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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

Genomes of mimiviruses of amoeba / Génomes de mimivirus d'amibes

Yoosuf, Niyaz 10 December 2013 (has links)
Les membres des familles Mimiviridae et Marseilleviridae, qui infectent et se répliquent dans Acanthamoeba spp. et d’autres protistes phagocytaires, ont été découverts au cours de la dernière décennie et rattachés à un groupe monophylétique de virus nommés les grands virus à ADN nucléocytoplasmiques (NCLDVs), qui infectent un large éventail d’eukaryotes y compris différents organismes unicellulaires. Récemment, il a été proposé de reclasser les NCLDVs dans un nouvel ordre viral nommé les Megavirales. Plusieurs dizaines de virus géants des amibes ont été isolés, mais le génome de peu d’entre eux a été étudié de façon approfondie. Nous avons étudié les génomes de ces virus géants d'amibe afin d’acquérir une meilleure compréhension de leur répertoire de gènes et leur importance évolutionnaire. L'analyse phylogénétique des virus géants d'amibe distingue clairement trois lignées, nommées A, B et C. Nous avons étudié en détail le génome de Acanthamoeba polyphaga moumouvirus, le membre fondateur de la lignée B et avons déchiffré son contenu en gènes et sa relation évolutive avec d'autres organismes. Nous avons également étudié les génomes de Terra1 virus et Terra2 virus, qui appartiennent respectivement aux lignées C et A, et ont été isolés à partir d'échantillons de sol alors que les mimivirus décrits aupravant ont été isolés à partir d'eau douce ou de mer. En outre, nous avons décrit le génome du virus Courdo11, qui appartient à la lignée C, et est étroitement lié au premier Mimivirus isolé d'un humain, qui présentait une pneumonie inexpliquée. / The members of families Mimiviridae and Marseilleviridae, which infect and replicate in Acanthamoeba spp. and other phagocytic protists, were discovered during the past decade and linked to a monophyletic group of viruses named the Nucleocytoplasmic Large DNA viruses (NCLDVs), which infect a broad variety of eukaryotes including diverse unicellular organisms. Recently, it has been proposed to reclassify the NCLDVs into a new viral order named the Megavirales. Several dozens of giant viruses of amoeba have been isolated but the genome of very few has been extensively studied. We studied the genomes of these giant viruses of amoeba to gain a better understanding of their gene repertoire and evolutionary importance. The phylogenetic analysis of giant viruses of amoeba clearly distinguished three lineages, named lineages A, B and C. We studied in detail the genome of Acanthamoeba polyphaga moumouvirus, the leader member of lineage B to decipher its gene content and its evolutionary relationship with other organisms. We further studied the genomes of Terra1 virus and Terra2 virus, which belong to lineages C and A, respectively, and were isolated from soil samples whereas previously described mimiviruses of amoeba were isolated from fresh or marine water. Furthermore, we described the genome of Courdo11 virus, which belongs to lineage C, and is closely related to the first mimivirus isolated from a human, who exhibited unexplained pneumonia.
22

INITIATION MECHANISM OF PROTEIN-LINKED DNA REPLICATION: THE FUNCTION OF BACILLUS SUBTILIS PHAGE PHI-29 TERMINAL PROTEIN.

SHIH, MENG-FU. January 1983 (has links)
An in vitro initiation of a DNA replication system was developed to study the function of Ø29 terminal protein. Cell free extracts prepared from Bacillus phage Ø29-infected cells catalyzed the formation of a complex between a 30,000 dalton protein and dAMP in the presence of MgCl₂, Ø29 DNA-protein template and α-³²P dATP. Uninfected cell extracts did not support this reaction. The molecular weight of this complex, the nature of linkage between dAMP and 30,000 dalton protein as well as nucleotide specificity for this reaction suggest that the protein moiety of this complex is the terminal protein of Ø29. Similar results were obtained with phages GA-1 and M2Y infected cell extracts. The similar requirements for complex formation and DNA replication in vitro implies that the complex formation is an initiation step in DNA replication. This notion was supported by characterizing the elongation product which formed in the presence of ddCTP. Two distinct antibodies were prepared for analyse the function of the terminal protein in Ø29 DNA replication. These antibodies react with native terminal protein as assayed by immunoprecipitation and ELISA methods. The inhibition of complex formation by these antibodies provides strong evidence that the terminal protein is involved in complex formation. The notion that complex formation is an initial step of DNA replication was demonstrated conclusively by inhibition of anti-TP on DNA replication in vitro. The results presented in this dissertation provide evidence supporting the protein-priming mode of linear Ø29 DNA replication.
23

