1.

NMP-1 was initially identified as a nuclear matrix-associated DNA-binding factor that exhibits sequence-specific recognition for the site IV regulatory element of a histone H4 gene. This distal promoter domain is a nuclear matrix interaction site. In the present study, we show that NMP-1 is the multifunctional transcription factor YY1. Gel-shift and Western blot analyses demonstrate that NMP-1 is immunoreactive with YY1 antibody. Furthermore, purified YY1 protein specifically recognizes site IV and reconstitutes the NMP-1 complex. Western blot and gel-shift analyses indicate that YY1 is present within the nuclear matrix. In situ immunofluorescence studies show that a significant fraction of YY1 is localized in the nuclear matrix, principally but not exclusively associated with residual nucleoli. Our results confirm that NMP-1/YY1 is a ubiquitous protein that is present in both human cells and in rat osteosarcoma ROS 17/2.8 cells. The finding that NMP-1 is identical to YY1 suggests that this transcriptional regulator may mediate gene-matrix interactions. Our results are consistent with the concept that the nuclear matrix may functionally compartmentalize the eukaryotic nucleus to support regulation of gene expression.

A proteção dos \"Refugiados Ambientais\" no Direito Internacional

Refugiados ambientais são refugiados não convencionais e são migrantes forçados, interna ou internacionalmente, temporária ou permanentemente, em situação de vulnerabilidade e que se veem obrigados a deixar sua morada habitual por motivos ambientais de início lento ou de início rápido, causados por motivos naturais, antropogênicos ou pela combinação de ambos. Embora não existam reconhecimento e proteção específica para esses migrantes no direito internacional em escala global, alguns instrumentos jurídicos regionais e leis nacionais assim o fazem. Argumenta-se, nesta tese de doutorado, que os refugiados ambientais possuem modos de proteção geral em certas áreas do direito internacional e que as possibilidades atuais e futuras de proteção específica podem ser encontradas nas fontes primárias do direito internacional, indicadas no artigo 38(1) do Estatuto da Corte Internacional de Justiça. Foram identificadas sete vias de proteção dos refugiados ambientais no direito internacional e no direito interno estatal: (i) a via da ação humanitária, (ii) a via da proteção complementar, (iii) a via da legislação nacional, (iv) a via da justiça climática, (v) a via da responsabilidade compartilhada, (vi) a via da judicialização do refúgio ambiental e (vii) a via do tratado internacional. Sugere-se, ainda, o estabelecimento de uma governança migratória-ambiental global baseada nos regimes internacionais e na ação dos atores nos níveis local, nacional, regional e internacional para a execução das formas de proteção e para o atendimento das necessidades dos refugiados ambientais no mundo.

