Global ETD Search

321	Development of molecular markers for marker assisted selection for seed quality traits in oilseed rape Rahman, Md. Mukhlesur 28 September 2007 (has links) Molecular markers for seed quality traits including erucic acid content genes, seed coat color genes in Brassica napus and seed coat color genes in B. rapa were developed. A single base change in the Bn-FAE1.1 gene in the A genome and a two-base deletion in the Bn-FAE1.2 gene in the C genome produce the nearly zero content of erucic acid observed in canola. The single base change was detected as single nucleotide polymorphic (SNP) marker with an ABI SNaPshot kit. A multiplexing primer set was designed by adding a polyT to the 5´ primer end to increase SNP detection throughput through sample pooling. The two-base deletion in the C genome gene was detected as a sequence characterized amplified region (SCAR) marker in an ABI 3100 Genetic analyzer. To increase the throughput, one genome specific primer was labeled with four fluorescence dyes and combined with 20 different primers to produce PCR products with different fragment sizes. These multiplexed high throughput molecular markers have been successfully implemented in our canola/rapeseed breeding programs. Trigenic inheritance was observed for seed coat color in B. napus. Three Sequenced Related Amplified Polymorphism (SRAP) markers very closely linked to the three different seed coat color genes were developed. Chromosome-walking technology was used to convert the SRAP marker into a SCAR marker and a SNP marker. Subsequently, the first seed coat color gene (Bn1) marker was converted into a SCAR marker, and the second seed coat color gene (Bn2) marker was converted into a SNP marker. Digenic inheritance was observed for seed coat color genes in B. rapa. A SRAP marker was identified as being tightly linked to the major seed coat color gene (Br1). The SRAP marker was sequenced and extended sequences were obtained using chromosome-walking technology. The flanking sequences of the SRAP marker contained 24 SNPs and a 12-bp deletion position that allowed the marker to be converted into a co-dominant SNP marker and a co-dominant SCAR marker, respectively. The SCAR marker was detected in the ABI 3100 genetic analyzer with four fluorescently labeled M13 primers integrated with different SCAR primers, which permitted pooling of PCR samples for high throughput detection. Molecular marker erucic acid genes seed coat color genes Brassica napus Brassica rapa SRAP, SNP, SCAR
322	Genes to remember : imaging genetics of hippocampus-based memory functions Kauppi, Karolina January 2013 (has links) In the field of imaging genetics, brain function and structure are used as intermediate phenotypes between genes and cognition/diseases to validate and extend findings from behavioral genetics. In this thesis, three of the strongest candidate genes for episodic memory, KIBRA, BDNF, and APOE, were examined in relation to memory performance and hippocampal/parahippocampal fMRI blood-oxygen level-dependent (BOLD) signal. A common T allele in the KIBRA gene was previously associated with superior memory, and increased hippocampal activation was observed in noncarriers of the T allele which was interpreted as reflecting compensatory recruitment. The results from the first study revealed that both memory performance and hippocampal activation at retrieval was higher in T allele carriers (study I). The BDNF 66Met and APOE ε4 alleles have previously been associated with poorer memory performance, but their relation to brain activation has been inconsistent with reports of both increased and decreased regional brain activation relative to noncarriers. Here, decreased hippocampal/parahippocampal activation was observed in carriers of BDNF 66Met (study II) as well as APOE ε4 (study III) during memory encoding. In addition, there was an additive gene-gene effect of APOE and BDNF on hippocampal and parahippocampal activation (study III). Collectively, the results from these studies on KIBRA, BDNF, and APOE converge on higher medial temporal lobe activation for carriers of a high-memory associated allele, relative to carriers of a low-memory associated allele. In addition, the observed additive effect of APOE and BDNF demonstrate that a larger amount of variance in BOLD signal change can be explained by considering the combined effect of more than one genetic polymorphism. These imaging genetics findings support and extend previous knowledge from behavioral genetics on the role of these memory-related genes. Imaging genetics fMRI Episodic memory SNP KIBRA BDNF APOE Hippocampus Parahippocampus
