Understanding genomic evolution and segregation distortion in solanaceae a COSII linkage map in Nicotiana /

Walker, Paul J., Holtsford, Timothy Philip.

January 2009

The entire thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file; a non-technical public abstract appears in the public.pdf file. Title from PDF of title page (University of Missouri--Columbia, viewed on January 26, 2010) Thesis advisor: Dr. Timothy P. Holtsford. Includes bibliographical references.

The genetic structure of related recombinant lines /

Anderson, Amy D.

January 2003

Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (p. 142-144).

Detection of parent-of-origin effects and association in relation to aquantitative trait

He, Feng, 贺峰

January 2010

published_or_final_version / Statistics and Actuarial Science / Master / Master of Philosophy

Gene mapping - Statistical methods.

Genetic characterization of the acetohydroxyacid synthase (AHAS) gene responsible for imidazolinone resistance in chickpea (Cicer arietinum L.).

2013 December 1900

Weed control in chickpea (Cicer arietinum L.) is challenging because of poor crop competition ability and limited herbicide options. Development of chickpea varieties with resistance to different herbicide modes of action would be desirable. Resistance to imidazolinone (IMI) herbicides in chickpea has been previously identified, but the genetic inheritance and the mechanism were unknown. In many plant species, IMI resistance is caused by point mutation(s) in the acetohydroxyacid synthase (AHAS) gene resulting in an amino acid substitution. This changes the enzyme configuration at the herbicide binding site, preventing the herbicide attachment to the molecule. The main research objective was to genetically characterize chickpea resistance to imidazolinone herbicides. Two homologous AHAS genes, namely AHAS1 and AHAS2 sharing 80% similarity were identified in the chickpea genome. A point mutation in AHAS1 at cytosine 675 thymine 675 resulting in an amino acid substitution from alanine 205 to valine 205 confers the resistance to imidazolinone in chickpea. A KASP marker targeting the point mutation was developed and effectively predicted the herbicide response in the RIL population. This same population was used in molecular mapping where the major locus for herbicide resistance was mapped to chromosome 5. Segregation analysis demonstrated that the resistance is inherited as a single gene in a semi-dominant fashion. To study the synteny of AHAS across plant species, lentil (Lens culinaris) AHAS1 was sequenced. The same mutation that confers the resistance to imidazolinone in chickpea was also found in lentil. Phylogenetic analysis indicated independent clustering of AHAS1 and AHAS2 across pulse species. In vivo and in vitro AHAS enzyme activity analysis showed inhibition of AHAS activity in the susceptible genotype CDC Frontier over time and with the increasing imidazolinone concentrations. In contrast, the resistant genotype CDC Cory did not show AHAS inhibition under the same treatments. In summary, the simple genetic inheritance and the availability of KASP marker could aid in the development of chickpea varieties with resistance to imidazolinone herbicide.

Making sense of cDNA : automated annotation, storing in an interactive database, mapping to genomic DNA

Shmeleva, Nataliya V.

08 1900

No description available.

Genomics Automation

Genomes Data processing

Gene mapping Mathematical models

Molecular mapping of the human major histocompatibility complex

Dunham, Ian

January 1988

2. The long range DNA organisation of the class II and class III regions in eight HLA homozygous cell lines has been analysed using PFGE. Comparison of the size of the BssHII restriction fragment observed for these cell lines and five individuals possessing one to three C4 genes, shows that the organisation of the C4 genes on each chromosome can be deduced from a single PFGE experiment. Outside of the C4 and 21-OHase loci the class III region shows a highly invariant structure, with no detectable differences in the amount of DNA present. Moreover the class III region is rich in CpG-islands, one of which has been characterised, and contains at least thirteen new genes. However, in the class II region, two differences between common haplotypes have been found. The DRw52-related haplotypes have the same DNA organisation. DR2 haplotypes possess 20-30 kb more DNA in the DRB region. DRw53 haplotypes have 100-130 kb more DNA than DRw52-related haplotypes in the region containing the DRB and DQA genes.

572.8

Construction of a genetic linkage map of papaya and mapping traits of horticultural importance

Sondur, Suresh N

January 1994

Thesis (Ph. D.)--University of Hawaii at Manoa, 1994. / Includes bibliographical references (leaves [179]-196). / Microfiche. / xv, 196 leaves, bound ill. 29 cm

Gene mapping

The development of the genetic map of human chromosome 16 by linkage analysis / by Helen Kozman.

Kozman, H. M.

January 1994

Includes publications and manuscripts by the author. / Bibliography: leaves 196-215. / 1 v. : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / The goal of the human genome project addressed in this thesis, was the construction of a genetric linkage map with a resolution of between 2-5 cM by the year 1995. / Thesis (Ph.D.)--University of Adelaide, Dept. of Paediatrics, Women's and Children's Hospital, 1995

574.87328 20

Human Genome Project.

Linkage (Genetics)

Gene mapping.

