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1
Chen, Wei 1965. « Site Directed Mutagenesis Of Dienelactone Hydrolase ». Thesis, University of North Texas, 1992. https://digital.library.unt.edu/ark:/67531/metadc500900/.
Texte intégralRésumé :
The role of individual amino acid residues of the enzyme dienelactone hydrolase was investigated. Using the polymerase chain reaction (PCR), a 1.9 kbp clcD fragment was amplified and subcloned yielding a 821 bp BamHI to EcoRI clcD subclone in the plasmid pUC19. Site-specific mutants of dienelactone hydrolase were created using mismatched oligonucleotides to prime DNA synthesis. Specifically modified proteins from mutated clcD genes (Arg 81 to alanine, Tyr 85 to phenylalanine and Arg 206 to alanine), were encoded by the mutant clones. Enzyme assays showed that dienelactone hydrolase activity of the mutants Arg 81 and Arg 206 was totally abolished. The DLHase enzyme activity of mutant Tyr 85 is greatly decreased by approximately two thirds.
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Hira, Asuka. « Mutations in the gene encoding the E2 conjugating enzyme UBE2T cause Fanconi Anemia ». Kyoto University, 2015. http://hdl.handle.net/2433/202672.
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Daar, Shahina Firdos. « Haemoglobinopathies in the Sultanate of Oman : a study of clinically significant beta globin gene mutations ». Thesis, University of Bristol, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.340440.
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Velusamy, Mahesh. « New computational approaches for investigating the impact of mutations on the transglucosylation activity of sucrose phosphorylase enzyme ». Thesis, La Réunion, 2018. http://www.theses.fr/2018LARE0045.
Texte intégralRésumé :
Comprendre comment les mutations impactent l’activité d’une protéine reste un défi dans le domaine des sciences protéiques. Les méthodes biochimiques traditionnellement utilisées pour résoudre ce type de questionnement sont très puissantes mais sont laborieuses à mettre en œuvre. Des approches bioinformatiques ont été développées à cet égard pour surmonter ces contraintes. Dans cette thèse, nous explorons l'utilisation d'approches bioinformatiques pour comprendre le lien entre mutations et changements d'activité. Notre modèle d'étude est une enzyme bactérienne, la sucrose phosphorylase de Bifidobacterium adolescentis (BaSP). Cette glycosyl-hydrolase de la famille 13 (GH13) suscite l’intérêt de l'industrie en raison de sa capacité à synthétiser des disaccharides et des glycoconjugués originaux. Son activité consiste à transférer un glucose d'un donneur, le saccharose, à un accepteur qui peut être un monosaccharide ou un aglycone hydroxylé. La réaction enzymatique se déroule selon un mécanisme dit « double déplacement avec rétention de configuration », ce qui nécessite la formation d'un intermédiaire covalent dit glucosyl-enzyme. Cependant, la possibilité de contrôler la régiosélectivité de ce transfert pour qu'il soit applicable au niveau industriel est un enjeumajeur. Cette thèse vise d’une part, à fournir une explication rationnelle quant aux modifications de la régiosélectivité de BaSP apportées par des mutations et d’autre part à proposer un canevas pour le contrôle de la régiosélectivité de couplage en vue de la synthèse de disaccharides pré-biotiques rares comme le kojibiose et le nigerose. Dans notre approche, nous avons émis l'hypothèse que les orientations préférées de l'accepteur dans le site catalytique après formation du glycosyl-enzyme déterminent la régiosélectivité de l'enzyme. Nous avons utilisé des approches computationnelles pour étudier l'impact des mutations sur la liaison de l'accepteur à l'intermédiaire covalent, le glucosylenzyme. À cette fin, nous avons construit des modèles à l’échelle atomique du glucosyl-enzyme pour un ensemble de variants de la BaSP pour lesquels des données expérimentales étaient disponibles. Pour y parvenir, nous avons paramétré le glucosyl-aspartyle en tant que nouveau résidu et les avons intégré dans des outils de modélisation tels que Modeller et Gromacs. Nous avons évalué la pertinence de ces paramètres et les avons ensuite appliqués à la vérification de notre hypothèse de travail par le biais d’expériences d'ancrage moléculaire. La méthodologie utilisée dans ce travail ouvre la perspective de l'utilisation d'approches bioinformatiques pour l'ingénierie de la régiosélectivité de la sucrose phosphorylase et plus généralement des glycosylhydrolases possédant un mécanisme similaire. À cet égard, un pipeline de modélisation moléculaire et d'amarrage de molécules accepteurs sur des intermédiaires covalents des enzymes de cette famille (ENZO pour Optimisation d’ENZyme) a été développé au cours de cette thèse. Son application à l’ingénierie d’autres variants de BaSP est en coursIn this thesis, we explore the usage of computational approaches for understanding the link between mutations and changes in protein activity. Our study model is a bacterial sucrose phosphorylase enzyme from Bifidobacterium adolescentis (BaSP). This glycosyl hydrolase from family 13 (GH13) has been a focus in the industry due to its ability to synthesize original disaccharides and glycoconjugates. In fact, its activity is to transfer a glucose moiety from a donor sucrose to an acceptor which can be a monosaccharide or a hydroxylated aglycone. The enzymatic reaction proceeds by a double displacement with retention of configuration mechanism whereby a covalent glucosyl-enzyme intermediate is formed. However, it is at stake to control the regioselectivity of this transfer for it to be applicable at industrial level. This thesis aimed at providing a rational explanation for the observed impact of mutations on the regioselectivity of BaSP in view of controlling the synthesis of rare pre-biotic disaccharides like kojibiose and nigerose. We hypothesized that the preferred orientations of the acceptor determines the regioselectivity of the enzyme. In that respect, we used computational approaches to investigate the impact of mutations on the binding of the acceptor to the glucosyl-enzyme intermediate. The methodology used in this work opens the perspective of using computational approaches for engineering the regioselectivity of of glycosyl hydrolases with similar mechanism
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Al-Dbass, Abeer M. « Structural basis of acute intermittent porphyria and the relationship between mutations in human porphobilinogen deaminase and enzyme activity ». Thesis, University of Southampton, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.390590.
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Hammed, Abdessalem. « Résistance de cible aux antivitamines KR : analyse des conséquences catalytiques de différentes mutations de VKORC1 et, : étude du rôle d’une nouvelle enzyme, la VKORC1L1 ». Thesis, Lyon 1, 2014. http://www.theses.fr/2014LYO10025/document.
Texte intégralRésumé :
Les anticoagulants antivitamine K (AVK) sont destinées à limiter la coagulation du sang. Ils sont donc susceptibles de provoquer des saignements. Les AVK ralentissent le cycle de la vitamine K qui est indispensable à la gamma-carboxylation de certaines protéines (PVKD). Les AVK inhibent l'activité vitamine K époxide reductase (VKOR), principalement catalysée par VKORC1. Ce sont des médicaments anticoagulants utilisés chez l'homme. Chez les rongeurs, ils servent de rodonticides. Une résistance aux AVK est observé tant chez l'homme que chez le rongeur.Chez des patients résistants aux AVK, 26 mutations ont été décrites dans la zone codante de VKORC1. L'expression hétérologue de ces enzymes mutées n'a permis de trouver que 6 mutations impliquées dans la résistance. Repérer ces mutations avant le début d'un traitement permettra une mise en place du traitement plus rapide. Les autres mutations ne seraient pas responsables du phénotype observé.La VKORC1L1 a été décrite comme une protéine agissant contre le stress oxydatif. Notre travail confirme que l'enzyme catalyse la réaction VKOR. Si sa participation dans la réduction de la vitamine K époxide est insignifiante dans le foie, il en est tout autrement dans les autres tissus testés. De plus, la VKORC1L1 apparait plus résistante aux AVK par rapport à la VKORC1. Ces propriétés catalytiques de la VKORC1L1 permettent d'expliquer l'absence d'effets des AVK sur les PVKD d'origine extra-hépatiques.Enfin, un travail de mutagénèse dirigée a permis d'abaisser ou d'augmenter considérablement la sensibilité de VKORC1L1 aux AVK. Ces résultats nous permettent de décrire l'implication de différents acides aminés dans l'interaction avec les AVKAnticoagulant vitamin K antagonists (VKA) are molecules designed to prevent or delay blood clotting. They cause bleeding by slowing the recycling of vitamin K, an essential micronutrient for posttranslational modification of specific proteins (VKDP). It has been shown that VKA specifically inhibit VKORC1 enzyme which catalyze the VKOR reaction. VKA are used as rodenticides to control the proliferation of populations of pest rodents. In humans, they are used in the treatment and prevention of the occurrence of thromboembolic events. Due to the widespread use of these VKA, it was observed a phenomenon of resistance which is essential to better understand for economic, ecological or public health interests. In humans, 25 of 26 mutations were characterized. While these changes have been observed in patients resistant to VKA, the causality of these mutations has been demonstrated for 6 mutations. The ability to detect these changes before the start of treatment will allow the future implementation of the much faster and less expensive. Other mutations are not responsible for the observed phenotype.Moreover, VKORC1L1 has been described as an enzyme whose function is to act against oxidative stress. This study confirms that the enzyme catalyzes the VKOR reaction. If it appears that the liver in its participation in the reduction of vitamin K epoxide is insignificant, it is quite different in other tissues tested. In addition, VKORC1L1 appears more resistant to VKA over the VKORC1. Finally, directed mutagenesis of these residues lead to the decrease or the increase of VKORC1L1 sensitivity to VKA. These data result to the implication of residues in their interaction with VKA
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Nord, Emilia. « Optimization of a Multiplex PCR-RFLP Method Used for Detection of Three Primary Mutations in Leber’s Hereditary Optic Neuropathy Patients ». Thesis, Uppsala universitet, Institutionen för kvinnors och barns hälsa, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-412744.
Texte intégralRésumé :
Leber’s hereditary optic neuropathy (LHON) is the most commonly inherited disease that causes blindness in one or both eyes, with a minimum prevalence of 1 in 31 000 in the northeast of England. What causes LHON is not fully known but three mitochondrial mutations, G3460A, G11778A, and T14484C, have been identified in over 95 % of all LHON patients. To diagnose LHON, detection methods like sequencing, allele specific polymerase chain reaction and polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) are used to identify these three mutations. The methods are now evolving into multiplex ones to increase efficiency, the aim of this study was therefore to optimize one of them, a multiplex PCR-RFLP method developed in 2015. This study was however not completed, due to the COVID-19 pandemic, but a series of preparatory steps were performed before its termination. DNA extraction was performed, both genomic and plasmid, using a kit and in-house protocols. The DNA was then used for polymerase chain reactions (PCRs), for both the human β-globin gene and for the three mutations, where magnesium concentration and annealing temperature was optimized. This study resulted in clear, high quality extractions, with the kit as the preferable method. It also indicated that a 3 mM magnesium concentration and an annealing temperature of 59 °C was optimal for all mutations when using so called LHON primers. The conditions for the PCR using the multiplex primers might be different, therefore a new study is required to evaluate the multiplex PCR-RFLP method further.Bakgrund: Lebers hereditära optikusneuropati (LHON) är en vanlig ärftlig sjukdom som orsakar blindhet. LHON orsakas i över 95 % av fallen av en av tre mitokondriella mutationer, där en byggsten i mitokondriens DNA felaktigt bytts ut mot en annan. Dessa mutationer heter G3460A, G11778A och T14484C. För att diagnostisera sjukdomen detekteras mutationerna, bland annat genom att extrahera DNA från blod, DNA som man sedan skapar otaliga kopior av genom en metod som heter ”polymerase chain reaction” (PCR). Dessa kopior kan sedan klyvas i bitar med hjälp av enzym och baserat på fragmentens storlek kan det avgöras om personen har mutationen eller inte, detta kallas för ”restriction fragment length polymorphism” (RFLP). I nuläget letar man efter en mutation i taget men det har utvecklats några metoder där man kan hitta alla mutationer på en gång och den här studiens syfte var att undersöka hur man på bästa sätt kan utföra en av dessa metoder, en så kallad multiplex PCR-RFLP. Metod: Studien avbröts i förtid på grund av ett pandemiskt utbrott av COVID-19 men hann omfatta DNA-extraktion från humant blod och bakterier med hjälp av ett kommersiellt kit och laboratoriets egna protokoll. Även PCR utfördes för en normal genuppsättning och de tre mutationerna. Resultat och slutsats: Extraktionen gav bra resultat med alla metoder men det kommersiella kitet gav bäst resultat. PCR med det DNA som extraherats fungerade bara ibland vilket gjorde det svårt att dra några större slutsatser, oavsett krävs fler studier för att undersöka metoden eftersom arbetet inte kunde slutföras.
