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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.
81

Siblings and Inheritances: A Phenomenological Study Exploring the Relational Outcomes Following the Inheritance Distribution Process

Fincher, Jayla Eileen 01 July 2016 (has links)
The purpose of this study was to contribute to a more complete understanding of the family inheritance experience by exploring the perspectives of beneficiaries. This qualitative study aimed to describe and discuss how individuals' sibling relationships were impacted following the distribution process of an inheritance that was intended to be equally distributed. Eight individuals participated in semi-structured interviews, with areas of inquiry covering perceptions of challenges and benefits of the distribution process, fairness of the outcome of distribution among siblings, and the impact the process has had on their sibling relationships. The data was analyzed using transcendental phenomenology. Findings suggest families experience varying degrees of conflict during inheritance distributions, but not all conflict was devastating to the relationships following the distributions. Specific relational aspects were identified in contributing to the level of satisfaction of the distribution, which subsequently affected their relationships afterward. Additionally, the handling of conflict and efforts to repair relational strains significantly contribute to relational outcomes following the distribution. The majority of participants reported stronger relationships following the inheritance distribution. The findings provide a foundation for further research to explore beneficiary's experiences of receiving an inheritance within multi-child families. / Master of Science
82

Cytoplasmic inheritance and virus diseases

Tilney-Bassett, Richard A. E. January 1962 (has links)
No description available.
83

Investigating Patterns of Mitochondrial DNA Inheritance Using New Zealand Chinook Salmon (Oncorhynchus tshawytscha) as a Model Organism

Wolff, Jonci Nikolai January 2008 (has links)
The laws for the inheritance of animal mitochondrial DNA differ from those revealed for nuclear DNA. In contrast to nuclear genes, animal mitochondrial DNA (mtDNA) is predominantly inherited through the maternal line and is typically assumed to be nonrecombining. The absence of both paternal transmission (hereafter: paternal leakage) and heterologous recombination of mtDNA are assumed to be key characteristics of mitochondrial DNA inheritance, which has enabled evolutionary models to be much simpler than those needed for the interpretation of nuclear DNA. However, recent revelations of paternal leakage in the animal kingdom challenge our current knowledge about mtDNA inheritance and the utility of mtDNA as a molecular marker. The occurrence of paternal leakage potentially introduces new haplotypes into populations and therefore impacts on the interpretation of mtDNA analysis. To date, it is unclear whether the documented cases of paternal leakage are exceptions to the general rule or if these events occur more frequently than so far believed. If this event occurred at a measurable frequency, it is vital to implement such data into models of mtDNA evolution to improve the accuracy at which evolutionary relationships and times of divergence are estimated. In this thesis, I aimed to provide an insight into the broader patterns of mtDNA inheritance using chinook salmon as a model organism. I first sought to delimit the frequency of paternal leakage in chinook salmon