Structure, hormonal regulation and chromosomal location of genes encoding barley (1-4)-B-xylan endohydrolases / by Mitali Banik.

Banik, Mitali

January 1996

Bibliography: leaves 127-166. / xvi, 166, [64] leaves, [11] leaves of plates : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This study describes the isolation, sequencing and characterization of two cDNAs encoding barley (1-4)-B-xylanase isoenzymes X-I and X-II and the gene corresponding to isoenzyme X. The results of genomic Southern blot analyses indicate that the barley (1-4)-B-xylanase gene family consists of at least 3 genes which are mapped to a single locus on the long arm of chromosome 7(5H). The cDNA is used to monitor tissue-specific expression, developmental regulation and hormonal control of the (1-4)-B-xylanase genes. / Thesis (Ph.D.)--University of Adelaide, Dept. of Plant Science, 1997

Barley Genetics.

Isoenzymes.

Xylanases.

Gene mapping.

DNA Synthesis.

Mitochondrial and Autosomal Genetic Analyses in the Australian Population

Enda Byrne

Unknown Date

The central goal of human genetics is to understand genetic differences both within and between populations and how these differences contribute to phenotypic variation. Recent advances in genotyping technologies and statistical methodology mean that we can now examine population differences at high genetic resolution, and attempt to find common variants that underlie variation in complex traits in the population. In this thesis, differences in maternal genetic ancestry in Australia were examined and a number of genetic association studies were undertaken in an attempt to map genetic variants that underlie complex traits. Abstract Before presenting the results from the five main genetic analyses, an overview is given of the history of gene-mapping in humans, the challenges this has presented, and the major discoveries from both empirical and theoretical studies that have advanced the field of human genetics to the point where hypothesis-free association testing of common variants with complex traits is now possible. The reasons why mitochondrial DNA has proved so useful in examining the history of populations, and the major findings from the field of mitochondrial population genetics are summarised. In addition, some of the major evidence of a role for mitochondrial variants in complex trait variation is presented. For the first main paper, data from 69 mitochondrial variants that tag the majority of common mitochondrial SNPs in European populations was used to test whether there is evidence for population stratification (i.e. the presence of more than one randomly mating population) in the maternal genetic line of modern Australians. By combining the genetic data with self-reported maternal ancestry data, it was shown that there are significant differences in the patterns of mitochondrial variation between groups of individuals whose maternal ancestors came from different areas of the world. Specifically, it was shown that there are significant differences between groups from different regions of Europe, with those from Eastern Europe showing large differences in SNP and haplogroup frequencies compared to the other groups. A test for assortative mating was performed by comparing whether mates in our sample shared more mitochondrial variants in common when compared to randomly drawn pairs from the population. No evidence of increased sharing was found. The second study involved testing whether common mitochondrial variants are associated with a number of physiological and biochemical traits, the majority of which are risk factors for the metabolic syndrome and type 2 diabetes. Phenotypic and genotypic data was available for just over 2,000 adolescent twins measured at three different timepoints. This is the first known mitochondrial association study to use family data, and a methodology based on a linear model was presented for performing such an association. In spite of having power to detect variants of modest effect, only viii one significant association was found between mt14365 and triacyglycerol levels in twins measured at age 12. This association was not replicated across the other age groups. The third study used the methodology developed for family-based mitochondrial association studies to test for association between mitochondrial variants and a battery of cognitive tests in twins aged 16. A previous study with a small sample size had shown an association between mitochondria and IQ, but this had never been replicated or followed-up. A total of 1,385 individuals from 665 families were included, but no statistically significant associations were found. The most strongly associated SNP was found in a gene in which variants have been shown to influence cognition in mice with a homogeneous nuclear genetic background. For the fourth study, a genome-wide association analysis was carried out of 6 self-reported traits related to the menstrual cycle. Sample sizes ranged from 468 for age at menopause to 5,743 for age at menarche. No SNPs were found to be associated at a genome-wide significant level, however, the results from previous association analyses of age at menarche and age at menopause were replicated. A number of regions for each trait that show modest evidence of association have been identified, and these should be targeted for replication in another sample. In addition, a number of genes that show strong evidence for association with each trait were identified and using a multivariate approach, a SNP in the RNA polymerase III subunit B gene was shown to potentially have a pleiotropic effect on age at menarche and duration of menses. In the final study, a genome-wide association study data for self-reported caffeine consumption and caffeine-related sleep disturbance was performed. A number of loci that potentially influence each trait were identified. The association data was combined with gene expression data from three cell types that had been treated with caffeine. A gene-based test was performed to test whether genes that were found to be consistently up- or down-regulated by caffeine treatment show increased evidence of association. There was no evidence of increased association signals in these genes. A number of the caffeine-regulated genes show strong evidence for overall association and represent good candidate genes for targeted replication in a larger sample. Finally, a synthesis of the main results of each study is presented including potential limitations of this research. This discussion includes a critical assessment of the current findings in both mitochondrial genetics and genome-wide association studies, and potential future directions in the field of gene-mapping in humans.