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Lalève, Anaïs. « Impacts biochimiques et biologiques de mutations dans le gène sdhB codant la sous-unité B de la succinate déshydrogénase chez le champignon phytopathogène Botrytis cinerea ». Thesis, Paris 11, 2013. http://www.theses.fr/2013PA112077.
Texte intégralRésumé :
La succinate déshydrogénase (SDH) est à la fois une enzyme clé du cycle de Krebs oxydant le succinate en fumarate et le complexe II de la chaîne respiratoire mitochondriale impliqué dans le transfert des électrons et la réduction de l’ubiquinone. Des inhibiteurs de cette enzyme (SDHI) ont été développés ou sont en cours de développement comme antifongiques. Cette famille de fongicides est notamment utilisée pour lutter contre Botrytis cinerea, champignon phytopathogène responsable de la pourriture grise sur de nombreuses cultures dont la vigne. Des souches résistantes aux SDHI ont été isolées chez B. cinerea et d’autres champignons phytopathogènes. Chez ces isolats résistants, des mutations ont été identifiées dans les gènes codant la SDH. Au cours de cette thèse, nous avons étudié l’impact de mutations affectant la sous-unité B (SdhB) de la succinate déshydrogénase sur l’activité de l’enzyme, la biologie du champignon B. cinerea et la résistance aux inhibiteurs ciblant cette enzyme. Par mutagénèse dirigée du gène sdhB, nous avons obtenu des mutants dits « isogéniques » qui ont permis de confirmer l’implication de ces mutations dans la résistance aux différentes molécules SDHI. Par ailleurs, nos résultats montrent que les modifications de la sous-unité SdhB affectent l’affinité des SDHI pour la SDH et les niveaux d’inhibition de l’activité SDH par les molécules inhibitrices ; ce qui explique - in fine - les spectres de résistance des mutants aux SDHI. Actuellement, tous les mutants sont résistants au boscalid et les mutants les plus fréquemment retrouvés au vignoble, sdhBH272R/Y, sont sensibles au fluopyram. Les travaux réalisés sur les mutants sdhB montrent que les mutations étudiées ont également un impact sur l’activité de l’enzyme et sur le développement du champignon, conséquences dépendantes du résidu substitué et de la substitution. En particulier, les mutations sdhBH272L/R affectent fortement l’activité de l’enzyme et la fitness du champignon alors que le mutant sdhBH272Y est peu affecté. Enfin, l’analyse de populations de pourriture grise de différentes origines (région, plantes hôtes) par rapport à la résistance aux SDHI réalisée sur les années 2009/2010 montre que les mutants sdhBH272R/Y sont toujours les plus fréquents mais leurs fréquences varient en fonction des situations agronomiques. Notamment la fréquence du mutant sdhBH272R augmente avec la pression de sélection exercée par les fongicides. Ce mutant attire particulièrement notre attention du fait de sa relation non linéaire entre fitness et fréquence au champSuccinate dehydrogenase is both a key enzyme of the TCA cycle, oxidizing succinate into fumarate and complex II of the mitochondrial respiratory chain involved in electron transfer and ubiquinone reduction. Inhibitors of this enzyme (SDHIs) have been developed or are in the developmental process as fungicides. Actually, SDHIs are registered to deal with Botrytis cinerea, a phytopathogenic fungus responsible for grey mold on many crops including grapevine. Strains of B. cinerea and other pathogenic fungi have been isolated for their resistance to SDHI. They mainly harbor mutations in genes encoding SDH subunits. During this thesis, we studied the impact of mutations modifying subunit B of succinate dehydrogenase on enzyme activity, fungal biology and resistance to SDHIs. “Isogenic” mutants obtained through site-directed mutagenesis and homologous recombination allowed us to confirm the role of sdhB mutations in SDHIs resistance. Our results also show that the substitutions in the SdhB subunit impact respectively the affinity of SDHIs to SDH and the inhibition levels of SDH activity by inhibitors, which explain – in fine – the resistance spectra observed for the mutants. Up to now, all sdhB mutants are resistant to boscalid and the most frequent mutants observed in grapevines, sdhBH272R/Y, are susceptible to fluopyram. Studies on sdhB mutants reveal that the mutations also impact the enzymatic activity and the fungal development depending on the substitution. In particular, sdhBH272L/R mutations have the strongest impact on enzyme activity and the fitness of the fungus, whereas these parameters are almost not altered in the sdhBH272Y mutant. Finally, grey mold populations from different origins (country, plant host) were analyzed for their SDHI resistance pheno- and genotypes. Yet, the sdhBH272R/Y mutants were the most frequent, but these frequencies varied according to the agronomical situation. Interestingly, the frequencies of the sdhBH272R mutant seem to increase with the selective pressure exerted by fungicides. This mutant is of particular interest because of the absence of correlation between the fitness we measured and the frequencies we observed in natura
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Sheikh, Qaiser Iftikhar. « Exploring the structure and function of bacterial cytosine specific DNA methyltransferases using site-directed mutagenesis ». Thesis, University of Sheffield, 2001. http://etheses.whiterose.ac.uk/10258/.
Texte intégralRésumé :
Point mutations were engineered into the sequence of the multispecific DNA methyltransferase (Mtase) M. SPRI in motif IX, in order to mimic the corresponding motif IX of mono-specific Mtase. A similar approach was adopted to modify the sequence of the monospecific enzyme M. HhaI in motifs IX and X based on the available structure and as a consequence the enzyme regained methylation potential. It was thought that these changes might be sufficient to enable functional exchange of the target recognition domains (TRDs) between a mono- and a multispecific enzyme. However, insertion of various segments of TRD region from M. SPRI into the M. HhaI was not successful (Chapter 4). To establish whether mono- and multispecific Mtases are incompatible in terms of sequence exchanges, a systematic "swapping" of motifs was carried out (Chapter 5). These experiments suggested that there are some enzyme-specific structural interactions between different subunits within each class of Mtases. In second half of this thesis a bacterial two-hybrid system based on the reversible assembly of an engineered form of M. SPRI was developed (Chapter 6). However the Mtase protein does not assemble into an active species until a DNA segment encoding a leucine zipper motif is fused to each of the two halves. Co-transformation of E. coli with the plasmids expressing the C-terminal and N-terminal domains respectively resulted in the abolition of colonies on double antibiotic plates, when an mcr strain was used as host. High performance liquid chromatography was used to estimate the extent of modification of plasmids indirectly. The extent of methylation at specific sequences within a plasmid molecule was readily detected by the corresponding differential susceptibility to digestion by specific restriction enzymes. Using this approach it proved possible to detect different levels of activity produced by wild type and mutant recombinant DNA Methyltransferases with sensitivity and in a semi quantitative manner. In order to analyse the biochemical properties of Mtase, I have developed an in vitro translation-modification assay. Binary studies with the mutants (from Chapter 3 and 5) showed that there were no detectable sequence-specific recognition differences between these enzymes. Taken together, these results suggest that motif IX plays a role in general stabilisation of the enzyme core structure and has a less significant role in DNA recognition.
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Chitpinityol, Supannee. « Heterologous expression and site-directed mutagenesis of the enzyme chymosin ». Thesis, University of Reading, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.320101.
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Callahan, Nicholas. « Bioinformatics-Driven Enzyme Engineering : Work On Adenylate Kinase ». The Ohio State University, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=osu1420802270.
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Keiser, Markus Wolfdiedrich Bernard. « Transportverhalten natürlich vorkommender und künstlich generierter Mutationen intestinaler Enzyme in polaren und unpolaren eukaryotischen Zellen ». Gießen : DVG-Service, 2005. http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&doc_number=014733208&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA.
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Xu, Ding Liu Jian. « Structural and mutational analysis of heparan sulfate biosynthetic enzymes ». Chapel Hill, N.C. : University of North Carolina at Chapel Hill, 2006. http://dc.lib.unc.edu/u?/etd,714.
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Thesis (Ph. D.)--University of North Carolina at Chapel Hill, 2006.Title from electronic title page (viewed Oct. 10, 2007). "... in partial fulfillment of the requirements for the degree of Doctor of Philosophy in the School of Pharmacy (Medicinal Chemistry and Natural Products)." Discipline: Medicinal Chemistry and Natural Products; Department/School: Pharmacy.
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Berland, Magali. « Exploration de méthodes statistiques pour la modélisation de la relation séquence-activité de protéines d'intérêt industriel ». Thesis, La Réunion, 2013. http://www.theses.fr/2013LARE0019.
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Par l'accumulation de mutations bénéfiques lors de cycles successifs de mutagénèse, l'évolution dirigée offre un cadre rationnel pour l'amélioration des protéines à vocation industrielle. Elle permet une exploration large de l'espace possible des séquences ainsi que leurs capacités fonctionnelles. Elle est cependant lourde à mettre en oeuvre et nécessite des moyens importants. Des approches in silico font usage d'un jeu minimal de données expérimentales et utilisent la modélisation statistique combinée à des algorithmes d'apprentissage machine. Elles ont été développées pour explorer de façon heuristique l'espace possible des séquences et de la fitness et d'identifier les mutations et interactions entre résidus les plus intéressantes. C'est l'objet de cette thèse qui explore la construction et l'application de modèles statistiques s'appuyant sur des jeux minimaux de données expérimentales pour relier fitness, ou activité, à la séquence biologique des variants. L'étude s'articule autour d'un choix crucial d'une méthode de numérisation, de descripteurs de la séquence et de méthodes de régression. La méthode ProSAR de R. Fox (2005) et les limites de son applicabilité sur des jeux de données expérimentales ont été étudiées. De nouvelles méthodes ont aussi été développées, prenant en compte les propriétés physico-chimiques des acides aminés et leurs périodicités. Elle a permis de découvrir de nouveaux descripteurs reliant la séquence à l'activité et propose des approches innovantes qui ont la capacité de traiter des cadres biologiques très divers, même lorsque peu de données biologiques sont disponiblesVia the accumulation of beneficial mutations through successive rounds of mutations, directed evolution offers a rational framework for the amelioration of protein of industrial interest. It enables the large exploration of the sequence space and fitness. However, they are wet-lab intensive and may reveal to be time consuming and costly. In silico approaches using minimal sets of experimental data and statistical models combined with machine learning algorithms have been developed to explore heuristically the sequence space and to identify the effect of the potential epistatic interactions between residues on protein fitness. This work focused on the construction and application of statistical models relying on minimal experimental datasets to study protein sequence to activity relationships (ProSAR). In particular, the choices of appropriate numerical encoding methods, of descriptors extracted from protein sequences and of regression methods were investigated. The original ProSAR method from R. Fox (2005) and the limits of its applicability on experimental datasets have been studied. New methods that consider physico-chemical features of amino acids and their periodicities have been explored. This study unveils novel descriptors of the sequence-activity relationship and provides innovative approaches that can deal with very diverse biological datasets, even when few biological data are available
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Campeau, Eric. « Molecular genetics of biotin-dependent enzymes : mutation analysis, expression and biochemical studies ». Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1999. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape7/PQDD_0019/NQ55308.pdf.
