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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.
1

Ribosomal RNA genes and RAPD for Cryptosporidium species and subspecies discrimination

Patel, Sushma M. January 1997 (has links)
No description available.
2

Population structure and genetics of the European lobster Homarus gammarus

Hughes, Greta January 2000 (has links)
No description available.
3

Characterization and use of a multiplex PCR-based system random amplified polymorphic DNA /

Halldén, Christer. January 1998 (has links)
Thesis (doctoral)--Lund University, 1998. / Includes bibliographical references.
4

Characterization and use of a multiplex PCR-based system random amplified polymorphic DNA /

Halldén, Christer. January 1998 (has links)
Thesis (doctoral)--Lund University, 1998. / Includes bibliographical references.
5

Assessment of genetic diversity and DNA fingerprinting of the Cape parrot (Poicephalus robustus) using randomly amplified polymorphic DNA (RAPD)

Blue, Gillian Margaret. 29 November 2013 (has links)
The Cape parrot (Poicephalus robustus) is South Africa's only endemic parrot. It has become increasingly rare in recent years, with fewer than 500 birds left in the wild, and is now regarded as endangered. Possible factors contributing to this rapid decline in numbers include habitat loss, food shortage, disease and illegal trafficking and trading in the species. Habitat loss and food shortage have been brought about by the rapid destruction of the yellowwood trees in the afromontane forests in South Africa and have played a role in reducing the population numbers. The Psittacine beak and feather disease virus (PBFDV) has also contributed to the loss of some individuals, however it is the illegal trafficking of this rare and valuable species that has become of great concern. As the Cape parrot is becoming increasingly rare and therefore highly sought after, its commercial value has multiplied to the extent that illegal black market trapping is on the rise. The industry involved in breeding and conservation of endangered bird species, has a need for the proper establishment of studbooks, containing all available information on captive as well as tagged birds. Most of the information found in studbooks is based on morphological attributes of individual birds. Although this is useful, there is a need to add molecular information in order for complete identification of individuals, particularly in a species threatened by illegal trading and theft. A preliminary analysis of the amount of variation present in the population of interest is therefore required so that appropriate methods and techniques can be developed to identify individual birds. A RAPD analysis was conducted to assess the amount of variation in the Cape parrot and lay the foundations for the establishment of individual identification in the species. Blood samples from 30 parrots, consisting of both related and unrelated individuals, were obtained from three separate locations: Amazona in Assagay, Rehoboth Farm in Dargle, as well as from the Eastern Cape. 15 random primers were selected and used to conduct a randomly amplified polymorphic DNA (RAPD) analysis. RAPDs are extremely useful in situations where relatively inexpensive first approximations of the genetic variation are needed, such as in rare and endangered species. After successful optimisation of the technique in the species, the 15 primers were screened for all 30 individuals and the individual DNA fingerprints, analysed. Clear, distinctive and reliable DNA fingerprints were obtained for all individuals however, it was interesting to note despite the analysis of 85 loci using the 15 primers almost identical DNA fingerprints were produced between the individual birds. A population analysis into the amount of variation present between and within the three populations, as well as for the representative population as a whole, was conducted. Using various statistical programmes such as POPGENE and ARLEQUIN, heterozygosities, genetic distance measures, diversity indices, Wright's fixation index and AMOVAs were estimated. The amount of polymorphism detected in this investigation was 33 % and the heterozygosity, 0.37, which is a relatively high value for the uniformity displayed in the DNA profiles. The high GC content of the primers however, could be a possible explanation thereof. Relationship and kinship determination, sex determination as well as population assignment was possible despite not being able to identify each individual based on unique DNA fingerprints. The AMOVA analysis indicated significant variation on both the between (5.59 %) and within (94.41 %) levels of analysis. Little variation or differentiation was observed between the three subpopulations, which was confirmed with an FST value of 0.056. The variation experienced within each subpopulation was analysed using Shannon's index of phenotypic diversity. The Amazona population displayed the most variation with a value of 0.286 and the Rehoboth population, the least with 0.195. This was expected, with the individuals from the latter population comprising one extended family. Nei's measures of genetic identity revealed that the individuals from Amazona were more similar to the Eastern Cape population, which was again expected with regular exchanging of chicks between the two breeders. RAPD technology was successful in laying the foundations for individual identification in the Cape parrot. It was also successful in producing reproducible DNA fingerprints in the species that were able to determine relatedness to some extent, determine the sex of individuals and identify individuals from a particular subpopulation. Furthermore RAPD analysis gave a good indication of the variation found in the Cape parrot population, which is important for conservation purposes. In order to maximize conservation efforts and strategies in an endangered species, determining the level of genetic diversity and variation found in the remaining individuals of the population is of great importance. This information could provide powerful insight for conservation purposes and depending on the level of diversity detected, appropriate breeding programmes could be set up in order to increase the genetic variation and thereby reduce the chance of extinction of the species. The following important findings emerged from this investigation: • RAPD technology, once optimised for the species of interest, is successful in producing clear and reliable DNA fingerprints, provided the same protocol is followed carefully throughout the investigation. • An optimised protocol for fingerprinting the Cape parrot using RAPDs was established. • Possible sex identification, population assignment and a degree of kinship determination was determined using RAPDs. • Little variation was found within the representative Cape parrot population as a whole due to small population size and possible inbreeding. • As expected for an avian species, little genetic sub-division or differentiation was observed between the three populations analysed. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2004.
6

Estimation of genetic variation and marker identification in black wattle (Acacia mearnsii De Wild) with RAPD fingerprinting.