Sequenciamento do baculovírus que infecta a broca-da-cana-de-açúcar Diatraea saccharalis. / Sequencing of baculovirus that infects sugar cane borer Diatraea saccharalis.

Pereira, Bruna Tibirica 23 January 2014 (has links)
Baculovírus são vírus específicos de inseto que infectam principalmente membros da ordem Lepidoptera. Diatraea saccharalis granulovírus (DsGV) foi isolado de larvas de Diatraea saccharalis (Lepidoptera: Crambidae), a broca-da-cana-de-açúcar, um dos insetos-praga de maior importância na cultura de cana-de-açúcar no Brasil. O genoma completo de DsGV foi obtido através do sequenciamento 454 (Roche). O genoma de DsGV apresentou 98.463 pb e potencialmente codifica 116 genes. Foram identificados os 37 genes conservados em todos os baculovírus, 19 genes específicos de betabaculovírus e 17 genes únicos. DsGV é o primeiro betabaculovírus que possui o gene gp64, que codifica uma proteína de fusão, originalmente encontrado apenas em alfabaculovírus do grupo I. A análise filogenética utilizando a concatenação das sequências deduzidas de aminoácidos de 30 genes conservados em 61 baculovírus totalmente sequenciados sugere que DsGV está inserido no clado b do grupo dos betabaculovírus e parece estar mais estritamente relacionado a 5 GVs (ChocGV, PiraGV, ClanGV, CpGV e CrleGV). / Baculoviruses are insect specific viruses that infect mainly members of the Order Lepidoptera. Diatraea saccharalis granulovirus (DsGV) was isolated from Diatraea saccharalis (Lepidoptera: Crambidae), one of the most important insect pest of the sugar cane culture in Brazil. The genome of DsGV was obtained by the 454 sequencing system (Roche). Our results showed that the nucleotide sequence of the DsGV genome is 98.463 bp in length and potentially encodes 116 putative genes. It contains the 37 baculovirus core genes, a set of 19 betabaculovirus-specific genes and 17 putative DsGV genes were not found in any genome of the baculoviruses sequenced up to the present. DsGV is the first betabaculovirus sequenced so far that has the gp64 envelope fusion protein gene, originally found only in alphabaculovirus group I. Phylogenetic analysis performed with concatamers of 30 conserved proteins from 61 fully sequenced baculovirus genomes suggests that DsGV is a member of clade b of the betabaculovirus and seems to be closer to 5 GVs (ChocGV, PiraGV, ClanGV, CpGV e CrleGV).
24

The Torsion Angle of Random Walks

He, Mu 01 May 2013 (has links)
In this thesis, we study the expected mean of the torsion angle of an n-stepequilateral random walk in 3D. We consider the random walk is generated within a confining sphere or without a confining sphere: given three consecutive vectors →e1 , →e2 , and →e3 of the random walk then the vectors →e1 and →e2 define a plane and the vectors →e2 and →e3 define a second plane. The angle between the two planes is called the torsion angle of the three vectors. Algorithms are described to generate random walks which are used in a particular space (both without and with confinement). The torsion angle is expressed as a function of six variables for a random walk in both cases: without confinement and with confinement, respectively. Then we find the probability density functions of these six variables of a random walk and demonstrate an explicit integral expression for the expected mean torsion value. Finally, we conclude that the expected torsion angle obtained by the integral agrees with the numerical average torsion obtained by a simulation of random walks with confinement.
25