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Vousden, William Alexander. « Mutational analysis of the ACV synthetase gene of Aspergillus nidulans ». Thesis, University of Sheffield, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.366097.
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Fedkenheuer, Michael Gerald. « Structural and Mutational Analyses of Aspergillus fumigatus SidA : A Flavin-Dependent N-hydroxylating Enzyme ». Thesis, Virginia Tech, 2012. http://hdl.handle.net/10919/76837.
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SidA from Aspergillus fumigatus is an N-hydroxylating monooxygenase that catalyzes the committed step in siderophore biosynthesis. This gene is essential for virulence making it an excellent drug target. In order to design an inhibitor against SidA a greater understanding of the mechanism and structure is needed. We have determined the crystal structure of SidA in complex with NADP+, Ornithine, and FAD at 1.9 ? resolution. The crystal structure has provided insight into substrate and coenzyme selectivity as well as residues essential for catalysis. In particular, we have chosen to study the interactions of Arg 279, shown to interact with the 2'phosphate of the adenine moiety of NADP+ as well as the adenine ring itself. The mutation of this residue to alanine makes the enzyme have little to no selectivity between coenzymes NADPH and NADH which supports the importance of the ionic interaction between Arg279 and the 2'phosphate. Additionally, the mutant enzyme is significantly more uncoupled than WT enzyme with NADPH. We see that the interactions of the guanadinyl group of Arg279 and the adenine ring are also important because KM and Kd values for the mutant enzyme are shifted well above those of wild type with coenzyme NADH. The data is further supported by studies on the reductive and oxidative half reactions. We have also explored the allosteric effect of L-arginine. We provide evidence that an enzyme/coenzyme/L-arginine complex is formed which improves coupling, oxygen reactivity, and reduction in SidA; however more work is needed to fully understand the role of L-arginine as an allosteric effector.Master of Science in Life Sciences
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Fleming, Alastair B. « The effect of a spoIIAC deletion mutation on extracellular enzyme synthesis and metabolism in Bacillus licheniformis ». Thesis, Heriot-Watt University, 1995. http://hdl.handle.net/10399/762.
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Kelleher, Julia E. « Defining domains of the EcoK methylase by mutational analyses and DNA sequence comparisons ». Thesis, University of Edinburgh, 1990. http://hdl.handle.net/1842/12342.
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Allison, Timothy Murray. « Substrate specificity and mutational studies of KDO8PS ». Thesis, University of Canterbury. Chemistry, 2012. http://hdl.handle.net/10092/6684.
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The enzyme 3-deoxy-D-manno-octulosonate 8-phosphate synthase (KDO8PS) catalyses the stereospecific aldol-like condensation between phosphoenolpyruvate (PEP) and the five-carbon sugar D-arabinose 5-phosphate (A5P). This is the first biosynthetic step in the formation of 3-deoxy-D-manno-octulosonate (KDO), an essential lipopolysaccharide component of all Gram-negative bacteria. KDO8PS is evolutionarily related to the shikimate pathway enzyme 3-deoxy-D-arabino-heptulosonate 7-phosphate synthase (DAH7PS), which catalyses a similar condensation reaction between PEP and the four-carbon sugar D-erythrose 4-phosphate (E4P), in the first step of the shikimate pathway to aromatic compounds in plants and microorganisms. As well as being a one-carbon shorter substrate, E4P has the opposite C2-OH configuration to A5P. While there are both metal-dependent and metal-independent forms of KDO8PS, in contrast, all DAH7PS are metal-dependent enzymes.
Little is understood about the key sequence features that distinguish KDO8PS and DAH7PS. These features, particularly those that contribute to A5P or E4P binding, are thought to be responsible for the differences in substrate specificity between the two enzymes. This thesis describes the functional and structural studies of KDO8PS mutants to examine the roles of these residues, using the metal-dependent KDO8PS from Acidithiobacillus ferrooxidans and the metal-independent KDO8PS from Neisseria meningitidis.
In Chapter 2 an extensive KDO8PS and DAH7PS sequence analysis is presented. The results, which identify sequence conservation in both enzymes, are discussed in the context of the (β/α)8 TIM-barrel structure. Some of the differences in conservation between the two enzymes were highlighted as being obvious in having a role or contributing to the different substrate selection preferences of the two enzymes, such as an extended β7α7 loop in KDO8PS, and motif differences on the β2α2 and β4α4 loops. A similar analysis was also used to compare metal-dependent and metal-independent KDO8PSs, and it was found the two forms differ in the conservation of only three residues.
Chapter 3 describes the characterisation of A. ferrooxidans KDO8PS (AfeKDO8PS) and investigates aspects of metal dependency in KDO8PS. The enzyme was found to be metal dependent, and like all other KDO8PS enzymes, to possess a tetrameric quaternary structure, and display tight substrate specificity. The β8α8 loop was found to have a critical role in binding and positioning the substrates, and AfeKDO8PS could not be engineered to be a metal-independent enzyme.
The role of the KDO8PS-conserved KANRS motif, present on the β2α2 loop and one of the main contributors to the A5P binding site, is probed in Chapter 4. Individual residues of the motif were mutated to investigate function, and the motif was converted to the equivalent motif found in DAH7PS (KPRS). It was found that the Lys plays a critical role in enzymatic catalysis, and is likely intimately involved in the enzyme mechanism. The Asn residue of the motif in KDO8PS was found to be an important contributor to KDO8PS stereospecificity.
The work described in Chapter 5 investigates the role of the β7α7 loop in KDO8PS. This long active-site loop, which exists in a shorter version in DAH7PS, was found not to be essential for catalysis in KDO8PS, but was necessary for efficient catalysis. The two conserved residues on the loop provide interactions to A5P, but the presence of the extended loop as a whole was found to be most important for catalytic efficiency.
In Chapter 6 a conserved residue on the re face of PEP is investigated. In KDO8PS the residue is conserved as Asp, and in DAH7PS the same residue is conserved as a Glu. Mutational analysis found that in KDO8PS the Asp residue appears to be important for enzyme activity but unimportant for PEP binding. Mutating this Asp in KDO8PS to Glu was accommodated by KDO8PS, but it was found its introduction could potentially be optimised by coupling the change with mutation to other conserved differences.
In KDO8PS, one of the interfaces between adjacent subunits in the tetrameric structure is partially composed of a conserved sequence motif, PAFLxR. In Chapter 7, the roles of the residues in this motif are explored. The Arg of the motif was found to be important for A5P binding. The equivalent (and also conserved) motif in DAH7PS is GARNxQ, and mutation of residues in the KDO8PS motif to the equivalent residues in DAH7PS was tolerated by KDO8PS, but negatively impacted upon the enzyme kinetic parameters. The sequence features investigated in the other chapters were combined with those to the subunit interface to create a DAH7PS-like protein. This extensively engineered protein lost all KDO8PS activity, but nor did it gain DAH7PS activity.
Lastly, in Chapter 8 the results from all chapters are reviewed and ideas are discussed for advancing the research presented in this thesis.
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Contessoto, Vinícius de Godoi [UNESP]. « Estudo de interações eletrostáticas no processo de enovelamento e na estabilidade de proteínas utilizando modelos simplificados ». Universidade Estadual Paulista (UNESP), 2016. http://hdl.handle.net/11449/143863.
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Entender a contribuição das interações eletrostáticas no processo de enovelamento e na estabilidade do estado nativo de proteínas é de grande relevância em biofísica molecular. Este trabalho possui duas frentes de estudos. Na primeira etapa é apresentado o estudo das interações eletrostáticas no processo de enovelamento utilizando modelos baseados em estruturas com cargas em dinâmica molecular com pH constante. O estudo foi realizado na parte N-terminal da proteína ribossomal L9 (NTL9), uma proteína com o mecanismo de enovelamento de 2 estados, reversível e realizado desde pH 1.0 até 12.0. Foi possível comparar os resultados das simulações com os resultados experimentais presentes na literatura e os dados obtidos indicam que o modelo proposto é capaz de capturar informações fundamentais sobre o processo de enovelamento referentes à estabilidade e dependência com pH. Na segunda etapa é apresentado o estudo sobre as interações eletrostáticas na estabilidade de enzimas com interesse na produção de bioetanol de segunda geração. O objetivo final deste trabalho é adequar as enzimas às condições do reator para a produção de bioetanol. Neste trabalho foi utilizada uma metodologia capaz de indicar possíveis mutações, pela otimização da interação carga–carga na superfície da proteína, que levam ao aumento de termostabilidade. Este trabalho conta com a colaboração do grupo experimental do Laboratório Nacional de Ciência e Tecnologia do Bioetanol (CTBE) que realizam os testes experimentais e as validações das mutações propostas.
The understanding of electrostatic interactions in protein folding process and in native state stability is important to molecular biophysics area. This work has two areas of interest. At first step it is presented the study about electrostatic interactions in the protein folding process using structure-based models in a constant pH molecular dynamics. It was used the N-terminal domain of ribosomal protein L9 (NTL9), which folding mechanism is a two-state pathway, fully reversible and foldable in a pH range from 1.0 to 12.0. The simulation results were compared with experimental results from literature and the obtained data indicates that the proposed model is capable of capturing essential features of folding mechanism about stability and pH dependence. At second step, it is presented the study about electrostatic interactions in stability of enzymes related with second generation bioethanol production. The final goal of this work is to adjust the enzymes to reactor conditions of bioethanol production. It was employed a method that can suggest rational mutation, based on optimization of charge-charge interactions, that leads to thermostability increase. This work can count on the collaboration of an experimental group of Brazilian Bioethanol Science and Technology Laboratory (CTBE) that performs the wet lab tests and validates the suggested mutations.
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Chauvin, Dany. « Droplet-based microfluidics for the genotype-phenotype mapping of model enzymes ». Thesis, Sorbonne Paris Cité, 2017. http://www.theses.fr/2017USPCC192/document.
