Global ETD Search

21	Busca de variantes em sequência de DNA proveniente de pacientes com deficiência em processos de reparo do genoma / Identification of variants in the DNA sequence of patients deficient in DNA repair processes Livia Maria Silva Moura 08 October 2015 (has links) Apesar de altamente estável, o DNA sofre milhares de alterações em sua estrutura diariamente, sejam essas espontâneas ou pela exposição a agentes mutagênicos. A maior parte dessas alterações é prontamente removida por um conjunto de eventos de reparo de DNA. A via de reparo por excisão de nucleotídeos (NER) é a mais versátil e flexível lidando com uma variedade de lesões que podem gerar distorções das hélices do DNA. Esses danos resultam em alterações características que, caso não reparadas, podem gerar mutações ou morte celular e, consequentemente, câncer e envelhecimento. Algumas síndromes, nas quais os pacientes são sensíveis à luz solar, estão relacionadas à deficiência no processo de NER, como a Xeroderma Pigmentosum (XP), síndrome de Cockayne (CS) e Tricotiodistrofia (TTD). Indivíduos brasileiros, incluindo pacientes com diagnóstico clínico de XP e membros das famílias, passaram por um processo in silico para a identificação variantes em genes relacionados aos processos de reparo do DNA após o sequenciamento do DNA por plataformas de nova geração (NGS: plataforma ABI 5500XL SOLiD e MiSeq Illumina) e análises de Bioinformática. Para cada paciente, foram selecionados os melhores valores de parâmetros para se realizar a busca por variantes considerando a qualidade de alinhamento e a taxa de cobertura das bases alvo. SNPs já depositados no banco de dados do projeto 1000genomes foram removidos de nossos dados. O restante das variantes foi analisado para encontrar potenciais candidatos que poderiam explicar o diagnóstico clínico do paciente. Em muitas amostras foi possível determinar pelo menos uma variante (mutação) com uma elevada possibilidade de ser responsável pelos sintomas XP. Para alguns pacientes, a má qualidade do sequenciamento ou eventos não esclarecidos durante este, dificultou a identificação de candidatos à mutação patogênica. Potenciais mutações não sinônimas foram analisadas com os programas SIFT e PROVEAN, que identificaram a potencial capacidade deletéria da alteração de aminoácido na proteína. Finalmente, foi desenvolvida uma interface de domínio público amigável, a Human Variantes do Finder Interface (http://www.varfinderhg.com.br), que visa facilitar a identificação de variantes em dados gerados por NGS. / Although highly stable, DNA molecule undergoes thousands of damage in its structure every day, due to spontaneous lesions or exposure to various mutagens. Most of these lesions are readily removed by a number of cellular DNA repair processes. The process of nucleotide excision repair (NER) is the most versatile and flexible dealing with a variety of lesions that can lead to distortions of the DNA strands. Ultraviolet irradiation induced DNA damage are the main substrates for NER. These DNA damage, if not repaired, can generate mutations or cell death causing several diseases, including cancer and aging. Some syndromes, sensitive to sunlight, are related to deficiencies in the NER process, such as Xeroderma Pigmentosum (XP), Cockayne syndrome (CS) and Trichothiodystrophy (TTD). Brazilian individuals, including patients with clinical diagnosis of XP and family members, went through in silico process for the identification of variants in genes related to DNA repair processes after DNA sequencing by next generation sequencing (NGS in the platforms ABI 5500XL SOLiD and MiSeq Illumina) and dedicated Bioinformatics pipelines. For each patient the best search pattern of variant calling was used considering the alignment quality and coverage rate of bases in target. SNPs already deposited at the 1000genomes project database were removed from the data. The remaining variants were analyzed to find potential candidates that could explain the clinical diagnosis. In many samples, it was possible to determine at least one variant (mutation) with a high possibility of being responsible for the clinical XP. For some patients, the poor quality of the sequencing or unclear events during sequencing hampered the identification of clear mutation candidates. Potential nonsynonymous mutations were analyzed with SIFT and PROVEAN softwares, which identified the potential deleterious capacity of the amino acid change in the protein. Finally, we developed a user-friendly public domain interface, the Human Variants Finder Interface (http://www.varfinderhg.com.br), which, we expect, will facilitate the identification of variants in data generated by NGS. Análise Bioinformática Exoma Facility Genoma Interface web Mutação NGS Reparo de DNA Sequenciamento SNP Variantes Xeroderma pigmentosum Analysis Bioinformatics DNA repair Exome Facility Genome Human Mutation NER NGS Sequencing SNP Variant Web interface Xeroderma pigmentosum
