Global ETD Search

1	Transcriptomic and lipidomic profiling in developing seeds of two Brassicaceae species to identify key regulators associated with storage oil synthesis Aulakh, Karanbir S. January 1900 (has links) Doctor of Philosophy / Biochemistry and Molecular Biophysics Interdepartmental Program / Timothy Durrett / In plants including the members of Brassicaceae family, such as Arabidopsis thaliana and Brassica juncea, seed storage reserves, which include lipids and proteins, accumulate in seeds during development. Triacylglycerols (TAG) are the major storage lipids found in the developing seeds, petals, pollen grains, and fruits of plants. In Arabidopsis seeds, acyl-CoA: diacylglycerol acyltransferase 1 (DGAT1) is the major enzyme contributing to TAG biosynthesis. In Arabidopsis, dgat1-1 mutants retain 60-80% seed TAG content due to the involvement of phospholipid: diacylglycerol acyltransferase (PDAT1) in acyl-CoA independent TAG biosynthesis. My study focuses on the elucidation and functional characterization of novel genes involved in the regulation of the TAG biosynthesis pathway. In developing seeds of the dgat1-1 mutant, altered fatty acid composition was observed with reduced TAG content and increased polar lipid content as compared to wild type. RNA-Seq of developing Arabidopsis seeds was employed to detect differentially expressed genes in dgat1-1. An empirical analysis for differential gene expression revealed a significant number of differentially expressed genes among all developmental stages in dgat1-1. Significant changes in gene expression profile were detected in lipid-related genes such as lipases and desaturases. RT-PCR was used to confirm the differential expression of major lipid-related genes including DGAT1, PDAT, and FAD2. Lipid profiling of T-DNA insertion mutants for differentially expressed genes revealed significant changes in lipid content and composition. Mutations in a member of the α, β-hydrolase family, encoded by gene named PLIP1, resulted in smaller seed and an altered seed oil phenotype. Also, combining the dgat1-1 and plip1-2 mutations resulted in a lethal phenotype, demonstrating the important role of this enzyme in embryo development and TAG biosynthesis. To identify key components in the regulation of storage lipid biosynthesis, correlation analysis using differential transcript abundance and lipid profile during different stages of seed development from dgat1-1 and wild type lines of Arabidopsis was performed. Using clustering analysis with Pearson correlation coefficient and single linkage identified one cluster of genes which included PLIP1, FAD2, FAD3, and PDCT . Similar analysis using combined data from the neutral and polar fractions resulted in clustering of lipids containing polyunsaturated fatty acids. To investigate the reduced seed germination phenotype for mature seeds of dgat1-1 and non-germinating green seed phenotype of dgat1-1 plip1-2 lines, differential expression (DE) analysis for genes involved in hormone metabolism was performed. Upregulation of expression was observed for genes involved in promoting abscisic acid (ABA) response, which led us to specuate the role of altered hormone metabolism in delayed germination of dgat1-1 seeds. Development of allopolyploid Brassica species from its diploid progenitors involves duplication, loss, and reshuffling of genes leading to massive genetic redundancy. It leads to selective expression or newly acquired role for duplicated homeologs. Differential expression (DE) analysis for homoeologous genes from A and B subgenomes of allopolyploid B. juncea implicated in FA synthesis, acyl editing, and TAG biosynthesis and metabolism was performed. Differential expression (DE) analysis identified the transcriptional dominance of A subgenome homoeologs. Identification of these homoeologs will enable their use in breeding programs directed towards improvement of lipid content and composition in seeds. Arabidopsis Triacylglycerol DGAT PDAT RNA-Seq Lipid
2	A Novel Family Of Soluble Diacylglycerol Acyltransferases Saha, Saikat 09 1900 (has links) (PDF) No description available. Proteins Diacylglycerol Acyltransferases (DGAT) Triacylglycerol Biosynthesis Rhodotorula glutinis Biochemistry