323	Sequencing and molecular characterization of variations in the glycine N-acyltransferase gene / Chanell Herfurth Herfurth, Chanell January 2014 (has links) Humans are continuously challenged by harmful endogenous and xenobiotic substances. Detoxification is the ability to neutralise and remove these substances from the body. Glycine N-acyltransferase, EC 2.3.1.13 (GLYAT) is a key enzyme in detoxification. GLYAT catalyses an amino acid (glycine) conjugation reaction in phase II of detoxification. It is expected that, similar to what has been observed in the Cytochrome P450 enzymes, variations within the GLYAT gene may lead to altered enzyme activity that may affect the efficacy of detoxification. The aim of this study was to identify genetic variations within the GLYAT gene of a cohort of individuals whose GLYAT activity has been biochemically characterized. Biochemical profiles of phase I and II detoxification of a number of individuals was screened to select those with possible aberrant GLYAT activity. Eighteen selected individuals agreed to participate in the study. The 23.21 kb GLYAT gene of the participants was amplified in four fragments and sent for pyrosequencing (Roche GS FLX titanium) at Inqaba Biotec. The results were analysed with the Lasergene software package from DNAStar (Madison, Wisconsin, USA). A total of 94 variations were identified from the Next Generation Sequencing data. Of these three found in the exons were known variations and four variations located in the exons were novel. A total of 62 known and 25 novel variations were identified in the introns of the GLYAT gene. Sanger sequencing verified 70.29% (68 in total) of the variation, which included 12 novel variations, of which one is located in exon six. Real-time quantitative PCR (qPCR) experiments were conducted and the data analysed using CopyCaller software to identify copy number variations within the cohort. It was found that participant 17 may have multiple copies of parts of the 3-terminal end of the gene (exons five and six), which might have an effect on GLYAT activity. Variations could possibly affect GLYAT activity, but the data was inconclusive and must be confirmed. Some of the variations could possibly affect GLYAT activity, but no correlation could be made between the variations identified during this study and the cohort’s detoxification ability. Further studies needs to be conducted to establish the effect of the variations in combination with one another on GLYAT activity. If some of these variations affect GLYAT activity such data might shed some light on variations observed between the glycine conjugation ability of individuals. Such information could eventually be of value in treatment of inborn errors of metabolism. / MSc (Biochemistry), North-West University, Potchefstroom Campus, 2014 GLYAT Detoxification Genetic variations SNP Copy number variance Detoksifikasie Genetiese variasies Kopiegetal afwyking
324	Development of molecular markers for marker assisted selection for seed quality traits in oilseed rape Rahman, Md. Mukhlesur 28 September 2007 (has links) Molecular markers for seed quality traits including erucic acid content genes, seed coat color genes in Brassica napus and seed coat color genes in B. rapa were developed. A single base change in the Bn-FAE1.1 gene in the A genome and a two-base deletion in the Bn-FAE1.2 gene in the C genome produce the nearly zero content of erucic acid observed in canola. The single base change was detected as single nucleotide polymorphic (SNP) marker with an ABI SNaPshot kit. A multiplexing primer set was designed by adding a polyT to the 5´ primer end to increase SNP detection throughput through sample pooling. The two-base deletion in the C genome gene was detected as a sequence characterized amplified region (SCAR) marker in an ABI 3100 Genetic analyzer. To increase the throughput, one genome specific primer was labeled with four fluorescence dyes and combined with 20 different primers to produce PCR products with different fragment sizes. These multiplexed high throughput molecular markers have been successfully implemented in our canola/rapeseed breeding programs. Trigenic inheritance was observed for seed coat color in B. napus. Three Sequenced Related Amplified Polymorphism (SRAP) markers very closely linked to the three different seed coat color genes were developed. Chromosome-walking technology was used to convert the SRAP marker into a SCAR marker and a SNP marker. Subsequently, the first seed coat color gene (Bn1) marker was converted into a SCAR marker, and the second seed coat color gene (Bn2) marker was converted into a SNP marker. Digenic inheritance was observed for seed coat color genes in B. rapa. A SRAP marker was identified as being tightly linked to the major seed coat color gene (Br1). The SRAP marker was sequenced and extended sequences were obtained using chromosome-walking technology. The flanking sequences of the SRAP marker contained 24 SNPs and a 12-bp deletion position that allowed the marker to be converted into a co-dominant SNP marker and a co-dominant SCAR marker, respectively. The SCAR marker was detected in the ABI 3100 genetic analyzer with four fluorescently labeled M13 primers integrated with different SCAR primers, which permitted pooling of PCR samples for high throughput detection. Molecular marker erucic acid genes seed coat color genes Brassica napus Brassica rapa SRAP, SNP, SCAR
