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1	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. / October 2007 Molecular marker erucic acid genes seed coat color genes Brassica napus Brassica rapa SRAP, SNP, SCAR
2	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
3	Innovative approaches to assessing seed quality in Brassicas Larkin, Jodi 02 April 2012 (has links) Brassica napus is grown as an edible oil (canola) and an industrial oil (HEAR). Its fatty acid profile and chlorophyll concentration affect the quality. It is important to develop accurate and efficient methods to evaluate these traits. The first objective of this study was to improve the single nucleotide polymorphism (SNP) and sequence characterized amplified region (SCAR) molecular markers for erucic acid genotypes in the Bn-FAE1.1 and Bn-FAE1.2 genes in the A and C genomes in Brassica napus originally developed by Rahman et al. (2008). When put into practice, the error rate was unacceptably high. With the modifications that were made to the protocols, the overall accuracy remained relatively consistent indicating that further improvements are still required. The second objective was to develop a near infrared reflectance (NIR) based calibration equation for chlorophyll concentration in whole Brassica napus seeds. In this case, an equation was successfully created. Brassica napus chlorophyll concentration erucic acid genes near infrared reflectance spectroscopy molecular markers
4	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
5	Innovative approaches to assessing seed quality in Brassicas Larkin, Jodi 02 April 2012 (has links) Brassica napus is grown as an edible oil (canola) and an industrial oil (HEAR). Its fatty acid profile and chlorophyll concentration affect the quality. It is important to develop accurate and efficient methods to evaluate these traits. The first objective of this study was to improve the single nucleotide polymorphism (SNP) and sequence characterized amplified region (SCAR) molecular markers for erucic acid genotypes in the Bn-FAE1.1 and Bn-FAE1.2 genes in the A and C genomes in Brassica napus originally developed by Rahman et al. (2008). When put into practice, the error rate was unacceptably high. With the modifications that were made to the protocols, the overall accuracy remained relatively consistent indicating that further improvements are still required. The second objective was to develop a near infrared reflectance (NIR) based calibration equation for chlorophyll concentration in whole Brassica napus seeds. In this case, an equation was successfully created. Brassica napus chlorophyll concentration erucic acid genes near infrared reflectance spectroscopy molecular markers
6	Increase of seed oil content in winter oilseed rape (Brassica napus L.) by using Chinese genetic resources Behnke, Nina 18 February 2016 (has links) No description available. 630 Brassica napus seed oil content erucic acid protein content genetic resources Land- und Forstwirtschaft (PPN621302791)
7	Increasing erucic acid content in the seed oil of rapeseed (Brassica napus L.) by combining selection for natural variation and transgenic approaches Nath, Ujjal Kumar 24 January 2008 (has links) No description available. 630 Landwirtschaft, Veterinärmedizin YEU 600 Ölpflanzen Agricultural Sciences Raps Ölqualität Erucasäure rapeseed oil quality erucic acid 48.58 Pflanzenzüchtung