3	Characterization of Genes involved In Development and Senescence Hopkins (nee Kaup), Marianne January 2006 (has links) Plant development is complex and highly regulated. Tens of thousands of genes have been sequenced for the model plant <em>Arabidopsis thaliana</em>, yet few have been functionally annotated and characterized. This thesis describes the expression analysis and characterization of four genes in <em>Arabidopsis</em>. Three of these belong to the eukaryotic translation initiation factor 5A (eIF5A) gene family, and the fourth encodes diacylglycerol acyltransferase 1 (DGAT1). Putative roles for these genes in the development of <em>Arabidopsis thaliana</em> are described. <br /><br /> eIF5A is the only known protein to contain the amino acid hypusine. It has been demonstrated previously that eIF5A acts as a shuttle protein, moving specific mRNAs from the nucleus to the cytoplasm for translation. In <em>Arabidopsis thaliana</em> (At), there are three isoforms of eIF5A, and it is clear from the present study that they each have a unique temporal and spatial expression pattern. AteIF5A-1 and -2 are up-regulated during natural senescence and wounding/pathogenesis, respectively, and it is proposed that they regulate the onset of programmed cell death during these events. AteIF5A-3 is up-regulated in elongating meristem of the root, and it is proposed that this isoform is involved in cell growth. <br /><br /> Over-expression of the individual <em>AteIF5A</em> isoforms <em>in planta</em> resulted in pleiotropic phenotypes. When <em>AteIF5A-1</em> or <em>AteIF5A-2</em> was over-expressed, the phenotypes observed were indicative of their putative roles in the translation of proteins required for programmed cell death. When <em>AteIF5A-3</em> was over-expressed, the phenotypes were indicative of a role for this protein in the regulation of cell and tissue elongation. <br /><br /> Lipid analysis of rosette leaves from <em>Arabidopsis thaliana</em> revealed an accumulation of triacylglycerol with advancing leaf senescence coincident with an increase in the abundance and size of plastoglobuli. The terminal step in the biosynthesis of triacylglycerol in <em>Arabidopsis</em> is catalyzed by DGAT1. When gel blots of RNA isolated from rosette leaves at various stages of development were probed with the <em>Arabidopsis</em> EST clone, E6B2T7, which has been annotated as DGAT1, a steep increase in DGAT1 transcript levels was evident in the senescing leaves coincident with the accumulation of triacylglycerol. The increase in DGAT1 transcript correlated temporally with enhanced levels of DGAT1 protein detected immunologically. Two lines of evidence indicated that the triacylglycerol of senescing leaves is synthesized in chloroplasts and sequesters fatty acids released from the catabolism of thylakoid galactolipids. First, triacylglycerol isolated from senescing leaves proved to be enriched in hexadecatrienoic acid (16:3) and linolenic acid (18:3), which are normally present in thylakoid galactolipids. Second, DGAT1 protein in senescing leaves was found to be associated with chloroplast membranes. These findings collectively indicate that DGAT1 plays a role in senescence by sequestering fatty acids de-esterified from galactolipids into triacylglycerol. Biology eIF5A Arabidopsis translation DGAT triacylglycerol development senescence plastoglobuli TUNEL lipase confocal
4	Characterization of Genes involved In Development and Senescence Hopkins (nee Kaup), Marianne January 2006 (has links) Plant development is complex and highly regulated. Tens of thousands of genes have been sequenced for the model plant <em>Arabidopsis thaliana</em>, yet few have been functionally annotated and characterized. This thesis describes the expression analysis and characterization of four genes in <em>Arabidopsis</em>. Three of these belong to the eukaryotic translation initiation factor 5A (eIF5A) gene family, and the fourth encodes diacylglycerol acyltransferase 1 (DGAT1). Putative roles for these genes in the development of <em>Arabidopsis thaliana</em> are described. <br /><br /> eIF5A is the only known protein to contain the amino acid hypusine. It has been demonstrated previously that eIF5A acts as a shuttle protein, moving specific mRNAs from the nucleus to the cytoplasm for translation. In <em>Arabidopsis thaliana</em> (At), there are three isoforms of eIF5A, and it is clear from the present study that they each have a unique temporal and spatial expression pattern. AteIF5A-1 and -2 are up-regulated during natural senescence and wounding/pathogenesis, respectively, and it is proposed that they regulate the onset of programmed cell death during these events. AteIF5A-3 is up-regulated in elongating meristem of the root, and it is proposed that this isoform is involved in cell growth. <br /><br /> Over-expression of the individual <em>AteIF5A</em> isoforms <em>in planta</em> resulted in pleiotropic phenotypes. When <em>AteIF5A-1</em> or <em>AteIF5A-2</em> was over-expressed, the phenotypes observed were indicative of their putative roles in the translation of proteins required for programmed cell death. When <em>AteIF5A-3</em> was over-expressed, the