325	Genotype-phenotype studies in brain tumors Ghasimi, Soma January 2013 (has links) Meningioma and glioma are the most common primary brain tumors, but their etiologies are largely unknown. Although meningioma is usually benign, their intracranial location can lead to lethal consequences, and despite progress in surgery, radiotherapy, and chemotherapy the prognosis for patients with glioma remains poor. The only well-established environmental risk factor for meningioma and glioma is ionizing radiation. Evidence for inherited predisposition to meningioma and glioma is provided by a number of rare inherited syndromes where collectively these diseases account for only a small proportion of the twofold increased risk of brain tumors seen in first-degree relatives for meningioma and glioma patients. It is very possible that much of the excess familial risk is a consequence of co-inheritance of multiple low-risk genetic variations. With this in mind, the aims of the studies in this thesis were to discover genetic risk variants influencing the probability of acquiring the disease and to identify the association between risk variants on the tumor phenotype. To identify genetic variants influencing meningioma risk, a comprehensive tagging of the selected genes in a case-control study was performed. We identified nine risk variants in EGF, ERBB2, and LRIG2 genes. However, these findings could not be confirmed in another larger independent dataset. In addition, the study identified a correlation between LRIG2 protein expression and ER status when analyzed with different parameters. In a separate study with a larger sample of meningioma patients, the same correlation between LRIG2 and ER status was observed. To explore the potential association between reported germline risk variants and somatic genetic events, matched tumor and blood samples from glioma patients were analyzed by SNP array. The results identified correlations between EGFR gene variants and somatic aberrations within the EGFR locus and CDKN2A/B locus. To further study the relationship between germline risk variants and tumor phenotype, the same patient material was used and analyzed by three different techniques: SNP array, IHC, and FISH. The results revealed EGFR risk variants effecting copy number variation of the EGFR gene and the expression of the IDH1 and p53. Further comparison between different techniques such as SNP array and FISH analysis revealed the difficulty in achieving consistent results with different techniques. To summarize, the glioma studies show a link between genotype and phenotype where genetic risk variants in the EGFR gene were found to be associated with specific somatic aberrations. These associations are biologically interesting because EGFR is involved in multiple cellular processes. Additional studies of the direct functional role of these observations need to be conducted to elucidate the molecular mechanisms underlying the identified association between germline gene variants and somatic aberrations. For the meningioma studies, no significant risk variants influencing the disease were found but a correlation between LRIG2 and ER status was observed. This result suggests a potential role for the LRIG protein in the pathogenesis of meningioma, but more studies are needed to confirm this hypothesizes. / <p>Cancer research foundation in northern Sweden and Lions cancer research foundation at Umeå university</p> Glioma Meningioma SNP IHC FISH LRIG2 EGF EGFR ERBB2 ER CDKN2A/B IDH1
326	Leptino geno C3469T polimorfizmo įtaka kiaulių produktyvumo požymiams / Influence of leptin gene C3469T polymorphism on production traits in pigs Mineikytė, Ieva 18 June 2014 (has links) Darbo autorė: Ieva Mineikytė Darbo vadovė: Doc. Dr. Nijolė Pečiulaitienė Magistro baigiamojo darbo moksliniai tyrimai atlikti Lietuvos sveikatos mokslų universitete, Veterinarijos akademijoje, Veterinarijos fakultete, Biologinių sistemų ir genetinių tyrimų institute, 2012 – 2014 metais. Darbo apimtis: 49 puslapiai. Darbe pateikta: 5 lentelės, 5 paveikslai. Darbo tikslas: Įvertinti Leptino geno C3469T polimorfizmo įtaką produktyvumo požymiams tiriamosiose kiaulių mišrūnų veislėse. Darbo uždaviniai: 1. Nustatyti tiriamoje kiaulių populiacijoje esančius Leptino geno C3469T polimorfizmo alelių dažnius. 2. Nustatyti tiriamoje kiaulių populiacijoje esančius Leptino geno C3469T polimorfizmo genotipų dažnius. 3. Įvertinti Leptino geno C3469T polimorfizmo įtaką kiaulių produktyvumo požymiams. Metodikos: Iš kiaulių šerių mėginių išskirta genominė DNR ir padauginta PGR metodu, o gauti PGR produktai inkubuoti su HinfI restriktaze, kuri esant C3469T VNP mutacijai, specifiškai skelia PGR produktą. Genotipai nustatyti atlikus PGR-RFLP mėginių elektroforezę agarozės gelyje ir įvertinus specifinį ruoželių išsidėstymą UV šviesoje. Išvados: Ištyrus LEP geno C3469T polimorfizmo alelių ir genotipų įvairovę tirtoje kiaulių populiacijoje, nustatyti visi trys genotipai ir jų dažniai: TT dažnis 0,900, TC dažnis 0,088, CC genotipo dažnis 0,013. Taip pat T ir C alelių dažniai, atitinkamai 0,944 ir 0,056. Nagrinėjant kiaulių mišrūnų veisles atskirai, pastebima panaši alelių dažnių tendencija... [toliau žr. visą tekstą] / The author: Ieva Mineikytė Supervisor: Doc. Dr. Nijolė Pečiulaitienė The research of master thesis was performed at Lithuanian university of health sciences, Veterinary academy, Faculty of Veterinary medicine, Institute of Biology systems and genetics, during the period of 2012 – 2014. Structure: 49 pages. There are 5 tables and 5 figures included. The aim: To evaluate influence of leptin gene C3469T polymorphism on production traits in tested pig hybrids. Tasks: 1. To determine allele frequencies of leptin gene C3469T polymorphism in tested pig population. 