22	Functional relevance of spontaneous alternative splice variants of xeroderma pigmentosum genes: Prognostic marker for skin cancer risk and disease outcome? Lehmann, Janin 04 May 2017 (has links) No description available. 610 Xeroderma pigmentosum nucleotide excision repair interstrand crosslink repair homologous recombination repair CRISPR/Cas9 Medizin (PPN619874732) Dermatologie (PPN619876182)
23	Phénotypage de la réparation de l'ADN de lignées Xeroderma pigmentosum, par un test in vitro multiparamétrique Raffin, Anne-Laure 05 June 2009 (has links) (PDF) L'ADN subit en permanence des agressions modifiant l'information pour laquelle il code. Plusieurs mécanismes, dont la réparation par excision de bases (BER) et la réparation par excision de nucléotides (NER), permettent à la cellule de restaurer la séquence de l'ADN. Le Xeroderma pigmentosum est une maladie caractérisée par une déficience pour la réparation par la voie NER. L'objectif de ce travail était de proposer un test fiable et rapide pour le diagnostic de cette maladie comme alternative au test existant, l'UDS. Les activités de réparation de l'ADN de lignées XP ont été quantifiées à l'aide de tests in vitro miniaturisés et multiparamétriques afin d'établir les phénotypes de réparation de l'ADN de cellules déficientes pour la protéine XPA ou XPC. L'avantage des tests utilisés dans cette étude réside dans la mesure conjointe soit de l'excision soit de l'excision-resynthèse (ER) de plusieurs lésions à partir d'un seul lysat cellulaire. <br />Nous montrons que l'importance relative de l'ES des différentes lésions dépend fortement de la concentration protéique du lysat nucléaire testé. Ainsi, lorsque la concentration protéique augmente, il devient possible de discriminer le phénotype XP du phénotype témoin, ce qui est impossible en dessous d'une concentration seuil. D'autre part, alors que l'irradiation des cellules témoins aux UVB stimule leurs activités de réparation, cet effet n'est pas observé pour les cellules XP.<br />Cette étude apporte donc de nouvelles informations quant aux rôles des protéines XPA et XPC lors des mécanismes de réparation BER et NER et souligne la complexité des régulations mises en jeu. [SDV:BC] Life Sciences/Cellular Biology Réparation de l'ADN Xeroderma pigmentosum test in vitro
24	Characterization of the T122L mutation in p53 and its protein product in Xpc mutant mice Nahari, Dorit. January 2003 (has links) (PDF) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2003. / Vita. Bibliography: References located after each study.
25	Xeroderma Pigmentosum A Deficiency Results in Increased Generation of Microvesicle Particles in Response to Ultraviolet B Radiation Christian, Lea Rajeshkumar 28 May 2021 (has links) No description available. Pharmacology Toxicology Photosensitivity Xeroderma Pigmentosum A XPA Microvesicle particles MVP Platelet Activating Factor PAF Ultraviolet B Radiation UVB
26	DNA-Damage Accumulation and Replicative Arrest in Hutchinson-Gilford Progeria Syndrome Musich, Phillip R., Zou, Yue 01 December 2011 (has links) A common feature of progeria syndromes is a premature aging phenotype and an enhanced accumulation of DNA damage arising from a compromised repair system. HGPS (Hutchinson-Gilford progeria syndrome) is a severe form of progeria in which patients accumulate progerin, a mutant lamin A protein derived from a splicing variant of the lamin A/C gene (LMNA). Progerin causes chromatin perturbations which result in the formation of DSBs (double-strand breaks) and abnormal DDR (DNA-damage response). In the present article, we review recent findings which resolve some mechanistic details of how progerin may disrupt DDR pathways in HGPS cells. We propose that progerin accumulation results in disruption of functions of some replication and repair factors, causing the mislocalization of XPA (xeroderma pigmentosum group A) protein to the replication forks, replication fork stalling and, subsequently, DNA DSBs. The binding of XPA to the stalled forks excludes normal binding by repair proteins, leading to DSB accumulation, which activates ATM (ataxia telangiectasia mutated) and ATR (ATM- and Rad3-related) checkpoints, and arresting cell-cycle progression. DNA repair genome instability Lamin A premature aging xeroderma pigmentosum group A (XPA) Biomedical Sciences