phenotypes were indicative of a role for this protein in the regulation of cell and tissue elongation. <br /><br /> Lipid analysis of rosette leaves from <em>Arabidopsis thaliana</em> revealed an accumulation of triacylglycerol with advancing leaf senescence coincident with an increase in the abundance and size of plastoglobuli. The terminal step in the biosynthesis of triacylglycerol in <em>Arabidopsis</em> is catalyzed by DGAT1. When gel blots of RNA isolated from rosette leaves at various stages of development were probed with the <em>Arabidopsis</em> EST clone, E6B2T7, which has been annotated as DGAT1, a steep increase in DGAT1 transcript levels was evident in the senescing leaves coincident with the accumulation of triacylglycerol. The increase in DGAT1 transcript correlated temporally with enhanced levels of DGAT1 protein detected immunologically. Two lines of evidence indicated that the triacylglycerol of senescing leaves is synthesized in chloroplasts and sequesters fatty acids released from the catabolism of thylakoid galactolipids. First, triacylglycerol isolated from senescing leaves proved to be enriched in hexadecatrienoic acid (16:3) and linolenic acid (18:3), which are normally present in thylakoid galactolipids. Second, DGAT1 protein in senescing leaves was found to be associated with chloroplast membranes. These findings collectively indicate that DGAT1 plays a role in senescence by sequestering fatty acids de-esterified from galactolipids into triacylglycerol. Biology eIF5A Arabidopsis translation DGAT triacylglycerol development senescence plastoglobuli TUNEL lipase confocal
5	Acetate Modulation of Fatty Acid and Triacylglycerol Synthesis-related Gene Expression in Chlamydomonas reinhardtii for Nitrogen Starvation Induced Lipid Accumulation Wu, Pei-shan 01 September 2010 (has links) Diacylglycerol acyltransferase (DGAT) is a key for the synthesis of triacylglycerol (TAG) from diacylglycerol in the unicellular green alga Chlamydomonas reinhardtii.Acetyl-CoA carboxylase (ACCase) and fatty acid synthase (FAS) are responsible for the synthesis of fatty acids. We found the TAG and fatty acid synthesis related genes in C. reinhardtii, including five DGAT (DGAT1 (JGI 184281), DGAT2 (JGI 400751), DGAT3 (JGI 285889), DGAT4 (JGI 141301), and DGAT5 (JGI 190539)), three £] ketoacyl-ACP reductase isoforms ( (JGI 153976), (JGI 153976), and (JGI 194728)) and two £] ketoacyl-ACP synthase isofroms ( (JGI 139619) and (JGI 205887)) for FAS, and ACC £\ (NCBI XP_001696945.1), ACC £] (NCBI XP_001703187.1) and ACC biotin carboxylase ( NCBI XP_001702319.1)) for ACCase in C. reinhardtii. This investigation designed the primers of the above genes to determine whether acetate influences their mRNA expression levels in cell-wall less strain CC400 in the nitrogen starvation condition. The results showed that the absence of nitrogen in the medium triggered the lipid accumulation for the strains of CC400 in the condition of 50 £gE light. DGAT3 mRNA levels were increased by nitrogen starvation. For the FAS genes, in the strain of CC400 showed no increased mRNA levels upon exposure to nitrogen starvation. The mRNA levels of ACC£\, ACC £] and ACC biotin carboxylase were more or less decreased by nitrogen starvation in CC400 strains. Thus, the responses of DGAT gene expression to acetate supplement were checked. The absence of acetate from the medium partly inhibited the nitrogen starvation induced increases in lipid and DGAT3 mRNA levels, and the mRNA levels of DGAT1 and DGAT2 in the nitrogen starvation condition. However, DGAT4 mRNA levels were significantly induced by the absence of acetate from the medium. In conclusion, the present study demonstrate that acetate is required for the nitrogen starvation induced DGAT3 gene expression (mRNA levels) and lipid accumulation in C. reinhardtii. Acetate Nile Red Lipid accumulation FAS DGAT C. reinhardtii Nitrogen starvation Gene expression ACCase
6	Identifizierung und funktionale Charakterisierung neuartiger Acyltransferasen aus Mikroalgen / Identification and functional characterization of novel acyltransferases from microalgae Wagner, Martin 20 January 2009 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Acyltransferase LPAAT LPCAT DGAT PDAT VLCPUFA VLCPUFA-Biosynthese Triacylglycerol Mikroalgen acyltransferase LPAAT LPCAT DGAT PDAT VLCPUFA biosynthesis of VLCPUFA triacylglycerol microalgae 35.70 35.78 42.13 WVE200 WR500
