Arabidopsis thaliana mutants impaired in storage fatty acid breakdown

Lange, Peter R.

January 2001

No description available.

580

Seeds; Seedlings; Triacyglycerol

Oil-Rich Nonseed Tissues for Enhancing Plant Oil Production

Rahman, Mahbubur, Divi, Uday K., Liu, Qing, Ahou, Xue-Rong, Singh, Surinder, Kilaru, Aruna

01 October 2016

Plants are being engineered for enhanced ethanol production; however, challenges remain in meeting the demand for bioenergy that is expected to double by 2030. Therefore, targeting carbon accumulation in the form of energy-dense oils in nonseed biomass is considered a superior alternative for bioenergy production. Although oils in the form of triacylglycerols (TAGs) are typically stored in seed tissues, various nonseed tissues such as mesocarp, tubers, stems and leaves also serve as storage tissues for TAG accumulation in plants. Moreover, the biomass of these tissues is generally far greater than seed biomass. In order to increase oil content in nonseed biomass for bioenergy and nutritional purposes, it is important to understand how such plants naturally accumulate TAG in nonseed tissues. Several molecular approaches, including transcriptomics, have been undertaken to elucidate the metabolic and regulatory mechanisms of carbon partitioning in oil-rich nonseed tissues. Such studies are expected to generate important transgenic tools that can be used to alter fatty acid metabolism and engineer plants to produce oil-rich biomass successfully. This review focuses on the potential of different oil-rich nonseed tissues and the strategies developed for enhancing oil biomass.

bioenergy

biomass

fatty acid

mesocarp

oil biosynthesis

tallow

triacyglycerol

Biological Sciences

Biology

Comparative Transcriptome Analysis Reveals an Efficient Mechanism for Α-Linolenic Acid Synthesis in Tree Peony Seeds

Zhang, Qingyu, Yu, Rui, Sun, Daoyang, Rahman, Mahbubur, Xie, Lihang, Hu, Jiayuan, He, Lixia, Kilaru, Aruna, Niu, Lixin, Zhang, Yanlong

24 December 2018

Tree peony (Paeonia section Moutan DC.) species are woody oil crops with high unsaturated fatty acid content, including α-linolenic acid (ALA/18:3; >40% of the total fatty acid). Comparative transcriptome analyses were carried out to uncover the underlying mechanisms responsible for high and low ALA content in the developing seeds of P. rockii and P. lutea, respectively. Expression analysis of acyl lipid metabolism genes revealed upregulation of select genes involved in plastidial fatty acid synthesis, acyl editing, desaturation, and triacylglycerol assembly in seeds of P. rockiirelative to P. lutea. Also, in association with ALA content in seeds, transcript levels for fatty acid desaturases (SAD, FAD2, and FAD3), which encode enzymes necessary for polyunsaturated fatty acid synthesis, were higher in P. rockii compared to P. lutea. Furthermore, the overexpression of PrFAD2 and PrFAD3 in Arabidopsis increased linoleic and ALA content, respectively, and modulated the final ratio 18:2/18:3 in the seed oil. In conclusion, we identified the key steps and validated the necessary desaturases that contribute to efficient ALA synthesis in a woody oil crop. Together, these results will aid to increase essential fatty acid content in seeds of tree peonies and other crops of agronomic interest.