8	Studien zur Beeinflussung Bindegewebe-abbauender Proteasen durch Basidiomyceten-Extrakte und deren Inhaltsstoffe Rennert, Beate 22 August 2006 (has links) In der vorliegenden Arbeit wurde eine Beeinflussung der Aktivität der humanen neutrophilen Elastase (EC 3.4.21.37) durch wässrige und Dichlormethan-Extrakte von 15 Basidiomyceten festgestellt. Durch aktivitätsgeleitete Fraktionierung (mehrfache SC, GC-MS) der Dichlormethan-Extrakte von Heterobasidion annosum (Fr.) Bref. und Lactarius deterrimus Grög. wurden Fraktionen freier langkettiger Fettsäuren als ein wirksames Prinzip der Elastase-Hemmung und auch der Kollagenase-Hemmung (Clostridium histolyticum Kollagenase, EC 3.4.24.3) isoliert und identifiziert. Das Screening von 17 freien langkettigen Fettsäuren zeigte, dass einfach ungesättigte Fettsäuren eine stärkere Hemmung der Elastase-Aktivität bewirkten als ihre gesättigten bzw. mehrfach ungesättigten Homologa: Ölsäure (C18:1 cis-9): IC50 5µM; Stearin-(C18:0), Linolsäure (C18:2 cis-9,12): IC50 10µM; alpha- (C18:3 cis-9,12,15), gamma-Linolensäure (C18:3 cis-6,9,12): IC50 15µM. Inhibitorisch am stärksten wirksam war Erucasäur! e (C22:1 cis-13): IC50 450nM. Für Kollagenase wurde hingegen gezeigt, dass die gesättigten Fettsäuren eine erheblich stärkere Hemmaktivität als ihre ungesättigten Homologa aufwiesen. Aktivste Verbindungen waren Palmitin- (C16:0), Heptadecan- (C17:0), Stearin- und Nonadecansäure (C19:0) mit IC50-Werten von 20-45µM. Die Untersuchung von 9 ausgewählten Fettsäuren bezüglich der Hemmung der Aktivität der MMP-9 (EC 3.4.24.35) zeigte als aktivste Verbindungen Palmitolein- (16:1 cis-9), alpha- und gamma-Linolensäure. Die wirksamen Konzentrationen (250µM) lagen jedoch sehr hoch. Zytotoxizitätsuntersuchungen (ECV-304) der Extrakte von H. annosum und L. deterrimus sowie der freien Fettsäuren schlossen sich ebenso wie Untersuchungen zur Proteaseaktivität der Zelllinien ECV-304, MCF-7 und MDA-MB 231 an. Die Proteaseaktivität der Zellen nahm in der Reihenfolge ECV-304 < MCF-7 < MDA-MB 231 zu. Die einzig untersuchte Fettsäure gamma-Linolensäure zeigte keine reproduzierbare Beeinflussung d! er Proteaseaktivität. / In the present paper it was established that the activity of humane neutrophil elastase (EC 3.4.21.37) is affected by aqueous and dichloromethane extracts of 15 basidiomycetes. Bioassay-guided fractionation (repeated CC, GC-MS) of dichloromethane extracts of Heterobasidion annosum (Fr.) Bref. and Lactarius deterrimus Grög. led to isolation and identification of fractions of free fatty acids as one active principle of elastase inhibition as well as collagenase inhibition (Clostridium histolyticum collagenase, EC 3.4.24.3). By testing 17 free fatty acids for elastase inhibition it was shown that the inhibition rate of unsaturated acids was much higher than the rate of the saturated ones: oleic acid (C18:1 cis-9): IC50 5µM; stearic acid (C18:0), linoleic acid (C18:2 cis-9,12): IC50 10µM; linolenic acid (C18:3 cis-9,12,15), gamma-linolenic acid (C18:3 cis-6,9,12): IC50 15µM. The highly active erucic acid with an IC50 value of 450nM is remarkable. As a result for collagenase we can assume that the saturated fatty acids were more potent than the unsaturated ones. Palmitic acid (C16:0), heptadecanoic acid (C17:0), stearic acid, and nonadecanoic acid (C19:0) were the most potent fatty acids with IC50 values of 20-45µM. 9 selected fatty acids were investigated for their ability to inhibit the activity of MMP-9 (EC 3.4.24.35). Palmitoleic acid (16:1 cis-9), linolenic acid, and gamma-linolenic acid were the most potent fatty acids but their inhibiting concentrations were very high (250µM). Investigation of cytotoxicity of the extracts of H. annosum, L. deterrimus, and free fatty acids as well as investigation of protease activity of ECV-304, MCF-7, and MDA-MB 231 cells followed. Protease activity of cells increased in the following manner: ECV-304 < MCF-7 < MDA-MB 231. The only investigated fatty acid gamma-linolenic acid did not influence protease activity reproducibly. humane neutrophile Elastase Clostridium histolyticum Kollagenase MMP-9 Basidiomyceten freie Fettsäuren Erucasäure humane neutrophil elastase Clostridium histolyticum collagenase MMP-9 basidiomycetes free fatty acids erucic acid 570 Biowissenschaften, Biologie 32 Biologie YC 7404 WD 5065 WD 5400 ddc:570

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