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31	A study of genetic diversity and genome organization of Brassica napus using EST (expressed sequence tags) of Arabidopsis and SSR (simple sequence repeat) markers of B. napus / Pollock, Stephanie. January 2001 (has links) No description available. Rape (Plant) -- Genome mapping. Rape (Plant) -- Variation.
32	Genome studies of cereals / by Song Weining. Song, Weining, 1958- January 1992 (has links) Bibliography: leaves 93-114. / 114, [43] leaves, [30] leaves of plates : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This thesis investigates genome analysis of wheat, rye and barley. The objective is to evaluate the feasibility of using polymerase chain reaction (PCR) as a tool for studying cereal genomes. Results are compared for PCR and RFLP (restriction fragment length polymorphism) / Thesis (Ph.D.)--University of Adelaide, Dept. of Plant Science, 1994 Wheat Molecular genetics. Barley Molecular genetics. Rye Molecular genetics. Polymerase chain reaction. Genetic polymorphism. Plant genome mapping.
33	Genome studies of cereals Song, Weining, 1958- January 1992 (has links) (PDF) Bibliography: leaves 93-114. This thesis investigates genome analysis of wheat, rye and barley. The objective is to evaluate the feasibility of using polymerase chain reaction (PCR) as a tool for studying cereal genomes. Results are compared for PCR and RFLP (restriction fragment length polymorphism) Wheat Molecular genetics Barley Molecular genetics Rye Molecular genetics Polymerase chain reaction Genetic polymorphism Plant genome mapping
34	Cytogenetic and molecular genetic markers for chromosome 6R of rye linked to CCN resistance / by Christopher Taylor. Taylor, Christopher, 1966- January 1996 (has links) Includes bibliographies. / xiv, 175, [96] leaves, [17] 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 thesis reports on the generation of molecular tools for the analysis of chromosome 6R of rye and the application of these tools in structural analysis of 6RL. Results presented include physical and genetic maps of chromosome 6RL incorporating RFLP and PCR markers and CreR, the locus conferring resistance to cereal cyst nematode (CCN). The ability to detect small introgessions of rye chromatin in wheat is demonstrated. / Thesis (Ph.D.)--University of Adelaide, Dept. of Plant Science, 1997 Rye Molecular genetics. Plant chromosomes Analysis. Plant genome mapping. Molecular cloning. Rye Cytogenetics.
35	Mapping of chromosome regions associated with seed zinc accumulation in barley Sadeghzadeh, Behzad January 2008 (has links) [Truncated abstract] Zinc deficiency in crops is the most widespread micronutrient deficiency, with about 50% of the cereal-growing areas worldwide containing low levels of plant-available Zn. Zinc plays multiple key roles in different metabolic and physiological processes; its deficiency in crops reduces not only grain yield, but also the nutritional quality of grains. Insufficient micronutrient intake, particularly Zn and Fe, afflicts over 3 billion people in the world, mainly in developing countries. Increasing the amount of Zn in food crops can contribute to improving the Zn status of people. Furthermore, Zn-dense seeds have agronomic benefits, resulting in greater seedling vigour, bigger root system and higher crop yield when sowed to soils with low plant-available Zn. Enhancing nutrient content and nutritional quality of crops for human nutrition is a global challenge currently, but it was mostly ignored during the breeding process in the past. There is a significant genotypic variation for seed Zn accumulation in several crops (including barley) which could be exploited in the breeding programs to produce genotypes with higher seed Zn concentration and content. However, the progress in Zn efficiency until now has mainly relied on conventional plant breeding approaches that have had limited success. Therefore, reliable alternative methods are required. Enhancing mineral nutrition through plant biotechnology may be a sustainable and beneficial approach in developing Zn-dense seeds in the staple crops. ... This DNA band was sequenced and converted into a simple sequence-specific PCR-based marker, which was designated as SZnR1 (seed Zn-regulator1). The developed marker is very easy to score, is inexpensive to run and amenable for a large number of plant samples. The successful development of SZnR1 molecular marker linked to chromosome region associated with seed Zn concentration and content using MFLP in this study illustrates the advantage of this technique over some other DNA fingerprinting methods used for identification of molecular markers for marker-assisted selection (MAS). In conclusion, the greater Zn efficiency of Sahara over Clipper under sufficient Zn supply may be attributed to its higher uptake of Zn. It appears that soil-based pot experiments under controlled condition may offer potential improvements over field experiments in screening for seed Zn accumulation. Shoot and seed Zn concentration and content can be used to diagnose the Zn statues of barley genotypes, and may be a useful selection criterion for Zn efficiency in large populations like doubled-haploid populations aimed at developing molecular markers for Zn efficiency. Identified QTLs influencing seed Zn concentration were repeatable in the field and glasshouse conditions, suggesting their robustness across environments as well as their value in marker-assisted selection. The developed PCR-based marker SZnR1 and other molecular markers associated with the QTLs on the short and long arms of chromosome 2H have the potential to be used for marker-assisted selection in breeding for Zn-dense seed in barley. Barley -- Genetics Barley -- Nutrition Plant genome mapping Plant molecular genetics Plants -- Effect of zinc on Soils -- Zinc content Molecular marker Seed Zn accumulation Barley
36	The versatile role of homologous recombination in plant cell : repair of DNA damage, stress-directed genome evolution and foreign DNA integration Boyko, Oleksandr, University of Lethbridge. Faculty of Arts and Science January 2008 (has links) Homologous recombination represents a DNA repair pathway. Its role in a plant cell is not limited to double strand break repair. It also extends to genome evolution via rearranging of DNA sequences, and has an important application in foreign DNA integration in the plant genome. Our study demonstrated that effects exerted by stress on homologous recombination and genome stability are not restricted to the exposed generation. The progeny of plants exposed to stress exhibited elevated spontaneous homologous recombination, changes in DNA methylation and higher tolerance to stress. These heritable changes are mediated by an unknown stress-inducible epigenetic signal. Furthermore, we demonstrated that using factors that enhance homologous recombination can improve the efficiency of genetic transformation by Agrobacterium. We have developed and patented a plant growth medium enhancing homologous recombination and significantly increasing the transformation frequency. The role of several other chemicals for the improvement of transformation was also evaluated. / xxi, 246 leaves : ill. ; 29 cm. -- Dissertations, Academic Electronic dissertations Plants -- Effect of stress on Plant molecular genetics Plant genome mapping Genetic recombination -- Research Recombinant DNA DNA repair DNA damage Plants -- Adaptation

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