Texte intégralRésumé :
La relation qui lie la séquence d'une protéine à sa fonction nous échappe toujours en grande partie, pourtant elle est essentielle à la compréhension de l'évolution moléculaire.La microfluidique permet de remplacer les traditionnels tubes à essais par des micro-gouttelettes afin de tester séparément des mutants d'enzyme à des fréquences de l'ordre du kilohertz. Cette technique fournit un moyen de coupler le génotype et le produit de l'activité enzymatique (phénotype). Sélectionner et récupérer les gouttelettes sur demande et séquencer leur contenu permet d'effectuer la cartographie génotype-phénotype de millions de mutants d'enzymes en une seule expérience.Au cours de cette thèse, j'ai tout d'abord développé un système microfluidique basé sur l'expression de protéines in vitro afin de pouvoir réaliser la cartographie génotype-phénotype de Streptomyces griseus aminopeptidase (SGAP). Des gènes mutants de l'enzyme SGAP sont encapsulés (un par gouttelette au maximum) amplifiés, exprimés et testés contre un substrat fluorogénique. Des incompatibilités entre les étapes d'amplification, d'expression et d'essai enzymatique en gouttelettes obligent à réaliser chacune de ces étapes séparément et successivement, afin de diluer le produit de chaque réaction par l'électro-coalescence des gouttelettes. Je montre qu'un work-flow microfluidique dans lequel (i) les gènes sont encapsulés et amplifiés dans des gouttes de 0.2 pL, (ii) exprimés in vitro, (iii) testés contre un substrat fluorogenique dans des gouttelettes de 20 pL, permet de mesurer l'activité de variants de SGAP avec un contraste important. Afin d'optimiser l'essai enzymatique en gouttelettes de SGAP, j'ai aussi développé, en collaboration avec Dr. Johan Fenneteau (Laboratoire de Chimie Organique, ESPCI Paristech), un nouveau substrat fluorogénique basé sur une rhodamine hydrophile. Cette sonde est caractérisée par un échange limité de la rhodamine entre les gouttelettes.J'ai ensuite développé un work-flow microfluidique in vivo, pour Ratus norvegicus trypsin (la trypsine du rat), dans lequel les capacité de sécrétion de Bacillus subtilis sont utilisées afin de simplifier les expériences. Des cellules uniques de B. subtilis sont encapsulées dans des gouttelettes de 20 pL où elles sécrètent des mutants de la trypsine en protéine de fusion avec un rapporteur permettant de mesurer le niveau d'expression. Les mutants sont testés par électro-coalescence avec des gouttelettes de 2 pL contenant un substrat fluorogénique de la trypsine. En normalisant l'activité totale détectée par la fluorescence du rapporteur du niveau d'expression, l'efficacité catalytique peut être directement mesurée en gouttelettes. C'est la première fois qu'un système expérimental d'essai enzymatique haut-débit fournit l'opportunité de mesurer directement l’efficacité catalytique de mutants d'une enzyme à une fréquence de l'ordre du kilo Hertz. Une méthode afin de réaliser la mutagenèse saturée (tous les simples mutants) du gène de la trypsine du rat a aussi été développée. Combinée au séquençage nouvelle génération, la méthode microfluidique développée permettra de réaliser la première cartographie génotype-phénotype de tous les simples mutants de la trypsine du ratThe question of how sequence encodes proteins' function is essential to understand molecular evolution but still remains elusive.Droplet-based microfluidics allows to use micro-metric droplets as reaction vessels to separately assay enzyme variants at the kHz frequency. It also provides an elegant solution to couple the genotype with the product of the catalytic activity of enzymes. Sorting droplets on demand and sequencing their content enables to map the genotype of millions of enzyme variants to their phenotype in a single experiment.First, I developed a cell-free microfluidic work-flow to carry out genotype-phenotype mapping of Streptomyces griseus aminopeptidase (SGAP). Single enzyme variant genes are encapsulated and amplified in droplets, expressed, and assayed against a fluorogenic substrate. Incompatibilities between gene amplification, expression and assay reactions, constrain to execute each one of those steps successively and to dilute the product of each reaction by droplet electro-coalescence. I show that a work-flow in which (i) genes are encapsulated and amplified into 0.2 pL droplets, (ii) expressed using cell-free expression reagents in 2 pL droplets and (iii) assayed with a fluorogenic substrate in 20 pL droplets, allows to measure SGAP variants activity with high contrast. To optimize the SGAP droplet assay, I also developed in collaboration with Dr. Johan Fenneteau (Laboratory of Organic Chemistry, ESPCI Paristech), a hydrophilic rhodamine based substrate, characterized by limited exchange of the released fluorophore between droplets.Second, I developed an in vivo microfluidic work-flow on Ratus norvegicus trypsin (rat trypsin), in which Bacillus subtilis secretion abilities are used to simplify the microfluidic work-flow. Single B. subtilis cells are encapsulated in 20 pL droplets where they secrete trypsin variants as fusion proteins with a fluorescent expression-level reporter. The variants are assayed by droplet electro-coalescence with 2 pL droplets containing a trypsin fluorogenic substrate. Trypsin variants catalytic efficiency can be directly measured in droplets, by normalizing the total trypsin activity by the expression-level reporter fluorescence. This is the first time a high-throughput protein assay work-flow gives the opportunity to directly measure the catalytic efficiency of enzyme variants at the kHz frequency. A method to carry out saturated mutagenesis on the rat trypsin gene was also developed. Together with deep sequencing, the developed experimental work-flow will allow to perform the first quantitative genotype-phenotype mapping of all single point mutants of the rat trypsin protein
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Chatron, Nolan. « VKORC1 et résistance aux antivitamines K : étude par modélisation moléculaire ». Thesis, Université Paris-Saclay (ComUE), 2017. http://www.theses.fr/2017SACLN008/document.
Texte intégralRésumé :
VKORC1 est une enzyme membranaire du réticulum endoplasmique, responsable de la réduction de la vitamine K époxyde en vitamine K quinone, activant la synthèse des facteurs de coagulation. VKORC1 constitue ainsi une cible thérapeutique privilégiée des anticoagulants de type anti-vitamine K (AVKs). Cependant, certaines mutations de VKORC1 induisent une dérégulation physiologique et/ou une résistance aux AVKs. En l’absence de données structurales, plusieurs modèles topologiques de VKORC1 ont été proposés à partir des données biochimiques et biophysiques, fréquemment contradictoires. La topologie de VKORC1 ainsi que l'implication des résidus de cystéine (strictement conservés chez toutes les VKORs) dans le mécanisme enzymatique de la protéine restent incertaines. Nous avons construit, par des méthodes in silico, un modèle 3D de la VKORC1 humaine sauvage (hVKORC1WT) à l'échelle atomique. Des simulations de dynamique moléculaire de la protéine, en considérant tous les résidus de cystéine sous leur forme oxydée (SH), nous ont permis d'identifier les résidus de cystéine les plus susceptibles de former des ponts disulfures. Nous avons par conséquent décrit les conformations métastables de hVKORC1WT mimant les états fonctionnels de la protéine. L’étude de la reconnaissance des formes époxyde et réduites de la vitamine K par les conformations prédites de hVKORC1WT a mis en évidence leur sélectivité réciproque. Les conformations de hVKORC1WT ciblées par chaque forme de la vitamine K et leur rôle dans le mécanisme de réduction de la molécule ont ainsi été caractérisés. Nous avons postulé à partir de ces résultats le mécanisme enzymatique détaillé de hVKORC1WT et proposé la structure-cible des AVKs. Les interactions entre la cible prédite - hVKORC1WT à l'état actif - et trois AVKs différents ont été décrites en termes d’énergie libre de liaison. Ces résultats ont été corrélés avec les constantes d'inhibition mesurées in vivo, validant nos prédictions théoriques. Notre protocole, développé pour hVKORC1WT, est applicable aux formes mutées de l’enzyme. Il permettra la description des mécanismes modifiant l'activité réductase de hVKORC1 et/ou provoquant une résistance aux AVKs. Cette description ouvre la voie à la conception d'une nouvelle génération d'inhibiteurs surmontant les résistances aux AVKs. Notre concept et le protocole établi pour l’étude de hVKORC1 peuvent être étendus à l'analyse des VKORs mammaliennes et aux autres enzymes de la famille des oxydoréductasesVKORC1 is an endoplasmic reticulum membrane-resident enzyme, responsible for vitamin K epoxide reduction to vitamin K quinone that activates coagulation factors synthesis. VKORC1 is thus a prominent target of vitamin K agonists (VKAs) in anticoagulant therapies. However, some VKORC1 mutations lead to physiological dysregulation and/or VKAs resistance. No VKORC1 structural data is available, and postulated topological models are based on biochemical and biophysical experimental observations frequently contradicting. Topology of VKORC1 and involvement of cysteines residues (highly conserved in VKORs) in the protein enzymatic mechanism remain unclear. We built an in silico 3D model of the wild-type human VKORC1 (hVKORC1WT) at the atomistic scale. Molecular dynamics simulations of the protein model, carrying all the cysteines residues in their oxidized form (SH), were used for identification of cysteines residues which may plausibly form disulfide bridges. We thus described hVKORC1WT metastable conformations depicting the functionally relevant states of protein. Study of the vitamin K (in epoxide and in reduced forms) recognition by the predicted conformations of hVKORC1WT revealed their reciprocal selectivity. The hVKORC1WT conformations targeted by each vitamin K form were established and their role in the reduction mechanism of this molecule was explained. Using our results, we postulated the comprehensive enzymatic mechanism of hVKORC1WT and we proposed the 3D structure as the VKAs target. Interactions between the predicted target - hVKORC1WT active state - and three different VKAs were characterized. The obtained affinities (free binding energy) were in good correlation with in vivo measured inhibition constants (Ki), thus validating our theoretical predictions. Our protocol developed for hVKORC1WT is suitable for a study of its mutants. Description of the enzymatic mechanisms of mutated hVKORC1 will lead to understanding of the modified reductase activity or/and to explaining of its resistance to VKAs. Such data are crucial for the development of novel strategies in the design of a new generation of inhibitors overcoming VKAs resistance. Our concept and the established in silico protocol can be extended to analysis of mammalian VKORs and other oxidoreductases family proteins
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Legler, Patricia Marie. « Kinetic, magnetic, resonance, and mutational studies of the mechanisms of GDP-mannose mannosyl hydrolase, an unusual nudix enzyme ». Available to US Hopkins community, 2002. http://wwwlib.umi.com/dissertations/dlnow/3046492.
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Belfaiza, Jamila. « Contribution à l'étude de la structure et de la régulation de l'expression des gènes de biosynthèse de la méthionine chez Escherichia coli K12 ». Paris 11, 1986. http://www.theses.fr/1986PA112159.
Texte intégralRésumé :
Chez Escherichia coli, la voie de biosynthèse de la méthionine est une voie ramifiée dérivant de l'acide aspartique. Les gènes correspondants sont dispersés sur le chromosome et leur expression est réprimée par la méthionine via un aporépresseur, le produit du gène metJ, activé par un corépresseur, la 5-adénosylméthionine. Au cours d'une analyse biochimique, nous avons contribué à l'étude des domaines de l'aspartokinase 11-homosérine déshydrogénase II (AK II-HDH II), enzyme bifonctionnel codé par le gène metL. Nous avons alors proposé un modèle à trois domaines pour l'AK II-HDH II, analogue à celui proposé pour un enzyme isofonctionnel, l'aspartokinase 1-homosérine déshydrogénase I. Nous avons déterminé la séquence du gène metC codant pour la cystathionase et avons comparé la séquence polypeptidique obtenue avec celle d'un enzyme qui catalyse la réaction précédente dans la voie spécifique de la méthionine (produit du gène metB). Nous avons pu mettre en évidence l'existence d'une homologie entre ces deux enzymes qui suggère fortement une origine commune. La comparaison des régions régulatrices des gènes metA, B, C et F a permis de mettre en évidence une région homologue. Il a été suggéré que cette région homologue soit la cible du répresseur. Nous avons pu démontrer que pour l'un des gènes, il en était ainsi par l'isolement de mutations de type opérateur constitutif. Les opérateurs altérés ne reconnaissent plus le répresseur purifié dans un système de transcription-traduction in vitro, alors que la répression est très efficace lorsque l'opérateur du gène metF est de type sauvage. Les études d'interactions du répresseur purifié avec les opérateurs de type sauvage ou altérés par mutation ont été rendues possibles par l'isolement de fusions de gènes. En effet, en particulier, la fusion du gène metF au gène lacZ a grandement facilité la mesure de l'expression du gène metF. NçaisThe branched methionine biosynthetic pathway, in E. Coli K12 derives from aspartate. The corresponding genes are dispersed on the chromosome; their expression is repressed indirectly by methionine, via an aporepressor the metJ gene product, activated by a corepressor, S-adenosylmethionine. We have contributed through a biochemical analysis, to the study of the domains of aspartokinase 11-homoserine dehydrogenase II (AK II-HDH Il), a bifonctional enzyme encoded by the metL gene. We have proposed a three domains model for AK 11-HDH II, analogous to that proposed for an isofunctional enzyme, aspartokinase 1-homoserine dehydrogenase 1. We have determined the nucleotide sequence of the metC: gene encoding cystathionase and have compared the deduced aminoacid sequence with that of an enzyme catalyzing the preceding reaction in the specific methionine pathway (product of the metB gene). We have evidence for homology between these two enzymes, which suggest a common ancestor. The comparison between the regulatory regions of the metA, B, C and F genes has shown a homologous region. It has been suggested that this homologous region is the target of the repressor. We have demonstrated by isolation of operator constitutive mutations for one of the genes that this hypothesis is correct. The altered operators do not recognize the purified repressor in an in vitro transcription-translation system although the repression is efficient with the metF wild type operator. The studies of the interactions of the purified repressor with the wild type or mutated operators were facilitated by the isolation of gene fusions. In particular, the fusion of the metF gene to the lacZ gene has provided a simple measurement of the metF gene expression
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Ikegami, Cecília Midori. « Caracterização funcional dos resíduos centrais da rede estrutural da β-glicosidase Sfβgli de Spodoptera frugiperda ». Universidade de São Paulo, 2013. http://www.teses.usp.br/teses/disponiveis/46/46131/tde-21052013-134648/.