27	Le complexe TFIIH dans la transcription effectuée par l'ARN polymèrase II et l'ARN polymèrase III Zadorin, Anton 28 September 2012 (has links) (PDF) Deux phénomènes liés au TFIIH ont été étudiés : l'influence des mutations spécifiques dans la sous-unité XPD de TFIIH sur la réponse transcriptionnelle de certains gènes après l'irradiation UV, et l'interaction entre le TFIIH et la transcription des gènes de classe III. Une analyse détaillée de la dynamique du transcriptome a été effectuée pour la réponse des cellules humaines mutantes XP-D/CS à l'UV. Il a été démontré que la dysrégulation sélective observée de l'expression des gènes était liée à l'incapacité pour la ré-initiation transcriptionnelle et à l'hétérochromatinisation suivante, où l'histonedésacétylase SIRT1 a été identifiée comme le principal facteur. Son inhibition a permis de recouvrer l'expression normale d'un nombre substantiel des gènes affectés. Une étude de la participation pangénomique du coeur de TFIIH dans latranscription a découvert son association avec les gènes actifs de classe III. Cette association a été démontrée être indépendante de Pol II. Le coeur de TFIIH a été montré participer directement à la transcription effectuée in vitro par Pol III. TFIIH RNA-SEQ Chromatine STRESS UV Xeroderma pigmentosum Cockayne syndrome SIRT1 ARN polymérase III CHIP-SEQ
28	Xeroderma Pigmentosum Type A Deficiency Results in Increased Generation of Microvesicle Particles in Response to Ultraviolet B Radiation and Solar Simulated Light via Platelet-activating Factor Receptor Signaling Pathway Manjrekar, Pranali Sushil 16 May 2023 (has links) No description available. Pharmacology Toxicology Xeroderma Pigmentosum Ultraviolet B Radiation UVB microvesicle particles Solar Simulated Light Platelet-activating Factor acid sphingomyelinase XPA deficiency photosensitivity
29	Validation of a cell line model for studying XPD protein function in Nucleotide Excision Repair Kavuri, Naga Swathi Sree 16 May 2023 (has links) No description available. Pharmacology Toxicology DNA damage DNA repair mechanisms Nucleotide Excision Repair DNA lesions DNA adducts Xeroderma Pigmentosum Cockayne Syndrome Neurological syndrome skin carcinoma XPD protein function
30	Construction of an Adenovirus Expression Vector Containing the T4 Den V Gene, Which Can Complement the DNA Repair Deficiency of Xeroderma Pigmentosum Fibroblasts / Construction of an AD 5 Vector Containing the T4 Den V Gene Colicos, Michael, A. 08 1900 (has links) This study demonstrates the use of an adenovirus vector system to study the effect of a DNA repair gene on untransformed human fibroblasts. The bacteriophage T4 pyrimidine dimer DNA glycosylase (den V) gene has been inserted into the E3 region of human adenovirus type 5. The resulting recombinant virus Ad Den V was determined to be producing correctly initiated RNA from the RSV 3' LTR promoter used in the den V expression cartridge inserted into the virus. The effect of the den V gene product on human fibroblasts 'liras examined by assaying for the percent host cell reactivation (%HCR) of Vag production for UV irradiated Ad Den V in comparison to that for a control virus. It was shown that the %HCR was significantly greater for Ad Den V as compared to the control virus in xeroderma pigmentosum (XP) cells. UV survival of adenovirus in XP cells exhibited a two component nature. Introduction of the den V gene into XP group A cells increased the D0 value of the first component of the viral survival curve to a level similar to that of XPC cells, which showed no change in this component irrespective of the presence of the den V gene. It has been suggested that the den V gene is able to partially complement the deficiency in some XP cells because of its small size, allowing it to gain access to the DNA damage site where as the cellular repair enzyme complex can not. Since XPC cells are proficient in their alteration of DNA secondary structure prior to DNA excision repair, these results are consistant with the hypothesis that the first component of UV viral survival curves reflects the pathway involved in accessing the damaged sites. The manuscript of a paper has been included as an appendix. The work theorizes on the origin of mammalian immune system diversity and bacteriophage lambda, and their possible relationship to prokaryotic DNA repair genes. / Thesis / Master of Science (MS)

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