The Torsion Angle of Random Walks

He, Mu 01 May 2013 (has links)
In this thesis, we study the expected mean of the torsion angle of an n-stepequilateral random walk in 3D. We consider the random walk is generated within a confining sphere or without a confining sphere: given three consecutive vectors →e1 , →e2 , and →e3 of the random walk then the vectors →e1 and →e2 define a plane and the vectors →e2 and →e3 define a second plane. The angle between the two planes is called the torsion angle of the three vectors. Algorithms are described to generate random walks which are used in a particular space (both without and with confinement). The torsion angle is expressed as a function of six variables for a random walk in both cases: without confinement and with confinement, respectively. Then we find the probability density functions of these six variables of a random walk and demonstrate an explicit integral expression for the expected mean torsion value. Finally, we conclude that the expected torsion angle obtained by the integral agrees with the numerical average torsion obtained by a simulation of random walks with confinement.
26

Enhancing Virus Surveillance through Metagenomics: Water Quality and Public Health Applications

Rosario-Cora, Karyna 28 October 2010 (has links)
Monitoring viruses circulating in the human population and the environment is critical for protecting public and ecosystem health. The goal of this dissertation was to incorporate a viral metagenomic approach into virus surveillance efforts (both clinical and water quality control programs) to enhance traditional virus detection methods. Clinical surveillance programs are designed to identify and monitor etiological agents that cause disease. However, the ability to identify viruses may be compromised when novel or unsuspected viruses are causing infection since traditional virus detection methods target specific known pathogens. Here we describe the successful application of viral metagenomics in a clinical setting using samples from symptomatic patients collected through the Enterovirus Surveillance (EVS) program in the Netherlands (Appendix A). Despite extensive PCR-based testing, the viruses in a small percentage of these samples (n = 7) remained unidentified for more than 10 years after collection. Viral metagenomics allowed the identification of viruses in all seven samples within a week using minimal sequencing, thus rapidly filling the diagnostic gap. The unexplained samples contained BK polyomavirus, Herpes simplex virus, Newcastle disease virus and the recently discovered Saffold viruses (SAFV) which dominated the unexplained samples (n = 4). This study demonstrated that metagenomic analyses can be added as a routine tool to investigate unidentified viruses in clinical samples in a public-health setting. In addition, metagenomic data gathered for SAFV was used to complete four genotype 3 SAFV (SAFV-3) genomes through primer walking, doubling the number of SAFV-3 full genomic sequences in public databases. In addition to monitoring viruses in symptomatic patients, it is also important to monitor viruses in wastewater (raw and treated) to protect the environment from biological contamination and prevent further spread of pathogens. To gain a comprehensive understanding of viruses that endure wastewater treatment, viral metagenomics was used to survey the total DNA and RNA viral community in reclaimed water (the reusable end-product of wastewater treatment) (Appendix B). Phages (viruses that infect bacteria) dominated the DNA viral community while eukaryotic viruses similar to known plant and insect viruses dominated RNA metagenomic libraries suggesting that highly stable viruses may be disseminated through this alternative water supply. A plant virus, the Pepper mild mottle virus (PMMoV), was identified as a potential indicator of wastewater contamination based on metagenomic data and quantitative PCR assays (Appendix C). The metagenomic analysis also revealed a wealth of novel single-stranded DNA (ssDNA) viruses in reclaimed water. Further investigation of sequences with low-level similarities to known ssDNA viruses led to the completion of ten novel ssDNA genomes from reclaimed water and marine environments (Appendix D). Unique genome architectures and phylogenetic analysis suggest that these ssDNA viruses belong to new viral genera and/or families. To further explore the ecology of the novel ssDNA viruses, a strategy was developed to take metagenomic analysis to the next level by combining expression analysis and immunotechnology (Appendix E). This dissertation made a significant contribution to current microbiological data regarding wastewater by uncovering viruses that endure the wastewater treatment and identifying a new viral bioindicator.
27

