Evolutionary morphology of Pareiasaurs

Lee, Michael Soon Yoong

January 1995

No description available.

590

Turtles; Phylogenetic analysis

Effects of plant amendment on microbial community structure and fungal biomass in Antarctic soils

Malosso, Elaine

January 2003

No description available.

579

Phylogenetic analysis

Phylogenetic analysis of sclerospora graminicola using internal transcribed spaced region-2

Viswanathan, Aparna

30 September 2004

The internal transcribed spacer region (ITS) from fourteen samples of Sclerospora graminicola was amplified using a nested PCR. These regions of the rDNA were amplified by a combination of conserved primers (ITS 1 and 6 and ITS 3 and 4). These products were cloned into a puc-4 vector and transformed into E.coli competent cells. The inserts from transformants were isolated, then sequenced by the Gene Technologies Lab, Texas A& M University. The sequences produced were and aligned with the ITS2 region of other known Oomycete fungi( Peronospora, Phytophthora and Pythium) using CLUSTALX. Phylogenetic relationship among sequences from Indian and African samples was examined using a consensus bootstrap parsimony tree. All the samples from India, Mali, Nigeria and Niger, with the exception of Niger 4, formed a monophyletic group with the Oomycetes ( Peronospora, Phytophthora and Pythium). The three samples Niger 4, BFaso 2 and BFaso 17 from Burkina Faso shared a close relationship with the outgroup Cladosporium herbareum.

Sclerospora graminicola

phylogenetic analysis

Identification and phylogenetic analysis of Aedes species (Diptera: Culicidae) and arboviruses associated with them across tropical and temperate regions of South Africa (2015-2018)

Guarido, Milehna M.

January 2020

Emerging and re-emerging diseases have increased worldwide in incidence in the past decades. Of these emerging diseases 60.3% are caused by zoonotic pathogens of which 22.8% are arboviruses or arthropod borne viruses. Arboviruses are transmitted by hematophagous insects, especially moquitoes. Multiple factors such as human population growth, climate change and adaptations of certain Aedes mosquito vector species to urban environments and anthropophilic have been attributed to causing this rise in arboviral infections. In Southern Africa, zoonotic arboviruses belonging to the families Flaviviridae (genus Flavivirus), Togaviridae (genus Alphavirus), and those in the order Bunyavirales, family Phenuiviridae: (genus Phlebovirus) and Peribunyaviridae (genus Orthobunyaviruses), have proven, in the past, to be of both medical and veterinary importance. Recent detection of neurological cases in South Africa, most likely, due to flaviviruses, alphaviruses and orthobunyaviruses in the Simbu serogroup, has rekindled interest in these zoonotic diseases. This interest is also warranted because of lack of recent information on arboviral prevalence in mosquito species, distributions, abundance, and ecology, especially of Aedes species, the likely primary vectors of these arboviruses in Southern Africa. To update this lack of information, this study t reports on zoonotic arboviruses circulating in selected areas in the north-eastern provinces of South Africa in mosquitoes with a focus on Aedes. Many Aedes species are morphologically quite difficult to identify especially when they are old, and scales rubbed off in the process of trapping. To aid in the identification of Aedes in this study we provide molecular barcodes for Aedes species occurring in in South Africa and define their phylogenetic relationship with other mainly Afrotropical Aedes mosquitoes based on the cytochrome oxidase I gene sequences. The first Chapter provides a comprehensive review of the literature and describes the importance of arboviruses worldwide and in South Africa, highlighting the role of Aedes mosquitoes as vectors. In Chapter 2, what is known about the broad patterns of Aedes mosquito species diversity, abundance, and distribution in different habitats across selected sites in five different provinces in South Africa is described. The sites selected were chosen because of evidence of neurological cases in humans and animals in recent years likely due to arboviral infections. In total, 61,737 adult mosquitoes were collected from January 2014 to May 2018, using three kinds of carbon dioxide baited trap types About 16% (11,440) were Aedes species, of which, 14 species were recognised or suspected vectors of mosquito-borne diseases because of positive infections, including Aedes mcintoshi which was the most abundant Aedes species captured. The effect of the climatic conditions on the mosquito population dynamics were also investigated. Aedes species were present in the sites following the peak of the rainfall and were mostly captured in temperatures between 18°C and 27°C. Chapter 3 focuses on determining the blood meal source present in engorged Aedes mosquitoes sampled to give an assessment of blood feeding tendencies that would serve useful to determine their vector status. Aedes species were identified feeding on a broad range of livestock, and wildlife, only two specimens were identified as feeding on avian species.Chapter 4 focuses on interpretations of cytochrome oxidase subunit 1 (COI) gene sequences to identify Aedes species in South Africa and to analyse the relationship among the species. A total of 52 COI sequences were aligned representing 21 Aedes species. In several cases these were the first African aedine species uploaded in NCBI GenBank. Neomelaniconion species clustered together, except for Ae. aurovenatus. Finally, the data also suggested that Ae. cumminsii present in South Africa belongs to the subspecies ssp. mediopunctatus. In Chapter 5 results of arboviral infections in Culicidae mosquitoes captured from the selected sites, particularly Aedes species is provided. Arboviral infection or prevalence screening was performed using multiple genus specific polymerase chain reactions (PCR). Alphavirus and Orthobunyavirus were detected in different Culicidae genera, including Aedes, Culex, Anopheles and Mansonia. There were no isolations of pathogenic flaviviruses in mosquitoes. The only alphaviruses detected in mosquitoes were Middelburg, Sindbis and Ndumu viruses during the period of the study. Shuni virus was the only member of Orthobunyavirus genus, detected. Even though, the main aim was to identify pathogenic viruses, several insect-specific viruses belonging to Alphavirus and Flavivirus genera were also detected and these are described in Chapter 6. The numerous arboviruses detected in Culicine mosquitoes, including Aedes species, demonstrate that some species are likely maintaining natural cycling of these arboviruses. Noteworthy, is that mosquito species positive for arboviruses are often the most abundant in the selected sampling locations and that these species blood feed mostly on the larger vertebrates present in the area. Outbreaks possibly occur when the prevalence of certainmosquito species are high due to favourable climatic conditions. Highest arbovirus detections occurred in peri-urban, rural, and conservation areas, indicating that livestock and wildlife likely play an important role in the amplification of these arboviruses. This study highlights the importance of a continues mosquito-based surveillance for arboviruses in South Africa, and the role that Aedes species might be playing in the circulation of these arboviruses. Surveillance for the species that tested positive for pathogenic arboviruses during the arbovirus season may act as an early warning system and can also help to avoid spill over in animals and humans in the area surveyed. / Thesis (PhD)--University of Pretoria, 2020. / Centres for Disease Control and Prevention National Research Foundation / Medical Virology / PhD / Unrestricted