Texte intégralRésumé :
Na última década, a análise da estrutura proteica baseada em teoria de redes/grafos tem emergido. A abstração da estrutura tridimensional proteica em forma de uma rede, leva em consideração os resíduos de aminoácidos e suas interações através do espaço, e apresenta um conjunto de conexões e propriedades mais complexas do que aquelas visualizadas apenas com a estrutura covalente. A análise da estrutura proteica identificou que as proteínas pertencem às redes de classes de \"mundo pequeno\" (small-world) e \"sem escala\" (scale-free), o que significa que seus resíduos de aminoácidos são altamente agregados e que existem poucas conexões entre 2 resíduos quaisquer da proteína. A identificação dos resíduos com alto grau de conexão, chamados centrais (\"resíduos hubs\"), é feita pela determinação do caminho mais curto que conecta um dado resíduo aos demais compreendidos nesta rede. A remoção destes resíduos centrais (hubs) afeta a integridade da rede de forma mais contundente diferentemente da remoção de resíduos que não são centrais. Até o momento estes \"resíduos hubs\" ainda não foram experimentalmente correlacionados com as propriedades enzimáticas de proteínas. Para tal finalidade, a estrutura terciária de uma β-glicosidase de Spodoptera frugiperda (Sfβgli) foi analisada como uma rede. Após calcular-se os caminhos médios entre todos os pares de aminoácidos da β-glicosidase, encontrou-se 11 resíduos centrais (\"resíduos hubs\"). Alinhamento de sequências e comparações estruturais indicaram alta conservação destes \"resíduos hubs\". Nosso objetivo foi produzir esta β-glicosidase mutando-se a maioria dos \"resíduos hubs\" e 3 aminoácidos não centrais (\"não hubs\"), expressar estes mutantes em E. coli, determinar suas propriedades enzimáticas como atividade catalítica e preferência pelo substrato e verificar a estabilidade destes mutantes em experimentos de inativação térmica. Os resultados obtidos sugerem que mutações nos \"resíduos hubs\" não afetam as propriedades catalíticas, contudo as enzimas com mutações nos \"resíduos hubs\" apresentaram uma menor estabilidade térmica. Estes resultados sugeriram que os \"resíduos hubs\" são relevantes na difusão da energia cinética (vibração) introduzida na estrutura desta β-glicosidase pelo seu aquecimentoIn recent years, graph-theoretic approaches have established that protein structures can be modeled as complex networks of interacting residues. Proteins structures can be represented as small-world and scale-free networks that are usually highly clustered with few links connecting any pair of nodes. The identification of nodes with high connection degrees, called hubs, is made by determining the shortest path linking one amino acid to the further nodes comprising the network. Targeted removal of the hubs has greater affect on the integrity of the network structure in contrast to a random removal of amino acid residues comprising the network. Nevertheless these hubs had not previously been correlated with enzymatic properties. The tertiary structure of β-glycosidase from S. furgiperda (Sfβgly) was analyzed as a network. After calculating the averaged paths between all pairs of amino acid residues of Sfgly, we defined 11 hubs, which have the highest centrality on the network. Sequence alignment and structural comparison showed that these hubs residue are conserved among β-glycosidases. Our goal was to mutate most hubs and 3 ´non-hubs´ residues from Sfβgly, express these mutant enzymes in E. coli, test their enzymatic properties as catalytic efficiency and substrate preference, and verify the thermal stability of these mutants. The results implied that mutations in these hubs do not cause changes in catalytic properties although enzymes containing mutations in hubs showed lower thermal stability. Based on that, it was suggested that hub residues are important in the diffusion of kinetic energy (vibrations) introduced in the Sfβgly structure by heating
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Ioannidis, Daphne. « Isolation, cloning, expression and mutation of Salvia fruiticosa and Salvia pomifera genes encoding terpene synthases and related enzymes ». Thesis, University of Reading, 2006. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.494154.
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Two cDNA libraries, from Salvia fruticosa and Salvia pomifera were used as starting material for this research. An analysis of the expressed sequence tags (ESTs) was made in both cases and compared with ESTs from another member of the same Labiatae family (Origanum vugare), with a monocotyledon species (Oryza sativa), and with a dicotyledon with secondary growth (Populus sp). As expected, the gene distribution in the different categories suggested by the Munich Information Center for Protein Sequences (MIPS) was very similar for all the member of the Labiatae family. The analysis showed that sequences generally group together based on species relationships rather than function. This makes it difficult to use sequence information for the prediction of function. However, it could be noted that within closely related species, enzymes of similar function group together and in these cases, sequence information may be informative for predicting functionally important amino acids.
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Facista, Alexander, Huy Nguyen, Cristy Lewis, Anil Prasad, Lois Ramsey, Beryl Zaitlin, Valentine Nfonsam et al. « Deficient expression of DNA repair enzymes in early progression to sporadic colon cancer ». BioMed Central, 2012. http://hdl.handle.net/10150/610153.
Texte intégralRésumé :
BACKGROUND:Cancers often arise within an area of cells (e.g. an epithelial patch) that is predisposed to the development of cancer, i.e. a "field of cancerization" or "field defect." Sporadic colon cancer is characterized by an elevated mutation rate and genomic instability. If a field defect were deficient in DNA repair, DNA damages would tend to escape repair and give rise to carcinogenic mutations.PURPOSE:To determine whether reduced expression of DNA repair proteins Pms2, Ercc1 and Xpf (pairing partner of Ercc1) are early steps in progression to colon cancer.RESULTS:Tissue biopsies were taken during colonoscopies of 77 patients at 4 different risk levels for colon cancer, including 19 patients who had never had colonic neoplasia (who served as controls). In addition, 158 tissue samples were taken from tissues near or within colon cancers removed by resection and 16 tissue samples were taken near tubulovillous adenomas (TVAs) removed by resection. 568 triplicate tissue sections (a total of 1,704 tissue sections) from these tissue samples were evaluated by immunohistochemistry for 4 DNA repair proteins. Substantially reduced protein expression of Pms2, Ercc1 and Xpf occurred in field defects of up to 10 cm longitudinally distant from colon cancers or TVAs and within colon cancers. Expression of another DNA repair protein, Ku86, was infrequently reduced in these areas. When Pms2, Ercc1 or Xpf were reduced in protein expression, then either one or both of the other two proteins most often had reduced protein expression as well. The mean inner colon circumferences, from 32 resections, of the ascending, transverse and descending/sigmoid areas were measured as 6.6 cm, 5.8 cm and 6.3 cm, respectively. When combined with other measurements in the literature, this indicates the approximate mean number of colonic crypts in humans is 10 million.CONCLUSIONS:The substantial deficiencies in protein expression of DNA repair proteins Pms2, Ercc1 and Xpf in about 1 million crypts near cancers and TVAs suggests that the tumors arose in field defects that were deficient in DNA repair and that deficiencies in Pms2, Ercc1 and Xpf are early steps, often occurring together, in progression to colon cancer.
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Meier, Ute-Christiane. « The cytotoxic T-cell recognition of HIV-1 reverse transcriptase : the effect of mutation within this protein on immune recognition and enzyme function ». Thesis, University of Oxford, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.337500.
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Keiser, Markus Wolfdiedrich Bernard [Verfasser]. « Transportverhalten natürlich vorkommender und künstlich generierter Mutationen intestinaler Enzyme in polaren und unpolaren eukaryotischen Zellen / vorgelegt von Markus Wolfdiedrich Bernard Keiser ». Gießen : DVG-Service, 2005. http://d-nb.info/978209567/34.
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Joshi, Amod N. « Analysis of Archived Dried Blood Spots by Mass Spectrometry for Vitamin D and Real-time PCR for its Enzymes and Receptor ». Wright State University / OhioLINK, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=wright1323273377.
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Modén, Olof. « Mutational Analysis and Redesign of Alpha-class Glutathione Transferases for Enhanced Azathioprine Activity ». Doctoral thesis, Uppsala universitet, Biokemi, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-167332.
Texte intégralRésumé :
Glutathione transferase (GST) A2-2 is the human enzyme most efficient in catalyzing azathioprine activation. Structure-function relationships were sought explaining the higher catalytic efficiency compared to other alpha class GSTs. By screening a DNA shuffling library, five recombined segments were identified that were conserved among the most active mutants. Mutational analysis confirmed the importance of these short segments as their insertion into low-active GSTs introduced higher azathioprine activity. Besides, H-site mutagenesis led to decreased azathioprine activity when the targeted positions belonged to these conserved segments and mainly enhanced activity when other positions were targeted. Hydrophobic residues were preferred in positions 208 and 213. The prodrug azathioprine is today primarily used for maintaining remission in inflammatory bowel disease. Therapy leads to adverse effects for 30 % of the patients and genotyping of the metabolic genes involved can explain some of these incidences. Five genotypes of human A2-2 were characterized and variant A2*E had 3–4-fold higher catalytic efficiency with azathioprine, due to a proline mutated close to the H-site. Faster activation might lead to different metabolite distributions and possibly more adverse effects. Genotyping of GSTs is recommended for further studies. Molecular docking of azathioprine into a modeled structure of A2*E suggested three positions for mutagenesis. The most active mutants had small or polar residues in the mutated positions. Mutant L107G/L108D/F222H displayed a 70-fold improved catalytic efficiency with azathioprine. Determination of its structure by X-ray crystallography showed a widened H-site, suggesting that the transition state could be accommodated in a mode better suited for catalysis. The mutational analysis increased our understanding of the azathioprine activation in alpha class GSTs and highlighted A2*E as one factor possibly behind the adverse drug-effects. A successfully redesigned GST, with 200-fold enhanced catalytic efficiency towards azathioprine compared to the starting point A2*C, might find use in targeted enzyme-prodrug therapies.
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Elisée, Eddy. « Towards in silico prediction of mutations related to antibiotic resistance ». Thesis, Université Paris-Saclay (ComUE), 2019. http://www.theses.fr/2019SACLS350.