Sewpersad, Yaksha. 15 November 2013 (has links)
No abstract available. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2004.
7

Characterization of streptococcal infections in KwaZulu-Natal Durban by random amplified polymorphic DNA anaylsis and DNA macrorestriction analysis.

Madlala, Paradise Z. 28 November 2013 (has links)
A collection of 29 clinical streptococcal isolates obtained from the University of KwaZulu-Natal, Medical School, Durban Metro area (South Africa) were studied to establish their penicillin G susceptibility patterns often refered to as minimal inhibitory concentration (MIC) and to determine the genetic diversity among them using two genotyping methods, randomly amplified polymorphic DNA (RAPD) analysis and pulsed-field gel electrophoresis (PFGE) analysis. All isolates with MIC less than or equal to 0.12 µg/ml were considered susceptible, intermediate resistant if MIC was between 0.25 µg/ml and 4 µg/ml and resistant if greater than 4 µg/ml, The percentage of isolates with resistance was relatively high (75.9%), only 10.3% of isolates showed intermediate resistance and 13.8% of the isolates were completely susceptible to penicillin G. Some of the resistant isolates were highly resistant reaching penicillin G MIC levels of 5000 µ/ml. They were speculated to contain Path altered penicillin binding proteins and high level of crosslinking cell wall induced by the gene products of the MurMN operon. RAPD analysis was performed using three primers, MBPZ-1, MBPZ-2, and MBPZ-3, respectively. RAPD analysis allowed for the identification of 27 RAPD types with MBPZ-1 and MBPZ-3 and 26 RAPD types with MBPZ-2. Ninety-eight percent of these isolates were clustered into two groups, group I and group II, with 90% to 100% dissimilarity among them. Fifty two percent of the isolates of MBPZ-1 group I were in MBPZ-2 group I, 72% isolates of MBPZ-1 group I were in MBPZ-3 group I, and 72% of the isolates of MBPZ-2 group I were in MBPZ-3 group 1. This shows the discriminatory ability of the primers used in this study. Despite clustering of isolates, relatively high diversity was seen. PFGE analysis of macrorestriction fragments obtained after digestion of chromosomal DNA by restriction enzyme, SmaI showed 24 PFGE patterns. The 24 PFGE patterns were divided into three groups (I, II and III) of isolates, with an average of 85% dissimilarity (15% homology) among them. At 25% homology, four clusters, A (13 isolates), B (9 isolates), C (4 isolates), and D (4 isolates) were observed. Two pairs of isolates in group I, cluster A, showed 100% homology. This suggested that each represent the same strain. Four isolates of group I, cluster B, also exhibited 100% homology. This study showed that most of streptococcal isolates with the same penicillin G susceptibility patterns grouped together in a phylogenetic tree by both RAPD and PFGE analysis. There was also some similarity between the results obtained by RAPD analysis and PFGE analysis. Seventeen and nine of the 29 isolates grouped into group I and group II, respectively, two pairs of isolates were indistinguishable, and two pairs of islates were closely related by both RAPD (using MBPZ-3) and PFGE analysis. Although, RAPD analysis is sensitive, specific, faster and cost effective, the ease with which PFGE analysis can be performed, high discriminatory power, reproducibility of the results, and the polymorphism seen in the patterns, suggests that PFGE method has the potential to be very useful for epidemiological evaluations of nosocomial streptococcal infections in KwaZulu-Natal. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2004.
8

Caracterização de espécies brasileiras de Adesmia DC. por RAPD

Dias, Paula Menna Barreto January 2003 (has links)
Dentro do gênero Adesmia, as técnicas moleculares ainda não foram empregadas na caracterização de germoplasma e na análise da diversidade genética das espécies brasileiras que compôem o gênero. Portanto os objetivos deste trabalho foram: caracterizar, com a utilização de marcador molecular do tipo RAPD, as espécies brasileiras do gênero Adesmia DC; com base nestas informações estabelecer relações de diversidade genética entre as espécies e os acessos analisados; relacionar dados de diversidade com dados morfológicos e de reprodução.
9

Caracterização de espécies brasileiras de Adesmia DC. por RAPD

Dias, Paula Menna Barreto January 2003 (has links)
Dentro do gênero Adesmia, as técnicas moleculares ainda não foram empregadas na caracterização de germoplasma e na análise da diversidade genética das espécies brasileiras que compôem o gênero. Portanto os objetivos deste trabalho foram: caracterizar, com a utilização de marcador molecular do tipo RAPD, as espécies brasileiras do gênero Adesmia DC; com base nestas informações estabelecer relações de diversidade genética entre as espécies e os acessos analisados; relacionar dados de diversidade com dados morfológicos e de reprodução.
10

Caracterização de espécies brasileiras de Adesmia DC. por RAPD

Dias, Paula Menna Barreto January 2003 (has links)
Dentro do gênero Adesmia, as técnicas moleculares ainda não foram empregadas na caracterização de germoplasma e na análise da diversidade genética das espécies brasileiras que compôem o gênero. Portanto os objetivos deste trabalho foram: caracterizar, com a utilização de marcador molecular do tipo RAPD, as espécies brasileiras do gênero Adesmia DC; com base nestas informações estabelecer relações de diversidade genética entre as espécies e os acessos analisados; relacionar dados de diversidade com dados morfológicos e de reprodução.

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