UCTD

Arboviruses

phylogenetic analysis

The effect of plant residue decomposition on microbial community composition in soil

Si, Weiduo

January 2000

No description available.

579

Epidemiological and molecular studies on chronic HBV infection in Gambian families

Dumpis, Uga

January 2000

No description available.

572.8

The Qphyl System: a web-based interactive system for phylogenetic analysis

Zhen, Zhao

January 2008

Master of Science / Phylogenetic tree reconstruction is a prominent problem in computational biology. Currently, all computational methods have their limitations and work well only for simple problems of small size. No existing method can guarantee that trees constructed for real-world problems are true phylogenetic trees for large and complex problems mainly because the existing computational models are not very biologically realistic. It has become a serious issue for many important real-life applications which often desire accurate results from phylogenetic analysis. Thus, it is very crucial to effectively incorporate multi-disciplinary analyses and synthesize results from various sources when answering real-life questions. In this thesis, a novel web-based phylogeny reconstruction system with a real-time interactive environment, called Qphyl (short for quartet-based phylogenetic analysis) is introduced. The Qphyl system uses a new interactive approach to enable biologists to greatly improve the final results through effectively dynamic interaction with the computation, e.g., to move the computation back and forth to different stages so users can check the intermediate results, compare results from different methods and carry out certain manual refinements using their biological domain-specific knowledge in the decision making on how a tree should be reconstructed. Currently the alpha version of this web-based interactive system has been released and accessible through the URL: http://ww-test.it.usyd.edu.au/sogrid/qphyl/.

The Qphyl System: a web-based interactive system for phylogenetic analysis

Zhen, Zhao

January 2008

Master of Science / Phylogenetic tree reconstruction is a prominent problem in computational biology. Currently, all computational methods have their limitations and work well only for simple problems of small size. No existing method can guarantee that trees constructed for real-world problems are true phylogenetic trees for large and complex problems mainly because the existing computational models are not very biologically realistic. It has become a serious issue for many important real-life applications which often desire accurate results from phylogenetic analysis. Thus, it is very crucial to effectively incorporate multi-disciplinary analyses and synthesize results from various sources when answering real-life questions. In this thesis, a novel web-based phylogeny reconstruction system with a real-time interactive environment, called Qphyl (short for quartet-based phylogenetic analysis) is introduced. The Qphyl system uses a new interactive approach to enable biologists to greatly improve the final results through effectively dynamic interaction with the computation, e.g., to move the computation back and forth to different stages so users can check the intermediate results, compare results from different methods and carry out certain manual refinements using their biological domain-specific knowledge in the decision making on how a tree should be reconstructed. Currently the alpha version of this web-based interactive system has been released and accessible through the URL: http://ww-test.it.usyd.edu.au/sogrid/qphyl/.

Genotypes of hepatitis B and C viruses in Nigeria

Oni, Oluropo Ayodele

January 1996

No description available.

579

Sequence analysis of human immunodeficiency virus type 1 : a cross-sectional and longitudinal study

Ait, Khaled

January 1996

No description available.

579

HIV-1 variants; Phylogenetic analysis