Études d'ingénierie du ribozyme VS de Neurospora

Les ribozymes sont des ARN catalytiques fréquemment exploités pour le développement d’outils biochimiques et d’agents thérapeutiques. Ils sont particulièrement intéressants pour effectuer l’inactivation de gènes, en permettant la dégradation d’ARNm ou d’ARN viraux associés à des maladies. Les ribozymes les plus utilisés en ce moment pour le développement d’agents thérapeutiques sont les ribozymes hammerhead et hairpin, qui permettent la reconnaissance spécifique d’ARN simple brin par la formation de structures secondaires stables. In vivo, la majorité des ARN adoptent des structures secondaires et tertiaires complexes et les régions simples brins sont parfois difficiles d’accès. Il serait intéressant de pouvoir cibler des ARN repliés et un motif d’ARN intéressant à cibler est la tige-boucle d’ARN qui peut être importante dans le repliement global des ARN et pour accomplir des fonctions biologiques. Le ribozyme VS de Neurospora fait la reconnaissance de son substrat replié en tigeboucle de façon spécifique par une interaction kissing-loop, mais il n’a jamais été exploité pour faire la reconnaissance d’un ARN cible très différent de son substrat naturel. Le but des travaux présentés dans cette thèse est de déterminer si le ribozyme VS possède l’adaptabilité nécessaire pour l’ingénierie de ribozymes qui clivent des ARN cibles différents du substrat naturel. Dans le cadre de cette thèse, le ribozyme VS a été modifié pour l’adapter à différents substrats et des études de cinétiques ont été réalisées pour évaluer l’impact de ces modifications sur l’activité de clivage du ribozyme. Dans un premier temps, le ribozyme a été modifié pour faire la reconnaissance et le clivage de substrats possédant différentes longueurs de tiges Ib. Le ribozyme a été adapté avec succès à ces substrats de différentes longueurs de tige Ib, avec une activité qui est similaire à celle du ribozyme avec un substrat sans modification. Dans un deuxième temps, c’est l’interaction kissing-loop I/V du ribozyme qui a été substituée de façon rationnelle, dans le but de savoir si un ribozyme VS mutant peut reconnaitre et cliver un substrat ayant une boucle différente de celle de son substrat naturel. L’interaction kissing-loop I/V a été substituée pour les interactions kissing-loop TAR/TAR* de l’ARN du VIH-1 et L22/L88 de l’ARN 23S de Deinococcus radiodurans. La réaction de iii clivage des ribozymes comportant ces nouvelles interactions kissing-loop est toujours observée, mais avec une activité diminuée. Finalement, la sélection in vitro (SELEX) de ribozymes a été effectuée pour permettre un clivage plus efficace d’un substrat mutant avec une nouvelle boucle. Le SELEX a permis la sélection d’un ribozyme qui clive un substrat avec une boucle terminale mutée pour celle de l’ARN TAR du VIH-1 et cela avec une activité de clivage très efficace. L’ensemble de ces études démontre que le ribozyme VS peut être modifié de diverses façons pour la reconnaissance spécifique de différents substrats, tout en conservant une bonne activité de clivage. Ces résultats montrent le grand potentiel d’ingénierie du ribozyme VS et sont prometteurs pour la poursuite d’études d’ingénierie du ribozyme VS, en vue du clivage d’ARN cibles repliés en tige-boucle complètement différents du substrat naturel du ribozyme VS.

Structural characterization of interaction of K11 and K63 mixed-linkage polyubiquitin chains with the tUIMs of epsin1

Ubiquitylation or covalent attachment of ubiquitin (Ub) to a variety of substrate proteins in cells is a versatile post-translational modification involved in the regulation of numerous cellular processes. The distinct messages that polyubiquitylation encodes are attributed to the multitude of conformations possible through attachment of ubiquitin monomers within a polyubiquitin chain via a specific lysine residue. Thus the hypothesis is that linkage defines polyubiquitin conformation which in turn determines specific recognition by cellular receptors. Ubiquitylation of membrane surface receptor proteins plays a very important role in regulating receptor-mediated endocytosis as well as endosomal sorting for lysosomal degradation. Epsin1 is an endocytic adaptor protein with three tandem UIMs (Ubiquitin Interacting Motifs) which are responsible for the highly specific interaction between epsin and ubiquitylated receptors. Epsin1 is also an oncogenic protein and its expression is upregulated in some types of cancer. Recently it has been shown that novel K11 and K63 mixed-linkage polyubiquitin chains serve as internalization signal for MHC I (Major Histocompatibility Complex I) molecule through their association with the tUIMs of epsin1. However the molecular mode of action and structural details of the interaction between polyubiquitin chains on receptors and tUIMs of epsin1 is yet to be determined. This information is crucial for the development of anticancer therapeutics targeting epsin1. The molecular basis for the linkage-specific recognition of K11 and K63 mixed-linkage polyubiquitin chains by the tandem UIMs of the endocytic adaptor protein epsin1 is investigated using a combination of NMR methods.