7	Les facteurs de variations de la lipolyse spontanée du lait de vache et mécanismes biochimiques associés / Milk spontaneous lipolysis modulating factors at zootechnical and biochemical levels in dairy cows. Vanbergue, Élise 20 January 2017 (has links) La lipolyse est une réaction enzymatique qui influence négativement les qualités organoleptiques et technologiques du lait. La lipolyse spontanée (LS) correspond à la part de la lipolyse qui dépend de l’animal et du système d’élevage. La LS résulte de l’action de la lipoprotéine lipase (LPL) et de ses cofacteurs sur les globules gras (GG). L’objectif de la thèse a été de comprendre les variations de LS à l’échelle zootechnique et à l’échelle du lait. Les vaches (VL) ont pu être classées en 2 groupes selon leur phénotype : « susceptible » et « non susceptible » à la LS, confirmant l’importance de l’effet individu. Chez les VL susceptibles, nous avons confirmé un effet de la race/génétique, de la parité, du stade physiologique, du moment de la traite, de la fréquence de traite et de l’alimentation.La LS était plus élevée dans les laits issus de la traite du soir, chez les VL Holstein, génotypées KK au locus de DGAT-1. Elle l’était également en fin de lactation et en début de lactation uniquement chez les multipares hautes productrices. Un bilan énergétique négatif pourrait expliquer ces variations. L’augmentation de la fréquence de traite, la restriction alimentaire, l’alimentation à base d’ensilage de maïs comparé à l’herbe conservée/fraîche et la supplémentation lipidique ont également augmenté la LS. Le mécanisme d’action implique probablement une inhibition de la LS par la protéose peptone 5. La membrane des GG semblerait avoir un rôle crucial dans le maintien de l’intégrité du GG, l’interaction avec la LPL et l’équilibre des cofacteurs. L’impact des facteurs zootechniq / Lipolysis is an enzymatic reaction which leads to off-flavor in milk and impairs technological properties of milk. Spontaneous lipolysis (SL) is the fraction of lipolysis which depends on cows and breeding systems. SP corresponds to the hydrolysis of milk fat in milk fat globules (MFG) by the lipoprotein lipase (LPL) and its cofactors. The aim of the PhD was to understand SL variations at both zootechnical and biochemical levels. Cows were sorted in two groups according their phenotype: “susceptible” and “non-susceptible” to SL, confirming the strong impact of the individual effect. Among cows “susceptible” to SL, we confirmed the effects of breed/genetics, parity, physiological stage, milking moment, milking frequency and feeding systems. SL was higher in evening milks of Holstein cows and of cows having the KK genotype at the DGAT-1 locus. SL was higher in late lactation and, in early lactation only for high merit multiparous cows, probably in relation to negative energy balanceAn increase in milking frequency, feeding restriction, maize silage based diets compared to fresh grass and conserved grass based diets and lipid supplementation enhanced SL. At a biochemical level, LS might be inhibited by proteose peptone 5. The MFG membrane might play an important role on MFG integrity, LPL and MFG interactions, and cofactors balance. The impact of zootechnical and biochemical factors on SL is still difficult to hierarchize Acide gras libre Génétique Dgat-1 Alimentation Fréquence de traite Lipoprotéine lipase Globule gras Qualité du lait Free fatty acids Genetics Dgat-1 Feeding systems Milking frequency Lipoprotein lipase Fat globule Milk quality
8	Comparative Mapping of QTLs Affecting Oil Content, Oil Composition, and other Agronomically Important Traits in Oat (Avena sativa L.) Hizbai, Biniam T. 01 November 2012 (has links) Groat oil content and composition are important quality traits in oats (Avena sativa L). These traits are controlled by many genes with additive effects. The chromosomal regions containing these genes, known as quantitative trait loci (QTL), can be discovered through their close association with markers. This study investigated total oil content and fatty acid components in an oat breeding population derived from a cross between high oil ('Dal') and low oil ('Exeter') parents. A genetic map consisting of 475 DArT (Diversity Array Technology) markers spanning 1271.8 cM across 40 linkage groups was constructed. QTL analysis for groat oil content and composition was conducted using grain samples grown at Aberdeen, ID in 1997. QTL analysis for multiple agronomic traits was also conducted using data collected from hill plots and field plots in Ottawa, ON in 2010. QTLs for oil content, palmitic acid (16:0), stearic acid (18:0), oleic acid (18:1), linoleic acid (18:2) and linolenic acid (18:3) were identified. Two of the QTLs associated with oil content were also associated with all of the fatty acids examined in this study, and most oil-related QTL showed similar patterns of effect on the fatty acid profile. These results suggest the presence of pleiotropic effects on oil-related traits through influences at specific nodes of the oil synthesis pathway. In addition, 12 QTL-associated markers (likely representing nine unique regions) were associated with plant height, heading date, lodging, and protein content. The results of this study will provide information for molecular breeding as well as insight into the genetic mechanisms controlling oil biosynthesis in oat. Oat (Avena sativa) DArT markers ACCase DGAT oil content fatty acid biosynthesis plant height heading date protein lodging marker assisted selection (MAS) Triacylglycerol (TAG) oil profile
