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Detecção, tipificação e filogenia molecular de Papilomavírus bovino em bovinos leiteiros / Detection, typing and molecular phylogeny of Bovine Papillomavirus in dairy cattleAlbuquerque, Winnie Castro Amorim e 31 March 2017 (has links)
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Previous issue date: 2017-03-31 / Outro / Bovine papillomavirus is the etiological agent of bovine papillomatosis, a disease that triggers warts throughout the skin, udder, roofs, genitalia and in more severe cases can develop extensive papillomas, cause neoplasia in the digestive tract and bladder, weaken the animal's health and cause losses in the Productivity and losses for livestock. The present study aims to detect and typify bovine Papillomavirus present in bovine tissue and blood samples with papillomatosis, to sequence the isolated viral types, to analyze the nucleotide sequences and the phylogeny of the detected viral types. As a result, amplification was obtained in five tissue samples (papilloma) from different bovines, not being successful in the amplification of blood samples. PCR reactions revealed the presence of BPV-1 in 60%, BPV-5 in 40%, BPV-9, BPV-10, BPV-13 and BPV-14 in 20% and BPV-12 in 40% of the analyzed samples. The presence of coinfection was verified in 60% of the lesions analyzed, with up to four viral types infecting the same sample. Alignments of viral type sequences 1, 5 and 14 were validated with identity ranging from 74% to 95%. The phylogenetic diagram showed a genetic approximation between viral types 1 and 14, both belonging to the genus Deltapapillomavirus, and distancing between nucleotide sequences of viral types 5, 9 and 14. Papillomaviruses of types 5 and 9 belong to different genera, Epsilonpapillomavirus and Xipapillomavirus, Respectively, the phylogenetic distance between these viral types, verified in the diagram, is justified. / Papilomavírus bovino é o agente etiológico da papilomatose bovina, doença que desencadeia verrugas por toda pele, úbere, tetos, genitália e em casos mais graves pode desenvolver papilomas extensivos, causar neoplasia no trato digestivo e bexiga, debilitar a saúde do animal e provocar perdas na produtividade e prejuízos para a pecuária. O presente estudo possui como objetivo detectar e tipificar Papilomavírus bovino presentes em amostras de tecido e sangue de bovinos com papilomatose, sequenciar os tipos virais isolados, analisar as sequências nucleotídicas e a filogenia dos tipos virais detectados. Como resultado, obteve-se amplificação em cinco amostras de tecido (papiloma) de diferentes bovinos, não obtendo sucesso na amplificação das amostras de sangue. As reações de PCR revelam a presença do BPV-1 em 60%, BPV-5 em 40%, BPV-9, BPV-10, BPV-13 e BPV-14 em 20% e BPV-12 em 40% das amostras analisadas. A presença de coinfecção foi verificada em 60% das lesões analisadas, com até quatro tipos virais infectando a mesma amostra. Os alinhamentos das sequencias do tipo viral 1, 5 e 14 foram validados com identidade variando de 74% a 95%. O diagrama filogenético demonstrou aproximação genética entre os tipos virais 1 e 14, ambos pertencentes ao gênero Deltapapillomavirus, e distanciamento entre as sequências nucleotídicas dos tipos virais 5, 9 e 14. Os papilomavírus dos tipos 5 e 9 pertencem a gêneros diferentes, Epsilonpapillomavirus e Xipapillomavirus, respectivamente, justifica-se dessa forma, a distância filogenética entre esses tipos virais, verificada no diagrama.