and further investigated two major mechanisms which are believed to limit paternal leakage: The many-fold dilution of paternal mtDNA by maternal mtDNA upon fertilization and the genetic bottleneck mtDNA is believed to be exposed to during early developmental stages. A screen of roughly 10.000 offspring did not reveal the presence of paternal mtDNA within these samples delimiting the maximum frequency of paternal leakage in this system to 0.18% (power of 0.95) and 0.27% (power of 0.99), suggesting that the occurrence of paternal leakage is most likely an exception to the general rule. To infer the dilution of paternal mtDNA upon fertilization, I employed real-time PCR and determined the mtDNA content of salmon spermatozoa and oocytes to be 5.73 ± 2.28 and 3.15x109 ± 9.98x108 molecules per gamete, respectively. Accordingly, the estimated ratio of paternal to maternal mtDNA in zygotes is 1:7.35x108 ± 4.67x108. This estimate is 3 to 5 orders of magnitude smaller than the ratio revealed for mammals. Consequently, and if the dilution acts as an efficient barrier against the transmission of paternal mtDNA, paternal inheritance of mtDNA per offspring will be much less likely in this system than in mammals. To estimate at what probability the diminutive contribution of paternal mtDNA in zygotes is potentially inherited to offspring, I determined the size of the bottleneck acting on mtDNA during both embryogenesis and oogensis by examining the transmission of mtDNA variants to offspring and oocytes within a pedigree of heteroplasmic individuals. The number of segregating units (mtDNAs) between a mother’s somatic tissue and oocytes was estimated to be 109.3 (median = 109.3; 62.4 < NeOog < 189.6; 95% confidence interval) and from a mother’s soma to offspring’s soma 105.4 (median = 105.4; 70.3 < NeEmb < 153.1; 95% confidence interval). Detected variances in allele frequency among oocytes were not significantly different from those in offspring, strongly suggesting that segregation of mtDNA occurs during oogenesis with its completion before oocyte maturation. However, considering a ratio of roughly 1:7.35x108 for paternal to maternal mtDNA in zygotes and that approximately 109.3 (NeOog) of the mitochondrial genomes present in zygotes are ultimately inherited to offspring, the probability for paternal mtDNA to be transmitted to offspring is in round terms 1.0x10-11/paternal mtDNA molecule. In summary, the results presented in this thesis document the presence of efficient barriers to prohibit the inheritance of minor allele contributions, such as paternal mtDNA, to offspring. These results strongly suggest that paternal leakage is an exception to the general rule. Furthermore, in comparison to studies undertaken in mammals, my results indicate that mechanisms in place to prevent paternal leakage may be unequally efficient among different animal taxa, reflecting differences in life traits, such as gamete morphology, gamete investment and reproductive strategies. Nonetheless, by the means of the dilution effect in zygotes and the genetic bottleneck during oogenesis, the occurrence of paternal leakage might be simply a quantitative phenomenon and cannot be excluded per se. The increasing number of documented cases of paternal leakage clarifies that its occurrence must be considered when applying mtDNA as a genetic marker. Furthermore, for species in which mtDNA inheritance can be confirmed to be purely random, theoretical frequencies of paternal leakage can be inferred and potentially implemented into models of mtDNA evolution.
84