a-linolenic acid

essential fatty acids

fatty acid

transcriptome

tree peony

triacyglycerol

Biological Sciences

Biology

EFEITO DO BAGAÇO DE MAÇÃ SOBRE A GLICEMIA, LIPIDEMIA , PEROXIDAÇÃO DE LIPIDEOS E PESO CORPORAL EM RATOS OBESOS

Momm, Audie Nathaniel

24 August 2007

Made available in DSpace on 2017-07-21T18:53:06Z (GMT). No. of bitstreams: 1 AUDIE.pdf: 534694 bytes, checksum: 06f82ed2cb6f94acac5cb8e101bb6e1b (MD5) Previous issue date: 2007-08-24 / Brazilian apple prodution and processing have been increasing inthe last few years and a novel agroindustrial residue arose plain with bioactive compounds like polyphenols, sugars and dietary fibers. Special pomace utilization able to provide economical advantages to the industrial sector. increasing profit values in de food and pharmaceutical products and environment protection seems to be an interesting aproach. This work has been done aiming to evaluate the interaction of the dry apple pomace with the glycemic and lipidemic level, lipid peroxidation rate and the weight of the obese experimental animals Wistar ( Rattus norvegicus). Sixty four animals have been used, in 8 sets in experimentals design comprehending two essays: the firts was the promotion of obesity (120days) and the second treatment (30 days), with dietary meal containing three levels of complementation in the diets wits dry apple pomace (5%, 15% e 25%) . In the first experimental period the supplementation in the diets with dry apple pomace promoted the decreasing of body weight gain, with a tendency to decrease the fatty mass in a non dose dependent. The supplementation of dry apple pomace with 15% and 25%, to the feeding of the experimental animal promoted less food and energetic consumption than with 5%. In what concerns to the biochemical features the dry apple pomace did not interfered in glycemic level showing a tendency to reduce the lipidemic level triacyglycerol and cholesterol) more effectively with 15% and did not effected the lipidic peroxidative rate evaluated by the effectively with 15% and did not effected the lipidic peroxidative rate evaluated by the content of thiobarbituric acid reactive substances reactive in the blood of the experimental animals. / O aumento da produção e processamento de maçãs no Brasil impulsiona estudos relativos à utilização do bagaço, resíduo rico em compostos bioativos, especialmente compostos fenólicos, açucares e fibras. Usos alternativos do bagaço, que possam traduzir em vantagens econômicas para as indústrias, agregando valores em produtos alimentícios, farma~cêuticos e ambientais passam a ser tornar interessantes. Este trabalho foi conduzido com o objetivo de averiguar a interação do bagaço desidrato de maçã com glicemia, a lipidemia, a taxa de peroxidação de lipídeos e a variação de peso corporal em ratos Wistar obesos (Rattus norvegicus). Foram utilizados 64 animais, distribuidos em 8 grupos, com delineamento experimental que compreendeu dois períodos: um de indução à obesidade (120 dias) e outro de tratamento ( 30 dias) com dietas contendo três níveis de suplementação com bagaço de maçã (5%, 15% e 25%). No primeiro período experimental, a variação de peso corporal e ganho de peso entre animais evidenciaram um comportamento bimodal, com respostas diferenciadas dentro de um mesmo grupo. No segundo período experimental, a suplentação de bagaço de maçã às dietas reduziu o ganho de peso corporal dos animais, observando-se também uma tendência de redução de massa gorda, não dose-dependente. A suplementação de bagaço de maçã, com 15% e 25%, à dieta dos ratos promoveu menor consumo alimentar e calórico do que com 5% . Em relação aos parâmetros bioquimicos avaliados, a adição de bagaço de maçã não interferiu na glicemia dos animais dos diferentes grupos, mostrou um tendência de redução da lipidemia ( tricilgliceróis e colesterol total ) mais efetiva com 15% e não afetou a taxa de peroxidação lipídica, avaliada pela concentração das substâncias reativas ao ácido tiobarbitúrico no soro dos animais.

bagaço de maçã

obesidade

glicemia

colesterol

triacilglicerol

apple pomade

obesity

glycemia

cholesterol

triacyglycerol

L’impact d’une diète néonatale déficiente en nutriments essentiels à la défense antioxydante sur le métabolisme énergétique à long terme

Turcot, Valérie

08 1900

Les prématurés subissent un stress oxydant qui résulte d’une défense antioxydante faible et/ou d’une charge oxydante. Des données suggèrent qu’un stress oxydant peut affecter le métabolisme énergétique et mener au syndrome métabolique. Hypothèse: Une faible défense antioxydante tôt dans la vie est suffisante pour affecter le métabolisme énergétique à long terme. Méthodes: Quatre groupes de cobayes (n=21) ont reçu entre leurs 3e et 7e jours de vie une diète standard (C-1sem, C-14sem) ou une diète déficiente (DC-1sem, DC-14sem). À 7 jours, les groupes C-1sem et DC-1sem ont été sacrifiés, le plasma et le foie collectés. Les groupes C-14sem et DC-14sem ont reçu la diète standard jusqu’à 14sem de vie. La glycémie et les triglycérides plasmatiques ont été mesurés à 1, 3, 11, et 13-14sem. La tolérance au glucose a été évaluée à 13sem. Les antioxydants hépatiques et les protéines régulant le métabolisme énergétique ont été analysés à 1 et 14sem. Résultats: Un statut redox oxydé du glutathion était associé avec la diète déficiente et était maintenu oxydé au moins jusqu’à 14sem (p<0.01). Les faibles niveaux de triglycérides plasmatiques et de glycémies, ainsi qu’une meilleure tolérance au glucose à 14sem (p<0.05) étaient associés avec un statut redox plus oxydé. Conclusion: Le faible taux de glutathion observé chez les prématurés a été reproduit dans notre modèle. Puisque nos données suggèrent un rôle protecteur d’un redox plus oxydé et que l’environnement redox est un important régulateur métabolique influençant le développement, il faudrait faire attention avant d’initier des traitements antioxydants agressifs chez les prématurés. / Preterm infants are faced to oxidative stress resulting from a low antioxidant defence and/or a high oxidant load. Datas suggest that an oxidative stress may impair energy metabolism leading to metabolic syndrome development. Hypothesis: A weak antioxidant defence early in life such as observed in preterm newborns is sufficient to impair energy metabolism later in life. Methods: Four groups of guinea pigs (n=21) received between their 3rd and 7th days of life a control diet (C-1week, C-14weeks) or antioxidant deficient diet (DC-1week, DC-14weeks). At 7 day-old, 1week-groups were sacrificed for plasma and liver sampling whereas 14week-groups were fed with the control diet until 14 week-old. Blood glucose and plasma triacylglycerol were determined at 1, 3, 11 and 13-14 week-old. Glucose tolerance test was performed at 13 week-old. Hepatic antioxidant defences and key proteins regulating lipid and glucose metabolism were measured at 1 and 14 weeks. Results: The oxidized redox status of glutathione associated with the neonatal deficient diet was maintained until at least 14 week-old (p<0.01). The low plasma triacylglycerol, low blood glucose and better tolerance to glucose at 14 weeks (p<0.05) were associated with an oxidized redox status. Conclusion: The low glutathione observed in newborn preterm infants has been reproduced in our animal model. Since the oxidized redox state observed here seems to be protective against impaired energy metabolism and since the cellular redox environment is known to be an important rheostat of metabolism influencing development, it suggests being careful before adopting aggressive antioxidant treatments in preterm infants.