Études d'ingénierie du ribozyme VS de Neurospora

Les ribozymes sont des ARN catalytiques fréquemment exploités pour le développement d’outils biochimiques et d’agents thérapeutiques. Ils sont particulièrement intéressants pour effectuer l’inactivation de gènes, en permettant la dégradation d’ARNm ou d’ARN viraux associés à des maladies. Les ribozymes les plus utilisés en ce moment pour le développement d’agents thérapeutiques sont les ribozymes hammerhead et hairpin, qui permettent la reconnaissance spécifique d’ARN simple brin par la formation de structures secondaires stables. In vivo, la majorité des ARN adoptent des structures secondaires et tertiaires complexes et les régions simples brins sont parfois difficiles d’accès. Il serait intéressant de pouvoir cibler des ARN repliés et un motif d’ARN intéressant à cibler est la tige-boucle d’ARN qui peut être importante dans le repliement global des ARN et pour accomplir des fonctions biologiques. Le ribozyme VS de Neurospora fait la reconnaissance de son substrat replié en tigeboucle de façon spécifique par une interaction kissing-loop, mais il n’a jamais été exploité pour faire la reconnaissance d’un ARN cible très différent de son substrat naturel. Le but des travaux présentés dans cette thèse est de déterminer si le ribozyme VS possède l’adaptabilité nécessaire pour l’ingénierie de ribozymes qui clivent des ARN cibles différents du substrat naturel. Dans le cadre de cette thèse, le ribozyme VS a été modifié pour l’adapter à différents substrats et des études de cinétiques ont été réalisées pour évaluer l’impact de ces modifications sur l’activité de clivage du ribozyme. Dans un premier temps, le ribozyme a été modifié pour faire la reconnaissance et le clivage de substrats possédant différentes longueurs de tiges Ib. Le ribozyme a été adapté avec succès à ces substrats de différentes longueurs de tige Ib, avec une activité qui est similaire à celle du ribozyme avec un substrat sans modification. Dans un deuxième temps, c’est l’interaction kissing-loop I/V du ribozyme qui a été substituée de façon rationnelle, dans le but de savoir si un ribozyme VS mutant peut reconnaitre et cliver un substrat ayant une boucle différente de celle de son substrat naturel. L’interaction kissing-loop I/V a été substituée pour les interactions kissing-loop TAR/TAR* de l’ARN du VIH-1 et L22/L88 de l’ARN 23S de Deinococcus radiodurans. La réaction de iii clivage des ribozymes comportant ces nouvelles interactions kissing-loop est toujours observée, mais avec une activité diminuée. Finalement, la sélection in vitro (SELEX) de ribozymes a été effectuée pour permettre un clivage plus efficace d’un substrat mutant avec une nouvelle boucle. Le SELEX a permis la sélection d’un ribozyme qui clive un substrat avec une boucle terminale mutée pour celle de l’ARN TAR du VIH-1 et cela avec une activité de clivage très efficace. L’ensemble de ces études démontre que le ribozyme VS peut être modifié de diverses façons pour la reconnaissance spécifique de différents substrats, tout en conservant une bonne activité de clivage. Ces résultats montrent le grand potentiel d’ingénierie du ribozyme VS et sont prometteurs pour la poursuite d’études d’ingénierie du ribozyme VS, en vue du clivage d’ARN cibles repliés en tige-boucle complètement différents du substrat naturel du ribozyme VS.

Inhalable antitubercular therapy mediated by locust bean gum microparticles

Tuberculosis remains a major global health problem and alternative therapeutic approaches are needed. Considering the high prevalence of lung tuberculosis (80% of cases), the pulmonary delivery of antitubercular drugs in a carrier system capable of reaching the alveoli, being recognised and phagocytosed by alveolar macrophages (mycobacterium hosts), would be a significant improvement to current oral drug regimens. Locust bean gum (LBG) is a polysaccharide composed of galactose and mannose residues, which may favour specific recognition by macrophages and potentiate phagocytosis. LBG microparticles produced by spray-drying are reported herein for the first time, incorporating either isoniazid or rifabutin, first-line antitubercular drugs (association efficiencies >82%). Microparticles have adequate theoretical properties for deep lung delivery (aerodynamic diameters between 1.15 and 1.67 μm). The cytotoxic evaluation in lung epithelial cells (A549 cells) and macrophages (THP-1 cells) revealed a toxic effect from rifabutin-loaded microparticles at the highest concentrations, but we may consider that these were very high comparing with in vivo conditions. LBG microparticles further evidenced strong ability to be captured by macrophages (percentage of phagocytosis >94%). Overall, the obtained data indicated the potential of the proposed system for tuberculosis therapy.