Texte intégralRésumé :
La résistance aux antibiotiques est une menace sérieuse pour la santé publique. En effet, si on ne change pas rapidement notre consommation excessive d'antibiotiques, la situation actuelle va se dégrader jusqu'à basculer dans une ère dite "post-antibiotique", dans laquelle plus aucun antibiotique ne sera efficace contre les infections microbiennes. Bien que ce phénomène de résistance apparaît naturellement, l'utilisation abusive d'antibiotiques accélère le processus. De plus, la présence de pathogènes multi-résistants neutralise l'effet des traitements existants et dans le cas de chirurgies courantes (césariennes, transplantations d'organe...), la situation peut rapidement s'aggraver voire devenir mortelle. C'est pourquoi des directives, émanant des autorités sanitaires, doivent être mises en place afin de contrôler l'utilisation des médicaments, et ce, à tous les niveaux de la société, des individus au secteur agricole en passant par les professionnels de santé et les industries pharmaceutiques. Le monde de la recherche scientifique, quant à elle, doit trouver des nouvelles stratégies pour enrayer la propagation de la résistance. Dans ce contexte, cette thèse a pour objectif le développement d'une méthode de prédiction, par calculs d'énergie libre, des mutations de β-lactamases favorables à l'hydrolyse des β-lactames. Ces travaux méthodologiques ont donc conduit au développement : (1) de nouveaux paramètres pour les enzymes à zinc, implémentés dans le champ de force OPLS-AA et validés par des simulations de dynamique moléculaire sur un panel de métalloenzymes représentatives, (2) d'un protocole de paramétrisation de ligands covalents pour étudier le comportement de certains β-lactames dans CMY-136, une nouvelle β-lactamase caractérisée au laboratoire, et (3) d'un protocole de calcul d'énergie libre évalué au moyen de compétitions internationales de prédiction. Ce dernier a ensuite été utilisé pour tenter d'expliquer pourquoi la carbamylation de la sérine catalytique n'a pas lieu dans certaines oxacillinases. Au travers de ces travaux, nous avons pu améliorer significativement notre approche computationnelle et désormais tout est en place pour une exploration exhaustive des mutations possibles dans les β-lactamasesAntibiotic resistance is a global concern threatening worldwide health. Indeed, if we don't change our overconsumption of antibiotics, the current situation could worsen until a "post-antibiotic" era in which existing treatment would be ineffective against microbial infections. Despite the natural occurrence of antibiotic resistance, the misuse of antibiotics is speeding up the process. Furthermore, presence of multi-resistant pathogens negates the effect of modern treatments and usual surgeries (caesarean sections, organ transplantations...) might be riskier in the future, or even lethal. That's why, common guidelines have to be edicted by health authorities in order to control antibiotic use at every level of society, from individuals to healthcare industry including health professionals and agriculture sector. As for scientific research, new strategies have to be considered in order to limit the spread of antibiotic resistance. In that context, the presented thesis aimed at developing a protocol to predict, by free energy calculations, β-lactamase mutations which could promote the hydolysis of β-lactams antibiotics. In order to achieve that, we developed several methodological approaches including: (1) new parameters for zinc enzymes implemented in OPLS-AA force field and thereafter validated using molecular dynamics simulations of representative zinc-containing metalloenzymes, (2) a protocol to parameterize covalent ligands in order to analyze the dynamical behavior of some β-lactams in CMY-136, a novel β-lactamase recently characterized in our laboratory, and (3) a pmx-based free energy protocol. The latter was also assessed through several international blinded prediction challenges, and finally used to find out why carbamylation of the catalytic serine is not observed in certain OXA enzymes. Throughout this work, we made significant improvements in our protocol, and now everything is in place for an exhaustive prediction of possible mutations in β-lactamases
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Spaulding, Nathan, Devaiah P. Shivakumar et Cecelia A. McIntosh. « Affect of Mutation D344P on the Regio- and/or Substrate Specificity of CP3-OGT ». Digital Commons @ East Tennessee State University, 2016. https://dc.etsu.edu/etsu-works/360.
Texte intégralRésumé :
Plants produce a vast array of secondary metabolites. The phenolic compounds flavonoids are metabolites ubiquitous among plants and are known to aid in processes such as plant reproduction, UV defense, pigmentation and development. In relation to human health, flavonoids have also been found to possess anti-inflammatory, anti-cancer, and anti-oxidant properties. Flavonoids ability to participate in so many interactions is due in part to their subclass variation and further chemical modification. One such modification is glucosylation, where a glucose molecule is added to the flavonoid substrate. The enzymes that catalyze these reactions are known as glucosyltransferases. Citrus paradisi contains a glucosyltransferase that is specific to the 3-O position of flavonols. To further understand the reactions it catalyzes, Cp3-O-GT structure was modeled against a anthocyanidin/flavonol 3 GT found in Vitis vinifera to identify candidate amino acids for mutations. Mutants were then created using site-directed mutagenesis, and one mutant, D344P, was constructed by an aspartate being replaced with a proline based off of the sequence comparison of the original enzymes. Biochemically characterizing the mutant D344P protein will determine whether the mutation has an effect on the regio and/or steriospecificity of Cp3-OGT. An initial screening assay has been performed using radioactive UDP- glucose as a sugar donor. Early results indicated that the mutant D344P has particular affinity for flavonols and for diosometin, a flavone. Kinetic assays are being performed to confirm these results. Studies of time course, enzyme concentration, HPLC product analysis, pH optimum and reaction kinetics will be performed to further complete D344P protein characterization.
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Tulfahi-Ebido, Ahlam. « Contribution à l'étude de la production de cyclodextrine-glycosyl-transférases par des souches alcalophiles ». Compiègne, 1993. http://www.theses.fr/1993COMPD667.
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L'étude de l'isolement et de la sélection de souches bactériennes (Bacillus alcalophilus) productrices d'enzymes cyclodextrine-glycosyl-transférases (CGTases) catalysant la synthèse de cyclodextrines à partir d'amidon, s'inscrit dans un contexte de microbiologie appliquée d'un grand intérêt industriel. L'étude sur la sélection de souches productrices de CGTases issues des collections internationales, a permis dans un premier temps de retrouver les capacités des souches qualifiées d'industrielles et d'étudier l'influence de la composition du milieu sur les activités enzymatiques en fioles et en fermenteur. Des mutants hyperproducteurs de CGTases ont ensuite été obtenus grâce à la mise en œuvre de la méthode de mutagénèse par rayonnement ultra-violet et la mise au point de différentes techniques de criblage. L'analyse de mille cinq cent mutants a conduit à la sélection de treize clones génétiquement stables et caractérisés par une activité alpha, beta ou gamma CGTase élevée. Par rapport à la souche de référence, quelques clones présentent une activité alpha CGTase multipliée par facteur 9, beta CGTase multipliée par facteur 2 et gamma CGTase multipliée par facteur 4. Pour le meilleur clone, la somme des trois activités est multipliée par 4. Par ailleurs, des souches sauvages ont été isolées à partir d'un biotope naturel : une terre alcaline provenant d'un champs de blé traité aux pesticides s'est révélée très intéressante pour la recherche de souches hyperproductrices de CGTases. De plus, une méthode de criblage utilisant des milieux sélectifs à base de alpha ou gamma cyclodextrine s'est avérée particulièrement efficace. Ces essais nous ont permis d'isoler six souches dont la capacité de production est supérieure à celle de la souche témoin. La souche la plus active présente une activité CGTase globale trois fois plus importante que la souche de référence. Ainsi, le choix d'un écosystème particulier associé à une procédure de sélection spécifique a permis d'atteindre une probabilité de sélection de l'ordre de 1/10, alors que les méthodes traditionnelles ne permettent pas de dépasser 1/100 à 1/1000 pour Bacillus alcalophilus.
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Torrieri, Érico. « Análise Estrutural de Mutações na Enzima GALNS associadas à Mucopolissacaridose IVA utilizando a Técnica de Modelagem Comparativa ». Universidade de São Paulo, 2015. http://www.teses.usp.br/teses/disponiveis/17/17135/tde-28072015-113748/.
Texte intégralRésumé :
As Mucopolissacaridoses (MPS) são um grupo de doenças de armazenamento lisossômico causadas por deficiência de enzimas que catalisam a degradação gradual das glicosaminoglicanas (GAGs). GAGs (anteriormente chamadas de mucopolissacarídeos) são produtos de degradação das proteoglicanas que existem na matriz extracelular e tem efeito proteolítico. A classificação das MPS é baseada na deficiência enzimática específica. A MPS IVA é causada por mutações no gene que codifica a enzima GALNS (Nacetilgalactosamina-6-sulfatase), a qual desempenha um papel crucial na degradação do sulfato de queratano e condroitina-6-sulfatase. As mutações na enzima se resumem em três categorias: interrupção do sítio ativo, alterações no núcleo hidrofóbico e exposição da superfície, onde mutações missense na estrutura podem afetar gravemente a atividade da proteína GALNS, alterando seu núcleo hidrofóbico ou modificando seu enovelamento (folding). Com a falta de tratamentos efetivos, sendo em sua maioria paliativos, e tendo como base a estrutura já resolvida da GLANS selvagem, este trabalho teve como objetivo modelar 3 variantes da enzima GALNs, sendo uma mutação no sítio ativo, uma no núcleo hidrofóbico e uma na superfície. Foi usado o software MODELLER 9.12 para a modelagem comparativa, os softwares Prochek, PROSA II, ERRATv2, Verify3d, ProQ para a avaliação dos modelos, o software NAND 2.10, para simulação de dinâmica molecular e o software Chimera 1.10.1 para cálculo de superfícies eletrostáticas e hidrofobicidade da superfície. Os modelos apresentaram bons resultados segundo os softwares de avaliação e análise visual. Apresentaram poucas diferenças estruturais em relação à estrutura da GALNS selvagem, demonstraram estabilidade em simulação de dinâmica molecular. Entretanto, algumas diferenças foram observadas com relação à distribuição de cargas e hidrofobicidade no sítio ativo do modelo da variante com mutação no sítio ativo. Pôde ser concluído que as 3 mutações analisadas não causaram alterações estruturais significativas, não interferiram na estabilidade estrutural em simulação de dinâmica molecular, entretanto, foi demonstrado que mutações na região do sítio ativo podem interferir na função da enzima.The Mucopolysaccharidoses (MPS) are a group of lysosomal storage diseases caused by deficiencies in enzymes that catalyze the gradual glycosaminoglycans (GAGs) degradation. GAGs (formerly called mucopolysaccharides) are products of proteoglycan degradation that exist in the extracellular matrix and have proteolytic effect. The classification of MPS is based on the specific enzyme deficiency. MPS IVA is caused by mutations in the gene that encodes the GALNS enzyme (Nacetilgalactosamina-6-sulfatase), which plays a crucial role in the degradation of keratan sulfate and chondroitin-6-sulfatase. Mutations in the enzyme can be summarized in three categories: interruption of the active site, changes in the hydrophobic core and display surface, where missense mutations in the structure can seriously affect the activity of GALNS protein, changing its hydrophobic core or modifying its folding. With the lack of effective treatments, in its most palliative, and based on the wild GALNS structure already determined, this study aimed to model 3 variants of GALNS enzyme, a mutation in the active site, one in the hydrophobic core and a on the surface. 9.12 MODELLER was used for comparative modeling software, the software Prochek, Prose II, ERRATv2, Verify3d, ProQ models for the evaluation of the NAND 2.10 software, for molecular dynamics simulation and software Chimera 1.10.1 calculates electrostatic and hydrophobic surface. The models showed good results according to the evaluation software and visual analysis. Presented few structural differences from the wild GALNS structure and showed stability in molecular dynamics simulation. However, some differences were observed with respect to the charge distribution and hydrophobicity in the active site of the variants of the model with a mutation in the active site. It might be concluded that the three mutations analyzed did not cause significant structural changes and did not affect the structural stability in molecular dynamics simulation, however, it has been shown that mutations in the active site region may interfere with the function of this enzyme.
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Talhaoui, Ibtissam. « Les enzymes de biosynthèse des glycosaminoglycanes : étude structurale et fonctionnelle de la [bêta]4GalT7 humaine et caractérisation moléculaire des mutations responsables du syndrome progéroide d'Ehlers-Danlos ». Thesis, Nancy 1, 2010. http://www.theses.fr/2010NAN10126/document.