The mechanism of action of cidofovir and (S)-9-(3-hydroxy-2-phosphonomethoxypropyl) adenine against viral polymerases

Magee, Wendy Colleen. January 2009 (has links)
Thesis (Ph.D.)--University of Alberta, 2009. / Title from pdf file main screen (viewed on Sept. 18, 2009). "A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Virology, Medical Microbiology and Immunology, University of Alberta." Includes bibliographical references.
28

The establishment of a virus free laboratory colony of Cryptophlebia leucotreta (False Codling Moth) and characterisation of Cryptophlebia leucotreta Granulovirus (CrleGV) genes

Ludewig, Michael Hans January 2003 (has links)
Cryptophlebia leucotreta is an economically important agricultural pest throughout Sub-Saharan Africa. CrleGV has been considered as an alternative to chemical control of this pest due to its host specificity and innocuous nature towards vertebrates. A CrleGV free laboratory colony of C. leucotreta would be useful for the isolation of genotypically pure strains of the CrleGV and for virulence comparisons between isolates. It is preferable to have a full characterisation of CrleGV prior to its registration and release into the environment as a biopesticide. A laboratory colony of C. leucotreta, set up at Rhodes University, containing a low level of infection indicated that CrleGV is vertically transmitted. To establish a virus free laboratory colony of C. leucotreta, a solution of 3.5% sodium hypochlorite and 1% Tween 20 was used to surface decontaminate C. leucotreta eggs for removal of transovum CrleGV from the laboratory colony. No apparent infection by CrleGV was induced by subjecting larvae to stress. PCR of DNA extracted from larvae using CTAB failed to detect virus in the laboratory colony. This detection protocol was able to detect down to 60 fg (480 genome copies of CrleGV). The possibility of low-level virus remaining in the colony requires monitoring of genotypic purity of virus manipulated in the colony. Sequencing of Bam HI/KpnI fragments produced a preliminary sequence of the granulin region of CrleGV. This preliminary sequence supports the trend that the gene organisation of the granulin region of the granuloviruses infecting the family Tortricidae is conserved.
29

The characterisation of a South African isolate of Cryptophlebia leucotreta Granulovirus (CIGV)

Singh, Shalene January 2002 (has links)
The false codling moth (FCM), Cryptophlehia Leucatreta, causes widespread damage to economically important fruit crops throughout sub-Saharan Africa. Fruit are rendered unfit for consumption once they have been stung by FCM larvae. Larval infestation of fruit can lead to significant pre-harvest losses or post-harvest waste, posing a major problem to the citrus industry. Current control of the pest includes the use of chemical pesticides. The larval form of FCM is known to be infected by a granulovirus called Cryptophlebia leucotreta granulovirus (CIGV). Granuloviruses are highly specific against their hosts and are harmless to vertebrates, plants and the environment. The development of CIGV into a biological control agent would offer an attractive and safer alternative for the control of this pest. A full characterisation of CIGV is required prior to the virus being disseminated into the environment. In this project, the characteristics of CIGV will be examined. Viral DNA was extracted from infected larvae and the DNA analysed by restriction fragment length polymorphism (RFLP). Fragmentation profiles of the South African and Cape Verde (CV3) isolates of the virus were compared, revealing distinct differences between them. The size of the CIGV-SA genome was calculated to be 112 kbp, identical to the size of the CV3 isolate. Physical maps for five restriction enzymes were constructed for the CIGV-SA genome. The alignment of these maps with maps the CV3 isolate (for the same enzymes) further highlighted the differences between the isolates. The genetic engineering of granuloviruses could significantly improve the speed of kill of these viruses. Therefore essential genes like egt and granulin were isolated (by PCR) and their position located in the genome. Both genes were sequenced and their phylogeny with other granulin and egt genes investigated. Finally, tbe incidence of CIGV in natural populations of FCM larvae was investigated, by screening field-collected larvae for the presence of the virus. CIGV was successfully detected from dot blots of larval DNA using both radiolabelled and non-radiolabelled probes and by PCR. Trends regarding the incidence of CIGV in natural populations of larvae were also determined.
30