Specific IgE recognition of pollen allergens from subtropic grasses in patients from the subtropics

Background Pollens of subtropical grasses, Bahia (Paspalum notatum), Johnson (Sorghum halepense), and Bermuda (Cynodon dactylon), are common causes of respiratory allergies in subtropical regions worldwide. Objective To evaluate IgE cross-reactivity of grass pollen (GP) found in subtropical and temperate areas. Methods Case and control serum samples from 83 individuals from the subtropical region of Queensland were tested for IgE reactivity with GP extracts by enzyme-linked immunosorbent assay. A randomly sampled subset of 21 serum samples from patients with subtropical GP allergy were examined by ImmunoCAP and cross-inhibition assays. Results Fifty-four patients with allergic rhinitis and GP allergy had higher IgE reactivity with P notatum and C dactylon than with a mixture of 5 temperate GPs. For 90% of 21 GP allergic serum samples, P notatum, S halepense, or C dactylon specific IgE concentrations were higher than temperate GP specific IgE, and GP specific IgE had higher correlations of subtropical GP (r = 0.771-0.950) than temperate GP (r = 0.317-0.677). In most patients (71%-100%), IgE with P notatum, S halepense, or C dactylon GPs was inhibited better by subtropical GP than temperate GP. When the temperate GP mixture achieved 50% inhibition of IgE with subtropical GP, there was a 39- to 67-fold difference in concentrations giving 50% inhibition and significant differences in maximum inhibition for S halepense and P notatum GP relative to temperate GP. Conclusion Patients living in a subtropical region had species specific IgE recognition of subtropical GP. Most GP allergic patients in Queensland would benefit from allergen specific immunotherapy with a standardized content of subtropical GP allergens.

Plasticity in the primary binding site of galactose/N-acetylgalactosamine-specific lectins - Implication of the C-H center dot center dot center dot O hydrogen bond at the specificity-determining C-4 locus of the saccharide in 4-methoxygalactose recognition by jacalin and winged bean (basic) agglutinin I

It is currently believed that an unsubstituted axial hydroxyl at the specificity-determining C-4 locus of galactose is indispensable for recognition by galactose/N-acetylgalactosamine-specific lectins. Titration calorimetry demonstrates that 4-methoxygalactose retains binding allegiance to the Moraceae lectin jacalin and the Leguminosae lectin, winged bean (basic) agglutinin (WBA I). The binding reactions were driven by dominant favorable enthalpic contributions and exhibited significant enthalpy-entropy compensation. Proton NMR titration of C-methoxygalactose with jacalin and WBA I resulted in broadening of the sugar resonances without any change in chemical shift. The alpha-and beta-anomers of 4-methoxygalactose were found to be in slow exchange with free and lectin-bound states. Both the anomers experience magnetically equivalent environments at the respective binding sites. The binding constants derived from the dependence of NMR line widths on 4-methoxygalactose concentration agreed well with those obtained from titration calorimetry. The results unequivocally demonstrate that the loci corresponding to the axially oriented C-4 hydroxyl group of galactose within the primary binding site of these lectins exhibit plasticity. These analyses suggest, for the first time, the existence of C-H ... O-type hydrogen-bond(s) in protein-carbohydrate interactions in general and between the C-4 locus of galactose derivative and the lectins jacalin and WBA I in particular.

Self assembly of bivalent glycolipids on single walled carbon nanotubes and their specific molecular recognition properties

Solubilization of single walled carbon nanotubes (SWNTs) in aqueous milieu by self assembly of bivalent glycolipids is described. Thorough analysis of the resulting composites involving Vis/near-IR spectroscopy, surface plasmon resonance, confocal Raman and atomic force microscopy reveals that glycolipid-coated SWNTs possess specific molecular recognition properties towards lectins.