Texte intégralRésumé :
Les chaînes de glycosaminoglycanes (GAGs) des protéoglycanes (PGs) jouent un rôle majeur dans la régulation de multiples événements cellulaires et le maintien de l'architecture des tissus. Des perturbations de la synthèse des GAGs sont impliquées dans des pathologies d'origine dégénérative, tumorale et génétique, tel que le syndrome progéroïde d'Ehlers-Danlos (ED). Ce déficit résulte de mutations de la [bêta]1,4-galactosyltransférase 7 ([bêta]4GalT7) humaine associées à des atteintes sévères du système musculo-squelettique. En effet, cette enzyme catalyse une étape essentielle de l?initiation de la synthèse des GAGs à partir de la protéine "core" des PGs et de xylosides exogènes. Notre travail a porté sur l'étude structure-fonction de la [bêta]4GalT7 recombinante humaine. Nous avons associé des approches in vitro et ex vivo afin d?explorer le rôle des acides aminés des motifs 163DVD165, 221FWGWGREDDD230 et 257HLH259, strictement conservés au sein des [bêta]4GalTs. L'étude des conséquences de mutations systématiques sur les propriétés cinétiques et fonctionnelles de la [bêta]4GalT7 recombinante a permis d'identifier des acides aminés essentiels du site actif. Nous avons montré que les résidus D165 et H257 forment des liaisons de coordination avec le cation Mn2+ et proposé le rôle du résidu D228 dans la catalyse. Nous avons mis en évidence un rôle central du résidu W224 dans les interactions avec les substrats donneur et accepteur. Nous avons également établi les bases moléculaires des mutations de la [bêta]4GalT7 associées au syndrome ED. Enfin, l'étude de mécanismes de régulation épigénétique des voies de biosynthèse des GAGs dans les cellules H-EMC-SS de chondrosarcome humain a mis en évidence une hyperméthylation spécifique des gènes de la famille des 3-O-sulfotransférases, associée à un phénotype invasif. L'ensemble de ce travail ouvre des perspectives vers de nouvelles stratégies thérapeutiques dans le traitement des arthropathiesProteoglycans (PGs) and their glycosaminoglycan chains (GAGs), play a major role in the architecture of extracellular matrices and are implicated in numerous cell events. The impairment of GAG synthesis and sulfation is involved in degenerative, tumor and genetic diseases, such as the progeroid form of Ehlers-Danlos (ED) syndrome. This inherited disorder is due to mutations of human [bêta]4GalT7 ([bêta]4GalT7) causing a defect in GAG synthesis, associated with severe musculo-skeletal alterations. Indeed, this enzyme catalyzes a key step in GAG synthesis linked to the core protein of PGs and from exogenous xylosides. Our work has been focused on the structural and functional characterization of human recombinant [bêta]4GalT7 enzyme. We combined in vitro and ex vivo approaches to explore the role of amino acids located in 163DVD165, 221FWGWGREDDD230 and 257HLH259 motifs, which are highly conserved within [bêta]4GalTs. The study of the consequences of site-directed mutations on kinetic and functional properties of the [bêta]4GalT7 enzyme allowed us to identify key active site amino acids. Our results indicate that D165 and H257 residues form coordination bonds with Mn2+ divalent cations. Furthermore, we suggested a catalytic role for D228 residue and highlighted a central role of W224 residue via interactions with the donor and acceptor substrates. We also determined the molecular basis of [bêta]4GalT7 mutations associated with ED syndrome. Finally, the study of epigenetic regulation mechanisms by DNA methylation of GAG biosynthesis in human chondrosarcoma cells (H-EMC-SS) revealed the specific hypermethylation of the 3-O-sulfotransferase gene family, associated with the invasive phenotype of these cells. Together, this work paves the way towards innovative strategies in the treatment of arthropathies
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Izard, Anne. « Expression de l'autolyse cellulaire chez clostridium acetobutylicum atcc 824 : influence des autolysines, des proteases et des alcools ». Toulouse, INSA, 1988. http://www.theses.fr/1988ISAT0019.
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Allibert, Patrice. « Clonage et caractérisation d'un gène de Escherichia coli complémentant une mutation de type ntr chez Rhodopseudomonas capsulata ». Grenoble 1, 1986. http://www.theses.fr/1986GRE10079.
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Cuncic, Cary F. « Characterization of a mycophenolic acid-resistant mouse inosine 5'-monophosphate dehydrogenase possessing two amino acid substitutions by determination of the effect of each mutation on the kinetic parameters of the enzyme ». Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp05/mq24652.pdf.
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Dong, Ying. « Étude fonctionnelle des enzymes de débranchement de l'amidon de la feuille d'Arabidopsis thaliana : entre synthèse et dégradation, établissement des fonctions des différentes isoformes d'isoamylases et de la pullulanase ». Lille 1, 2007. https://pepite-depot.univ-lille.fr/LIBRE/Th_Num/2007/50376-2007-39.pdf.
Texte intégralRésumé :
Quatre gènes codant potentiellement des enzymes de débranchement ont été retrouvés dans le génome d'Arabidopsis thaliana: ISA1, ISA2, ISA3 et PU1. Les lignées simples mutants de chacun de ces gènes ont sélectionnées et analysées. Par ailleurs, nous avons produit par croisement les trois combinaisons doubles mutantes et une combinaison triple mutant (isa2-/pu1-, isa1-/isa3-, isa3-/pu1- et isa1-/isa3-/pu1-) et avons analysé les modifications du contenu en amidon et de la structure de l'amylopectine engendrées par les mutations. Nos résultats montrent que le complexe enzymatique, que nous avons dénommé Iso1, constitué par la protéine ISA1 et ISA2 est impliqué directement dans la biosynthèse de l'amylopectine alors qu'ISA3 fonctionne plutôt dans la dégradation du polymère de réserve. De son côté, le simple mutant pu1- ne présente pas de modification phénotypique significative du contenu et de la structure de l'amidon. Cependant, l'analyse des lignées doubles voire triples mutantes suggère une dualité fonctionnelle pour PU1 (dégradation et synthèse) dont les effets ne se feraient sentir que dans des fonds mutants pour les autres enzymes débranchantes. De même l'analyse de la lignée double mutante isa1-/isa3 - qui accumule encore moins d'amidon que le simple mutant isa1- indique que si ISA3 est principalement requise pour la dégradation de l'amidon, sa contribution au cours de la synthèse de l'amylopectine n'est pas négligeable.
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Galbiati, Heloisa Filus. « Caracterização de cepas de Escherichia coli contendo diferentes alelos rpoS ». Universidade de São Paulo, 2011. http://www.teses.usp.br/teses/disponiveis/42/42132/tde-26012012-142517/.
Texte intégralRésumé :
A bactéria Escherichia coli é encontrada em diversos habitats e deve estar preparada para sobreviver e crescer em condições desfavoráveis. A adaptação da bactéria a diferentes condições obriga-a a controlar a expressão de genes de forma eficiente. Uma das formas primárias de controle de expressão gênica é a competição entre os diversos fatores sigma pela ligação ao cerne da RNA polimerase. d70 é o fator sigma mais abundante e participa da transcrição da maioria dos genes de E. coli, enquanto que dS é o segundo em importância e reconhece promotores de genes relacionados à resposta geral ao estresse. O gene rpoS, que codifica para dS é altamente polimórfico, e adquiri mutações frequentemente. A mutação pontual C®T na posição 97 da ORF de rpoS, resulta em um códon de parada TAG (âmbar). Um Shine-Dalgarno alternativo e um códon de início de tradução na posição 157 dá início a uma proteína RpoS truncada, que é parcialmente funcional. Uma das situações de estresse na qual dS é ativado corresponde à privação de fosfato inorgânico. Porém, na limitação deste nutriente ocorre também a ativação do regulon PHO, cujos genes são predominantemente transcritos por d70. Neste trabalho, o efeito da versão truncada de RpoS sobre a expressão de genes dependentes de d70 (lacZ, phoA e pstS) e de genes dependentes de dS (osmY e proU) foi testado. Foram também realizados ensaios de estresse oxidativo, osmótico e pelo frio. O perfil de atividade parcial descrito para RpoSam pôde ser observado em alguns casos, porém em outros o comportamento deste alelo se assemelhou ao do mutante rpoS nulo. Paralelamente, foi testada também uma cepa de E. coli que carrega a mutação âmbar em rpoS, mas esta é suprimida, resultando na expressão de uma proteína RpoS normal. A proteína RpoS truncada não pôde ser visualizada em immunoblots, provavelmente porque esta é traduzida de forma pouco eficiente a partir do Shine-Dalgarno alternativo. Com o objetivo de incrementar a detecção de RpoS em ensaios de imuno-detecção, foi inserida por recombinação alélica uma etiqueta SPA altamente imunogênica na porção C-terminal da proteína.Escherichia coli can be found in many different habitats and has to be prepared to survive and grow under unfavorable conditions. Bacteria adaptation to different growth conditions requires an efficient control of gene expression. One of the primary forms of gene expression control is the competition between different sigma factors for the binding to the core RNA polymerase. d70 is the most abundant sigma factor and participates in the transcription of most E. coli genes. dS is the second one in importance and recognizes promoters of genes related to the general stress response. The rpoS gene, which encodes dS, is highly polymorphic and acquires mutations very often. The transition C®T at position 97 in the rpoS ORF results in a stop codon TAG (amber). Due to the presence of an alternative Shine-Dalgarno and a translation initiation codon at position 157 a truncated RpoS protein that is partially functional is translated. One of the stress situations that dS is activated is the starvation for inorganic phosphate. Phosphate limitation also triggers the activation of the PHO regulon, whose genes are predominantly transcribed by d70. In the present study, the effect of the truncated version of RpoS on the expression of d70 dependent genes (lacZ, phoA e pstS) and dS dependent genes (osmY e proU) was tested. Bacteria were also assayed for sensitivity to oxidative, osmotic and cold stress. The profile of partial activity described for the truncated RpoS could be observed in some cases, while in others the behavior of this allele resembled the rpoS null mutant. In parallel, an E. coli strain which suppresses the amber mutation in RpoS, resulting in the expression of a normal protein was also tested. A band correponding to the truncated RpoS could not be detected in immunoblots probably due to inefficient translation from the alternative Shine-Dalgarno. To improve the detection of RpoS, a highly immunogenic SPA tag was inserted in the C-terminal region of the protein.
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Portrat-Doyen, Stéphanie. « Étude moléculaire de trois déficits surrénaliens : hyperplasie lipoïde, déficits en 11β-hydroxylase et aldosynthase ». Lyon 1, 1998. http://www.theses.fr/1998LYO1T254.
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Manieri, Tania Maria. « Mutações sítio dirigidas na metaloenzima Cu,Zn-superóxido dismutase (SOD1) : efeitos estruturais e funcionais na enzima ». reponame:Repositório Institucional da UFABC, 2017.
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Orientadora: Profa. Dra. Giselle CerchiaroTese (doutorado) - Universidade Federal do ABC. Programa de Pós-Graduação em Ciência e Tecnologia/Química, 2017.
Entender os mecanismos pelos quais os radicais livres e espécies oxidantes atuam em processos fisiológicos torna-se cada vez mais complexo, especialmente aqueles envolvendo metais de transição com elevada atividade redox como o cobre, ou com funções celulares como o zinco, ambos presentes na metaloenzima Cu,Zn-Superóxido Dismutase (SOD1). Muitos processos envolvendo a sua agregação e função peroxidásica deletéria ainda estão em plena discussão na literatura , mesmo após mais de 40 anos de sua descoberta e caracterização. Nesta área de pesquisa, o papel de mutações na enzima relacionado a casos familiares da doença Esclerose Lateral Amiotrófica (ELA) começou a ser elucidado recentemente, quando soube-se que o tipo de agregação proteica observado e a gravidade da doença apresenta relação com o tipo de mutação na SOD1. Mutações que afetam o modo de coordenação do zinco são as mais intrigantes, pois revelam uma alta patogenicidade da ELA. Sabe-se muito pouco sobre como a SOD1 estaria envolvida com casos de ELA esporádicos, mais comumente encontrados, e nossa proposta esta relacionada a alterações no sítio de ligação ao zinco na enzima, levando a agregações proteicas e formas agressivas da doença. Portanto, neste trabalho de Doutorado, foi estudada a mutação sítio dirigida T135SK136E da SOD1 em relação ao comportamento estrutural e catalítico da proteína. Estudos de Dicroísmo Circular e Ressonância Paramagnética Eletrônica mostraram que a mutação causa alterações estruturais, sem alterar, no entanto, o sítio catalítico da enzima. A proteína mutada apresentou dificuldade em alocar os metais Cobre e Zinco em seus sítios metálicos, porem, mostrou maior atividade catalítica quando comparada à SOD1 nativa.