The molecular characterisation of human adenoviruses from human specimens and environmental samples

Magwalivha, Mpho 05 October 2010 (has links)
Human adenoviruses (HAdVs) are non-enveloped DNA viruses, currently comprising 52 serotypes which are divided into seven species, designated A to G. The HAdVs are associated with a number of diseases affecting respiratory, urinary, gastrointestinal tracts and the eye. Human AdVs have increasingly been recognized as important pathogens in immunocompromised individuals. Human AdVs are ubiquitous in the environment resulting in the possible contamination of treated and untreated drinking water supplies by human secretions and excretions. As AdVs do not have an envelope, they are extremely resistant to inactivation, allowing for prolonged survival in the environment. The presence of AdVs in water sources is considered important, as they are exceptionally resistant to selected water treatment processes. Precise typing of HAdVs is, therefore, essential for epidemiological surveillance and the understanding of infection chains. The aim of this study was to determine the prevalence and genetic heterogeneity of HAdVs circulating in communities in selected regions of Africa compared to the rest of the world. It is also important to determine the genetic relationship between HAdVs strains occurring in water sources and those detected in human clinical specimens, as this may give some indication as to whether or not water sources are a potential source of infection. As part of ongoing surveillance in southern Africa of treated and untreated water sources for enteric viruses, 765 water samples were tested using a nested polymerase chain reaction (nPCR) for HAdVs. Of these samples, 65 (8.6%) water samples were positive for HAdVs, and selected samples were characterised. In the untreated water, HAdV-F was the dominant species (65.6%) and HAdV-D was second-most common (21.9%) species identified. Species HAdV–B, -A and –C were identified amongst the rest of the strains. From treated water, HAdV-D and –F were identified in one isolate each. Analysis of diarrhoeal stool specimens for HAdVs identified HAdV-F as the predominant species, comprising 77.8% of the identified strains, with species HAdV-C and –A less common, identified in 11.1% specimens. In the respiratory specimens from the same region, HAdV-C was identified in 28.6% of the specimens. Comparative genetic analysis of HAdVs from water sources and clinical specimens showed genetic relatedness between the strains. Water may therefore play an important role as source of infection in the surrounding communities. In developing countries, diarrhoea is a major cause of morbidity and mortality and after rotaviruses HAdVs are considered to be the second-most important cause of viral infantile diarrhoea. Samples also were available from Kenya, where there are very little data on the prevalence and distribution of HAdV serotypes associated with diarrhoea in paediatric patients. From Kenya, 278 stool specimens were analysed, of which 104 (43 diarrhoea; 61 non-diarrhoea) were from an urban hospice for human immunodefiency virus (HIV)-seropositive children, 94 from selected urban clinics and 80 from the rural setting. From these, the detection of HAdVs in diarrhoeal and non-diarrhoeal stool specimens was 43.3% and 16.4%, respectively. In the urban hospice setting, 43.3% of the stool specimens from HIV-seropositive children tested positive for HAdV. The overall detection of HAdVs species and genotypes in the stool specimens showed HAdV-D to predominate, being detected in 36.1% of specimens with HAdV-C (29.5%), HAdV-F (16.4%), HAdV-B (13.1%), and HAdV-A (6.5%) present in lower numbers. This study provided valuable new data on the prevalence and distribution of HAdV genotypes in diarrhoeal stool specimens in Africa. In this study where nucleotide sequence comparison was used to determine the genetic relatedness of African HAdVs to those from the rest of the world, it was noted that in most cases the African strains differed from those from the rest of the world. The use of molecular techniques for the detection and characterisation of HAdVs, especially in Kenyan cohorts, was of importance, as it provided new baseline data for further burden of disease studies which are necessary for future prevention and treatment programmes. / Dissertation (MSc)--University of Pretoria, 2010. / Medical Virology / unrestricted

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