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Method development and applications of Pyrosequencing technologyGharizadeh, Baback January 2003 (has links)
The ability to determine nucleic acid sequences is one ofthe most important platforms for the detailed study ofbiological systems. Pyrosequencing technology is a relativelynovel DNA sequencing technique with multifaceted uniquecharacteristics, adjustable to different strategies, formatsand instrumentations. The aims of this thesis were to improvethe chemistry of the Pyrosequencing technique for increasedread-length, enhance the general sequence quality and improvethe sequencing performance for challenging templates. Improvedchemistry would enable Pyrosequencing technique to be used fornumerous applications with inherent advantages in accuracy,flexibility and parallel processing. Pyrosequencing technology, at its advent, was restricted tosequencing short stretches of DNA. The major limiting factorwas presence of an isomer of dATPaS, a substitute for thenatural dATP, which inhibited enzyme activity in thePyrosequencing chemistry. By removing this non-functionalnucleotide, we were able to achieve DNA read-lengths of up toone hundred bases, which has been a substantial accomplishmentfor performance of different applications. Furthermore, the useof a new polymerase, called Sequenase, has enabled sequencingof homopolymeric T-regions, which are challenging for thetraditional Klenow polymerase. Sequenase has markedly madepossible sequencing of such templates with synchronizedextension. The improved read-length and chemistry has enabledadditional applications, which were not possible previously.DNA sequencing is the gold standard method for microbial andvial typing. We have utilized Pyrosequencing technology foraccurate typing ofhuman papillomaviruses, and bacterial andfungal identification with promising results. Furthermore, DNA sequencing technologies are not capable oftyping of a sample harboring a multitude of species/types orunspecific amplification products. We have addressed theproblem of multiple infections/variants present in a clinicalsample by a new versatile method. The multiple sequencingprimer method is suited for detection and typing of samplesharboring different clinically important types/species(multiple infections) and unspecific amplifications, whicheliminates the need for nested PCR, stringent PCR conditionsand cloning. Furthermore, the method has proved to be usefulfor samples containing subdominant types/species, and sampleswith low PCR yield, which avoids reperforming unsuccessfulPCRs. We also introduce the sequence pattern recognition whenthere is a plurality of genotypes in the sample, whichfacilitates typing of more than one target DNA in the sample.Moreover, target specific sequencing primers could be easilytailored and adapted according to the desired applications orclinical settings based on regional prevalence ofmicroorganisms and viruses. Pyrosequencing technology has also been used forclone-checking by using preprogrammed nucleotide additionorder, EST sequencing and SNP analysis, yielding accurate andreliable results. <b>Keywords:</b>apyrase, bacterial identification, dATPaS, ESTsequencing, fungal identification, human papillomavirus (HPV),microbial and viral typing, multiple sequencing primer method,Pyrosequencing technology, Sequenase, single-strandedDNA-binding protein (SSB), SNP analysis
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Method development and applications of Pyrosequencing technologyGharizadeh, Baback January 2003 (has links)
<p>The ability to determine nucleic acid sequences is one ofthe most important platforms for the detailed study ofbiological systems. Pyrosequencing technology is a relativelynovel DNA sequencing technique with multifaceted uniquecharacteristics, adjustable to different strategies, formatsand instrumentations. The aims of this thesis were to improvethe chemistry of the Pyrosequencing technique for increasedread-length, enhance the general sequence quality and improvethe sequencing performance for challenging templates. Improvedchemistry would enable Pyrosequencing technique to be used fornumerous applications with inherent advantages in accuracy,flexibility and parallel processing.</p><p>Pyrosequencing technology, at its advent, was restricted tosequencing short stretches of DNA. The major limiting factorwas presence of an isomer of dATPaS, a substitute for thenatural dATP, which inhibited enzyme activity in thePyrosequencing chemistry. By removing this non-functionalnucleotide, we were able to achieve DNA read-lengths of up toone hundred bases, which has been a substantial accomplishmentfor performance of different applications. Furthermore, the useof a new polymerase, called Sequenase, has enabled sequencingof homopolymeric T-regions, which are challenging for thetraditional Klenow polymerase. Sequenase has markedly madepossible sequencing of such templates with synchronizedextension.</p><p>The improved read-length and chemistry has enabledadditional applications, which were not possible previously.DNA sequencing is the gold standard method for microbial andvial typing. We have utilized Pyrosequencing technology foraccurate typing ofhuman papillomaviruses, and bacterial andfungal identification with promising results.</p><p>Furthermore, DNA sequencing technologies are not capable oftyping of a sample harboring a multitude of species/types orunspecific amplification products. We have addressed theproblem of multiple infections/variants present in a clinicalsample by a new versatile method. The multiple sequencingprimer method is suited for detection and typing of samplesharboring different clinically important types/species(multiple infections) and unspecific amplifications, whicheliminates the need for nested PCR, stringent PCR conditionsand cloning. Furthermore, the method has proved to be usefulfor samples containing subdominant types/species, and sampleswith low PCR yield, which avoids reperforming unsuccessfulPCRs. We also introduce the sequence pattern recognition whenthere is a plurality of genotypes in the sample, whichfacilitates typing of more than one target DNA in the sample.Moreover, target specific sequencing primers could be easilytailored and adapted according to the desired applications orclinical settings based on regional prevalence ofmicroorganisms and viruses.</p><p>Pyrosequencing technology has also been used forclone-checking by using preprogrammed nucleotide additionorder, EST sequencing and SNP analysis, yielding accurate andreliable results.</p><p><b>Keywords:</b>apyrase, bacterial identification, dATPaS, ESTsequencing, fungal identification, human papillomavirus (HPV),microbial and viral typing, multiple sequencing primer method,Pyrosequencing technology, Sequenase, single-strandedDNA-binding protein (SSB), SNP analysis</p>
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