Mechanisms involving Free-radical and oxidant species are too complexes to understand, especially those which involves high redox activity transition metals ions as copper, or those that are part of cell function, as zinc, both present at metaloenzyme Cu,Zn-Superoxide Dismutase (SOD1). It is known that many process involving SOD1 aggregation and peroxidase activity remain in literature discussion even more than 45 years from its discovery and characterization. In this research area the role of mutation on the enzyme related to cases of familial Amyotrophic Lateral Sclerosis (ALS) begins to be elucidated and mutations related to zinc coordination are more intriguing because they seem to cause a more pathogenic ALS. In this way, in this PhD work we studied the site-direct mutation T135SK136E on SOD1, taking special attention to zinc site, to verify how the enzyme acts catalytic and structurally. Circular Dichroism and Electronic Paramagnetic Resonance assays have shown that the mutation causes structural alterations, without altering, however, the catalytic site of the enzyme. The mutated protein presented difficulty in allocating the copper and zinc metals in their metallic sites, but showed greater catalytic activity when compared to wild type SOD1.
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Levy, Sophie. « Construction et etude de souches de escherichia coli k 12 portant une deletion pour les genes ptsh ptsi et crr du systeme des phosphotransferases dependantes du phosphoenolpyruvate (pts) ». Paris 7, 1987. http://www.theses.fr/1987PA077221.
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Le systeme des phosphotransferases dependant du phosphoenol pyruvate (pts) d'escherichia coli regule l'utilisation par la cellule de nombreuses sauces de carbone. Pour preciser le role des differentes proteines du pts dans cette regulation; et dans la modulation de la synthese amp cyclique, 5 souches isogeniques portant differentes deletions dans l'operon pts parfaitement delimites ont ete construites. Ces souches presentent un phenotype maltose**(-). Une mutation supplementaire, obtenue par l'introduction d'un transposon sur le chromosome d'une souche deletee pour l'operon pts restante un phenotype maltose**(+) en augmentant le taux ampc. Cette mutation revele l'existence d'un facteur regulateur de la synthese ou l'activite de l'adenylate cyclase, jusqu'ici
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Ahombo, Gabriel. « Génétique de la fixation d'azote chez la bactérie Rhodobacter capsulatus : clonage et caractérisation d'un gène de type nifA ». Grenoble 1, 1986. http://www.theses.fr/1986GRE10097.
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Winsor, Barbara. « Caracterisation de mutants de saccharomyces cerevisiae affectes dans la biosynthese des arn messagers rpobl, isel, rnal4, rnal5 ». Université Louis Pasteur (Strasbourg) (1971-2008), 1987. http://www.theses.fr/1987STR13216.
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Léveillard, Thierry. « Le polymorphisme des gènes de l'inter-alpha-trypsine inhibiteur : recherche d'association génétique avec l'emphysème pulmonaire ». Rouen, 1989. http://www.theses.fr/1989ROUES015.
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RFLP des gènes de l'inhibiteur de la trypsine inter alpha chez l'homme, déterminisme génétique et fréquence allélique de ces marqueurs dans une population de référence et dans une population constituée d'individus non déficitaires en alpha-1-antitrypsine souffrant d'emphysème pulmonaire
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Zhao, Yingjuan. « Recherche d'enzymes impliquées dans la voie de biosynthèse de la carnitine chez Arabidopsis thaliana et étude préliminaire de mutants à teneur réduite en carnitine ». Thesis, Compiègne, 2014. http://www.theses.fr/2014COMP2136/document.
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La carnitine, un acide aminé crucial pour le transfert intracellulaire des acides gras chez les animaux et les micro-organismes, est présente chez les plantes mais son mode d'implication dans le métabolisme lipidique et dans le développement reste à déterminer. Afin d'étudier le rôle biologique de la carnitine chez Arabidopsis nous avons initié une recherche bioinformatique d'enzymes susceptibles de participer à sa synthèse dans le but d'obtenir des mutants à teneur réduite en carnitine. Des serines hydroxyméthyl transférases (SHMT), des thréonines aldolases (THA) et des aldéhydes déshydrogénases (ALDH) candidates ont été identifiées. Une recherche de mutants, soit caractérisés, soit dans les collections disponibles, ainsi qu'une approche de mutagénèse par micro-ARN artificiel ont été initiées. Ces mutants ont été étudiés sur le plan de leur teneur en carnitine, en précurseur y-butyrobétaïne, et en esters de carnitine. Les enzymes THA ne semblent pas impliquées dans la synthèse de la carnitine et si un mutant faible de SHMT1 présente une réduction de sa teneur, et de la y-butyrobétaïne, l'implication de cette protéine reste à démontrer. L'étude d'un mutant perte de fonction du gène ALDH10A8, et de mutants baisse de fonction du gène ALDH10A9, et une complémentation fonctionnelle de mutants de levure, nous ont permis de montrer que les enzymes ALDH10 sont impliquées dans la voie de biosynthèse de la carnitine en permettant la synthèse de la y-butyrobétaïne. Les mutants des protéines ALDH10, présentant des teneurs réduites en carnitine et en acyl-carnitine, sont désormais disponibles comme outil du rôle de la carnitine chez ArabidopsisCarnitine, a crucial amino acid for the intacellular transfer of fatty acids in animals and microorganisms, is present in plants but its mode of implication in lipid metabolism and development remains to be determined. In order to investigate the biological function of carnitine in Arabidopsis, we initiated a bioinformatic search for enzymes that could be involved in its synthesis in order to obtain mutants with a reduced carnitine content. Serine hydroxymethyl transferases (SHMT), threonine aldolase (THA) and aldehyde dehydrogenase (ALDH) were identified as candidates. A search for mutants, either characterized or in available collections ans an amiRNA mutagenesis approach were carried out. In these mutants, the y-butyrobetaine as carnitine precursor, the carnitine, and carnitine esters were quantified. The THA enzymes do not appear to be involved in the carnitine synthesis and even if a weak mutant of SHMT1 has reduced contents of carnitine and y-butyrobetaine, the involvement of this protein remains to be demonstrated. A study of a knock-out mutant of the ALDH10A8 gene, of knock-down mutants of ALDH10A9 and a functional complementation of a C. albicans ALDH mutant, has confirmed the implication of ALDH10A8 and ALDH10A9 enzymes in the synthesis of y-butyrobetaine within the cartinine biosynthesis pathway. Mutants of the ALDH10 proteins, having significantly reduced carnitine and acyl-carnitine amounts, are now available as tools for studying the role of carnitine in Arabidopsis
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Vuorela, M. (Mikko). « Role of the RNF8, UBC13, MMS2 and RAD51C DNA damage response genes and rare copy number variants in hereditary predisposition to breast cancer ». Doctoral thesis, Oulun yliopisto, 2013. http://urn.fi/urn:isbn:9789526203096.
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Abstract Mutations in the currently known breast cancer susceptibility genes account for only 25–30% of all familial cases. Novel susceptibility genes can be identified by several methods, including candidate gene re-sequencing and genome-wide microarrays. We have applied microarrays for the detection of a new genomic variation class, copy number variants (CNVs), which potentially could disrupt genes in multiple pathways related to breast cancer susceptibility. The aim of the current study was to evaluate the role of the RNF8, UBC13, MMS2 and RAD51C DNA damage response genes in breast cancer susceptibility as well as to study if rare CNVs are associated with the predisposition to this disease. The analysis of 123 familial breast cancer cases revealed altogether nine different changes in the RNF8 and UBC13 candidate genes. However, none of the observed alterations were considered pathogenic. No alterations were observed in MMS2. The obtained results suggest that breast cancer predisposing alterations in RNF8, UBC13 and MMS2 are rare, or even absent. The RAD51C mutation screening of 147 familial breast cancer cases and 232 unselected ovarian cancer cases revealed two deleterious mutations: c.-13_14del27 was observed in a breast cancer case with familial history of ovarian cancer and c.774delT in an ovarian cancer case. Both mutations were absent in the control cohort. The results of the study support the hypothesis that rare variants of RAD51C predispose predominantly to ovarian cancer. A genome-wide scan of CNVs was performed for 103 familial breast cancer cases and 128 controls. The biological networks of the genes disrupted by CNVs were different between the two groups. In familial breast cancer cases, the observed mutations disrupted genes, which were significantly overrepresented in cellular functions related to maintenance of genomic integrity (P=0.0211). Biological network analysis showed that the disrupted genes were closely related to estrogen signaling and TP53-centered tumor suppressor network, and this result was confirmed by the analysis of an independent young breast cancer cohort of 75 cases. These results suggest that rare CNVs represent an alternative source of genetic variation contributing to hereditary risk for breast cancerTiivistelmä Tunnetut rintasyöpäalttiusgeenien mutaatiot selittävät vain 25–30 prosenttia kaikista perinnöllisistä rintasyöpätapauksista. Uusia alttiusgeenejä voidaan tunnistaa useilla eri menetelmillä, kuten kandidaattigeenien mutaatiokartoituksella ja genomin-laajuisilla mikrosirutekniikoilla. Tässä tutkimuksessa sovelsimme mikrosirutekniikkaa uuden geneettisen variaatioluokan, kopiolukuvariaation (CNV), tutkimiseen. CNV:t voivat vaurioittaa lukuisia rintasyöpäalttiuteen liittyviä biokemiallisia reittejä. Tämän tutkimuksen tarkoitus oli arvioida RNF8-, UBC13-, MMS2- ja RAD51C -DNA- vauriovastegeenien sekä harvinaisten CNV:iden yhteyttä rintasyöpä-alttiuteen. 123 familiaalisen rintasyöpätapauksen analyysissä löytyi yhteensä yhdeksän muutosta RNF8- ja UBC13-geeneistä, joista yksikään ei osoittautunut patogeeniseksi. MMS2-geenissä ei havaittu muutoksia. Tulosten perusteella rintasyövälle altistavat muutokset RNF8-, UBC13- ja MMS2- geeneissä ovat joko erittäin harvinaisia tai niitä ei esiinny lainkaan. RAD51C-geenin mutaatiokartoitus 147 familiaalisesta rintasyöpätapauksesta sekä 232 valikoimattomasta munasarjasyöpätapauksesta paljasti kaksi haitallista mutaatiota. c.-13_14del27 havaittiin rintasyöpäpotilaalla, jonka suvussa esiintyi munasarjasyöpää, ja c.774delT todettiin munasarjasyöpäpotilaalta. Kumpaakaan mutaatiota ei havaittu verrokkiaineistossa. Tulokset vahvistavat hypoteesia RAD51C-geenin harvinaisten varianttien yhteydestä pääasiassa munasarjasyöpäriskiin. CNV:iden genomin-laajuinen skannaaminen suoritettiin 103 familiaaliselle rintasyöpätapaukselle ja 128 verrokille. CNV:iden häiritsemien geenien muodostamat biologiset verkostot olivat erilaiset näiden kahden ryhmän välillä. Familiaalisilla rintasyöpätapauksilla havaitut CNV:t vaikuttivat geeneihin, jotka olivat voimakkaasti korostuneita genomin eheyttä ylläpitävissä tehtävissä (P=0.0211). Biologisten verkostojen analyysi paljasti, että CNV:iden vahingoittamat geenit liittyivät läheisesti estrogeenisignalointiin sekä TP53-tuumorisupressoriverkostoon, ja tämä tulos vahvistettiin analysoimalla riippumatonta nuorista rintasyöpäpotilaista koostuvaa kohorttia (N=75). Tutkimuksen tulosten mukaan harvinaiset CNV:t ovat vaihtoehtoinen geneettisen variaation lähde perinnölliseen rintasyöpäalttiuteen