Mechanisms and genetics of resistance to fenvalerate in cotton bollworm, Helicoverpa armigera (Huebner) (Lepidoptera: Noctuidae) from China

Tan, Jian-Guo January 1999 (has links)
No description available.
85

A study of wills and will-making in the period 1500-1533 with special reference to the copy wills in the probate registers of the Archdeacon of Bedford, 1489-1533.

Ford, Judith. January 1991 (has links)
Thesis (Ph. D.)--Open University. BLDSC no. DX175920.
86

Bijdrage tot de kennis van het familie- en erfrecht der Chineezen in Nederlandsch-Indië

Han, Swie-tian. January 1936 (has links)
Thesis (doctoral)--Rijksuniversiteit te Utrecht. / Includes bibliographical references.
87

Attitudes of patients and professionals to genetic testing in diabetes with specific reference to maturity onset diabetes of the young (MODY)

Shepherd, Margaret H. January 2000 (has links)
No description available.
88

Investigating Patterns of Mitochondrial DNA Inheritance Using New Zealand Chinook Salmon (Oncorhynchus tshawytscha) as a Model Organism

Wolff, Jonci Nikolai January 2008 (has links)
The laws for the inheritance of animal mitochondrial DNA differ from those revealed for nuclear DNA. In contrast to nuclear genes, animal mitochondrial DNA (mtDNA) is predominantly inherited through the maternal line and is typically assumed to be nonrecombining. The absence of both paternal transmission (hereafter: paternal leakage) and heterologous recombination of mtDNA are assumed to be key characteristics of mitochondrial DNA inheritance, which has enabled evolutionary models to be much simpler than those needed for the interpretation of nuclear DNA. However, recent revelations of paternal leakage in the animal kingdom challenge our current knowledge about mtDNA inheritance and the utility of mtDNA as a molecular marker. The occurrence of paternal leakage potentially introduces new haplotypes into populations and therefore impacts on the interpretation of mtDNA analysis. To date, it is unclear whether the documented cases of paternal leakage are exceptions to the general rule or if these events occur more frequently than so far believed. If this event occurred at a measurable frequency, it is vital to implement such data into models of mtDNA evolution to improve the accuracy at which evolutionary relationships and times of divergence are estimated. In this thesis, I aimed to provide an insight into the broader patterns of mtDNA inheritance using chinook salmon as a model organism. I first sought to delimit the frequency of paternal leakage in chinook salmon and further investigated two major mechanisms which are believed to limit paternal leakage: The many-fold dilution of paternal mtDNA by maternal mtDNA upon fertilization and the genetic bottleneck mtDNA is believed to be exposed to during early developmental stages. A screen of roughly 10.000 offspring did not reveal the presence of paternal mtDNA within these samples delimiting the maximum frequency of paternal leakage in this system to 0.18% (power of 0.95) and 0.27% (power of 0.99), suggesting that the occurrence of paternal leakage is most likely an exception to the general rule. To infer the dilution of paternal mtDNA upon fertilization, I employed real-time PCR and determined the mtDNA content of salmon spermatozoa and oocytes to be 5.73 ± 2.28 and 3.15x109 ± 9.98x108 molecules per gamete, respectively. Accordingly, the estimated ratio of paternal to maternal mtDNA in zygotes is 1:7.35x108 ± 4.67x108. This estimate is 3 to 5 orders of magnitude smaller than the ratio revealed for mammals. Consequently, and if the dilution acts as an efficient barrier against the transmission of paternal mtDNA, paternal inheritance of mtDNA per offspring will be much less likely in this system than in mammals. To estimate at what probability the diminutive contribution of paternal mtDNA in zygotes is potentially inherited to offspring, I determined the size of the bottleneck acting on mtDNA during both embryogenesis and oogensis by examining the transmission of mtDNA variants to offspring and oocytes within a pedigree of heteroplasmic individuals. The number of segregating units (mtDNAs) between a mother’s somatic tissue and oocytes was estimated to be 109.3 (median = 109.3; 62.4 < NeOog < 189.6; 95% confidence interval) and from a mother’s soma to offspring’s soma 105.4 (median = 105.4; 70.3 < NeEmb < 153.1; 95% confidence interval). Detected variances in allele frequency among oocytes were not significantly different from those in offspring, strongly suggesting that segregation of mtDNA occurs during oogenesis with its completion before oocyte maturation. However, considering a ratio of roughly 1:7.35x108 for paternal to maternal mtDNA in zygotes and that approximately 109.3 (NeOog) of the mitochondrial genomes present in zygotes are ultimately inherited to offspring, the probability for paternal mtDNA to be transmitted to offspring is in round terms 1.0x10-11/paternal mtDNA molecule. In summary, the results presented in this thesis document the presence of efficient barriers to prohibit the inheritance of minor allele contributions, such as paternal mtDNA, to offspring. These results strongly suggest that paternal leakage is an exception to the general rule. Furthermore, in comparison to studies undertaken in mammals, my results indicate that mechanisms in place to prevent paternal leakage may be unequally efficient among different animal taxa, reflecting differences in life traits, such as gamete morphology, gamete investment and reproductive strategies. Nonetheless, by the means of the dilution effect in zygotes and the genetic bottleneck during oogenesis, the occurrence of paternal leakage might be simply a quantitative phenomenon and cannot be excluded per se. The increasing number of documented cases of paternal leakage clarifies that its occurrence must be considered when applying mtDNA as a genetic marker. Furthermore, for species in which mtDNA inheritance can be confirmed to be purely random, theoretical frequencies of paternal leakage can be inferred and potentially implemented into models of mtDNA evolution.
89

The incidence and effects of death duties on woolgrowers in South Australia.

Thomson, Norman J. January 1971 (has links) (PDF)
Thesis (M. Ec.) -- University of Adelaide, Department of Economics, 1973.
90

La Succession "ab intestat" de la femme Kabyle en Grande Kabylie.

Vigier, René. January 1932 (has links)
Thèse. Droit. Paris. 1932.

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