9	Comparative Mapping of QTLs Affecting Oil Content, Oil Composition, and other Agronomically Important Traits in Oat (Avena sativa L.) Hizbai, Biniam T. 01 November 2012 (has links) Groat oil content and composition are important quality traits in oats (Avena sativa L). These traits are controlled by many genes with additive effects. The chromosomal regions containing these genes, known as quantitative trait loci (QTL), can be discovered through their close association with markers. This study investigated total oil content and fatty acid components in an oat breeding population derived from a cross between high oil ('Dal') and low oil ('Exeter') parents. A genetic map consisting of 475 DArT (Diversity Array Technology) markers spanning 1271.8 cM across 40 linkage groups was constructed. QTL analysis for groat oil content and composition was conducted using grain samples grown at Aberdeen, ID in 1997. QTL analysis for multiple agronomic traits was also conducted using data collected from hill plots and field plots in Ottawa, ON in 2010. QTLs for oil content, palmitic acid (16:0), stearic acid (18:0), oleic acid (18:1), linoleic acid (18:2) and linolenic acid (18:3) were identified. Two of the QTLs associated with oil content were also associated with all of the fatty acids examined in this study, and most oil-related QTL showed similar patterns of effect on the fatty acid profile. These results suggest the presence of pleiotropic effects on oil-related traits through influences at specific nodes of the oil synthesis pathway. In addition, 12 QTL-associated markers (likely representing nine unique regions) were associated with plant height, heading date, lodging, and protein content. The results of this study will provide information for molecular breeding as well as insight into the genetic mechanisms controlling oil biosynthesis in oat. Oat (Avena sativa) DArT markers ACCase DGAT oil content fatty acid biosynthesis plant height heading date protein lodging marker assisted selection (MAS) Triacylglycerol (TAG) oil profile
10	Comparative Mapping of QTLs Affecting Oil Content, Oil Composition, and other Agronomically Important Traits in Oat (Avena sativa L.) Hizbai, Biniam T. January 2012 (has links) Groat oil content and composition are important quality traits in oats (Avena sativa L). These traits are controlled by many genes with additive effects. The chromosomal regions containing these genes, known as quantitative trait loci (QTL), can be discovered through their close association with markers. This study investigated total oil content and fatty acid components in an oat breeding population derived from a cross between high oil ('Dal') and low oil ('Exeter') parents. A genetic map consisting of 475 DArT (Diversity Array Technology) markers spanning 1271.8 cM across 40 linkage groups was constructed. QTL analysis for groat oil content and composition was conducted using grain samples grown at Aberdeen, ID in 1997. QTL analysis for multiple agronomic traits was also conducted using data collected from hill plots and field plots in Ottawa, ON in 2010. QTLs for oil content, palmitic acid (16:0), stearic acid (18:0), oleic acid (18:1), linoleic acid (18:2) and linolenic acid (18:3) were identified. Two of the QTLs associated with oil content were also associated with all of the fatty acids examined in this study, and most oil-related QTL showed similar patterns of effect on the fatty acid profile. These results suggest the presence of pleiotropic effects on oil-related traits through influences at specific nodes of the oil synthesis pathway. In addition, 12 QTL-associated markers (likely representing nine unique regions) were associated with plant height, heading date, lodging, and protein content. The results of this study will provide information for molecular breeding as well as insight into the genetic mechanisms controlling oil biosynthesis in oat. Oat (Avena sativa) DArT markers ACCase DGAT oil content fatty acid biosynthesis plant height heading date protein lodging marker assisted selection (MAS) Triacylglycerol (TAG) oil profile

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