Cobaye

Défense antioxydante

Foie

Glycémie

Métabolisme énergétique

Nutrition néonatale

Redox du glutathion

Stress oxydant néonatal

Syndrome métabolique

Triglycéridémie

Guinea pig

Antioxidant defence

Liver

Blood glucose

Energetic metabolism

Neonatal nutrition

Redox of glutathione

Neonatal oxidative stress

Metabolic syndrome

Plasma triacyglycerol

L’impact d’une diète néonatale déficiente en nutriments essentiels à la défense antioxydante sur le métabolisme énergétique à long terme

Turcot, Valérie

08 1900

Les prématurés subissent un stress oxydant qui résulte d’une défense antioxydante faible et/ou d’une charge oxydante. Des données suggèrent qu’un stress oxydant peut affecter le métabolisme énergétique et mener au syndrome métabolique. Hypothèse: Une faible défense antioxydante tôt dans la vie est suffisante pour affecter le métabolisme énergétique à long terme. Méthodes: Quatre groupes de cobayes (n=21) ont reçu entre leurs 3e et 7e jours de vie une diète standard (C-1sem, C-14sem) ou une diète déficiente (DC-1sem, DC-14sem). À 7 jours, les groupes C-1sem et DC-1sem ont été sacrifiés, le plasma et le foie collectés. Les groupes C-14sem et DC-14sem ont reçu la diète standard jusqu’à 14sem de vie. La glycémie et les triglycérides plasmatiques ont été mesurés à 1, 3, 11, et 13-14sem. La tolérance au glucose a été évaluée à 13sem. Les antioxydants hépatiques et les protéines régulant le métabolisme énergétique ont été analysés à 1 et 14sem. Résultats: Un statut redox oxydé du glutathion était associé avec la diète déficiente et était maintenu oxydé au moins jusqu’à 14sem (p<0.01). Les faibles niveaux de triglycérides plasmatiques et de glycémies, ainsi qu’une meilleure tolérance au glucose à 14sem (p<0.05) étaient associés avec un statut redox plus oxydé. Conclusion: Le faible taux de glutathion observé chez les prématurés a été reproduit dans notre modèle. Puisque nos données suggèrent un rôle protecteur d’un redox plus oxydé et que l’environnement redox est un important régulateur métabolique influençant le développement, il faudrait faire attention avant d’initier des traitements antioxydants agressifs chez les prématurés. / Preterm infants are faced to oxidative stress resulting from a low antioxidant defence and/or a high oxidant load. Datas suggest that an oxidative stress may impair energy metabolism leading to metabolic syndrome development. Hypothesis: A weak antioxidant defence early in life such as observed in preterm newborns is sufficient to impair energy metabolism later in life. Methods: Four groups of guinea pigs (n=21) received between their 3rd and 7th days of life a control diet (C-1week, C-14weeks) or antioxidant deficient diet (DC-1week, DC-14weeks). At 7 day-old, 1week-groups were sacrificed for plasma and liver sampling whereas 14week-groups were fed with the control diet until 14 week-old. Blood glucose and plasma triacylglycerol were determined at 1, 3, 11 and 13-14 week-old. Glucose tolerance test was performed at 13 week-old. Hepatic antioxidant defences and key proteins regulating lipid and glucose metabolism were measured at 1 and 14 weeks. Results: The oxidized redox status of glutathione associated with the neonatal deficient diet was maintained until at least 14 week-old (p<0.01). The low plasma triacylglycerol, low blood glucose and better tolerance to glucose at 14 weeks (p<0.05) were associated with an oxidized redox status. Conclusion: The low glutathione observed in newborn preterm infants has been reproduced in our animal model. Since the oxidized redox state observed here seems to be protective against impaired energy metabolism and since the cellular redox environment is known to be an important rheostat of metabolism influencing development, it suggests being careful before adopting aggressive antioxidant treatments in preterm infants.

Cobaye

Défense antioxydante

Foie

Glycémie

Métabolisme énergétique

Nutrition néonatale

Redox du glutathion

Stress oxydant néonatal

Syndrome métabolique

Triglycéridémie

Guinea pig

Antioxidant defence

Liver

Blood glucose

Energetic metabolism

Neonatal nutrition

Redox of glutathione

Neonatal oxidative stress

Metabolic syndrome

Plasma triacyglycerol