2. To determine genotype frequencies of leptin gene C3469T polymorphism in tested pig population. 3. To evaluate influence of leptin gene C3469T polymorphism on production traits. Methods applied: DNA was extracted from pig bristle samples, fallowing PCR amplification. The aplicons were incubated with HinfI restrictase, which cuts DNA at specific site if C3469T SNP mutation is present. The genotypes were determined after performing PCR-RFLP electrophoresis in agarose gel and evaluating band pattern in UV light. Results: While examining the diversity of alleles and genotypes in tested pig population, three genotypes were determined and their frequencies estimated: TT with frequency 0,900, TC with frequency 0,088 and CC with frequency 0,013. Also frequencies of alleles T and C were estimated, 0,944 and 0,056 respectively. The same trend was observed in every pig hybrid breed separately. The influence of genotypes was... [to full text] Public Health LEP genas C3469T Polimorfizmas VNP Produktyvumo požymiai LEP gene C3469T Polymorphism SNP Production traits
327	Association analyses of SNPs in candidate genes with body fat deposition and carcass merit traits in beef cattle Islam, Khandker Khaldun 11 1900 (has links) A candidate gene approach was used to identify single nucleotide polymorphisms (SNPs) and their associations with body fat deposition and carcass merit traits in beef cattle. In total, 37 SNPs from 9 candidate genes have been genotyped on 463 hybrid, 206 Angus and 187 Charolais steers for association analyses with 10 different fat deposition and carcass merit traits. In single SNP analyses, 28 SNPs of 9 genes have been found significantly (P<0.05) associated with different traits in the cattle populations. Gene-specific linkage disequilibrium assessment of SNPs revealed the existence of haplotype blocks within 4 genes. Haplotype analyses have identified 31 haplotypes of 6 genes having significant associations (P<0.05) with different fat deposition and carcass merit traits in the cattle populations. These findings will provide insight into the genetic mechanism regulating body fat deposition in beef cattle and will assist the beef industry to improve beef quality through marker assisted selection. / Animal Science Association analyses Single nucleotide polymorphism SNP Candidate gene Body fat deposition Carcass trait Beef cattle
328	The applications of multi-component nucleic acid enzymes (MNAzymes) Suwandi, Ronald, Biotechnology & Biomolecular Sciences, Faculty of Science, UNSW January 2009 (has links) The emergence of MNAzymes (Multi-component nucleic acid enzymes) provides a new approach for detection of target analytes in various applications. In this thesis, three novel MNAzyme-based methodologies were developed to expand the range of the applications of MNAzymes. MNAzymes can be coupled with DNA or RNA ligands called aptamers to generate an apta-MNAzyme system, which can be used for the detection of non-nucleic target analytes such as small molecules and proteins. Direct detection using apta-MNAzyme system is performed in a format, which was isothermal, fluorescent, rapid, and requires no protein enzymes. Apta-MNAzymes can be coupled with a signal amplification cascade to increase the sensitivity of the reaction. Another MNAzyme-based methodology termed truncated MNAzyme arm system was developed to discriminate the presence of a single base mismatch of two closely related sequences. The system employs a partzyme with a truncated sensor arm and a stabiliser oligonucleotide that binds adjacently to the truncated sensor arm to stabilise the active MNAzyme structure. Truncated MNAzyme real-time PCR system is capable of discriminating the presence of a single base mismatch in a target DNA with high specificity and sensitivity (down to approximately 10 gene copies). The generic nature of the system enables simultaneous detection of three SNP targets in a multiplex format. MNAzymes was also investigated with various strategies to discriminate DNA sequences that are either methylated or unmethylated. In this thesis, bisulphite-treated DNA samples present in as low as 0.032 % of methylated DNA in a background of unmethylated DNA were discriminated using MNAzyme real-time methylation specific PCR (MSP) system. Furthermore, the presence of 5-methylcytosines in a target sequence increases the melting temperature of the duplex DNA. This was exploited further to directly discriminate DNA methylation status of target sequences using the truncated MNAzyme arm system without the need for bisulphite modification. Findings in this thesis have broadened the scope of MNAzymes as versatile tools for many possible applications and flexible alternative to the current technologies. Aptamers. MNAzymes. DNAzymes. SNP. Real-time PCR. Methylation. Nucleic acids. Enzymes.
329	Modellierung von Cytochrom P450-Monooxygenasen Tatzel, Stephan. January 2008 (has links) Stuttgart, Univ., Diss., 2008.
330	Analysis of complex genetic traits in population cohorts using high-throughput genotyping technology / Dahlgren, Andreas, January 2007 (has links) Diss. (sammanfattning) Uppsala : Uppsala universitet, 2007. / Härtill 5 uppsatser.

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