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Yun lun [lue] yi tong ru sheng zi yu Guang yun ru sheng zi bi jiaoLiu, Dezhi. January 1900 (has links)
Thesis (M.A.)--Taiwan da xue, 1968. / Reproduction of typescript.
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Application of engineered amine oxidases for the synthesis of chiral aminesGhislieri, Diego January 2013 (has links)
The development of cost-effective and sustainable catalytic methods for the production of enantiomerically pure chiral amines is a key challenge facing the pharmaceutical and fine chemical industries. There is an increasing demand for broadly applicable synthetic methods which deliver the desired amine product in high yield and enantiomeric excess (e.e.). Previously we have described the development of variants of monoamine oxidase from Aspergillus niger (MAO-N) which are able to mediate the complete conversion of racemic amines to the corresponding enantiomerically pure products in a single step. In this thesis we report a panel of MAO-N variants (D5, D9 and D11) developed in our laboratory, which are able to mediate the deracemisation of primary, secondary and tertiary amines with broad structural features. In particular, we have synthesized and subjected to deracemisation a broad range of tetrahydroisoquinolines and tetrahydro-β-carbolines checking enantioselectivity and enantiopreference of our biocatalysts. A relation between lipophilicity of the substituents and enantiopreference of the enzyme has been identified. We have also engineered a new MAO-N variant (D11) with a greatly increased substrate scope and enhanced tolerance for bulky substrates. Application of this engineered biocatalyst is highlighted by the asymmetric synthesis of the generic drugs Solifenacin and Levocetirizine as well as a number of important classes of biologically active alkaloid natural products. We also report a novel MAO-N mediated asymmetric oxidative Pictet-Spengler approach to the synthesis of (R)-harmicine.Another challenge facing the chemist in the new millennium is the development of cleaner and more efficient chemical processes. To this aim the combination of two or more catalytic systems to complete a series of cascade reactions is considered particularly appealing. We have reported a concurrent redox cascade for the deracemisation of pyrrolidines and tetrahydroisoquinolines using our monoamine oxidase-N with a biotinylated Ir-complex within streptavidin (SAV). To achieve the final goal it is necessary to shield the metal inside a host to avoid the mutual inactivation of the two catalysts. We have also described the combination of MAO-N with berberine bridge enzyme (BBE) for the synthesis of berbines (tetrahydroprotoberberines), which represent a sub-class of tetrahydro-isoquinoline alkaloids found in various plants. This bi-enzymatic cascade allows the synthesis of these structures achieving a theoretical 100% yield instead of the 50% given by the kinetic resolution using BBE itself.
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The Relation between Serotonergic Biomarkers and Behaviour : – studies on human primates, non-human primates and transgenic miceWargelius, Hanna-Linn January 2011 (has links)
Rationale: The serotonergic system is involved in the modulation of emotion and plays an important role for personality and vulnerability for psychiatric disorders. In the papers included in this thesis, we investigate three biological factors that have been studied in relation to psychiatric symptoms: Platelet monoamine oxidase B (MAO-B) activity, and variations in the MAO-A and the serotonin transporter (5HTT) genes. We also study intensity dependent auditory evoked potentials (IAEP) as an intermediate phenotype for serotonergic capacity. Platelet MAO-B has been shown to be a biological marker for the properties of monoamine systems, with low activity being associated with vulnerability for high scores of sensation seeking, monotony avoidance, and impulsiveness, as well as for susceptibility for alcoholism. Functional polymorphisms in the promoter of the genes encoding MAO-A and the serotonin transporter result in high- or low- activity alleles that have been associated with numerous psychiatric symptoms. One hypothesis for the shaping of personality is that these genotype variants have prenatal effects on the wiring of the brain. Thus, exploring how the development of the brain is affected by different prenatal serotonin levels is relevant in this context. Observations: (i) Platelet MAOB activity was associated with monoamine metabolites in cerebrospinal fluid from cisterna magna in monkeys, as well as with voluntary alcohol intake, alcohol-induced aggression, and alcohol sensitivity. (ii) The long 5HTTLPR allele was associated with increased IAEP. (iii) The functional MAOA and 5HTT polymorphisms were associated with symptoms of ADHD-related traits in a population based sample of Swedish adolescents. Associations of these candidate genes with ADHD scores were strenghtened when the platelet MAOB activity was combined with genotype. (iv) Our pilot data showed that treatment of pregnant mice with 5HTT blocking antidepressives resulted in more serotonergic cellbodies in lateral wings of dorsal raphe in the offspring, when compared to saline treatment. Conclusions: Our studies support the notion that platelet MAOB activity and IAEP are endophenotypes for monoaminergic capacity and related behaviours. The functional candidate polymorphisms in MAOA and 5HTT were linked to behaviour, however, the cause-relationship is unclear and the explanation for the associations need to be further investigated, possibly with focus on prenatal effects of the polymorphisms.
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Modelagem molecular de derivados anfetamínicos e sua atividade antidepressiva / Molecular modelling of amphetamines derivates and their antidepressant activityMaíra de Almeida Carvalho Fresqui 11 February 2010 (has links)
As anfetaminas, grupo de moléculas derivadas da anfetamina, são fármacos estimulantes do sistema nervoso central, e possuem, entre outras, atividade antidepressiva sendo sua ação baseada na inativação da enzima monoamina oxidase (MAO) a qual catalisa a desaminação oxidativa de neurotransmissores, como por exemplo, a serotonina e a noradrenalina. Esta enzima pode ser encontrada em duas diferentes isoformas, a MAO A e MAO B. Este trabalho teve como objetivo o estudo de uma série de derivados anfetamínicos os quais apresentam diferente seletividade e diferentes valores de IC50, variando desde moléculas muito potentes, pouco potentes, até inativas, através da aplicação de técnicas de química-quântica no cálculo de descritores moleculares, bem como a aplicação da mecânica clássica na descrição das interações ligante-receptor a partir de estudos de docking e simulações de dinâmica molecular. Inicialmente, foram aplicados os métodos de química-quântica AM1, HF, DFT (com os funcionais B3LYP e BP86) e MP2 para a determinação do nível de teoria mais apropriado para a otimização da geometria desta série de compostos a partir da comparação entre os resultados teóricos e de raios-X obtidos para a molécula MDMA. O método HF/6-31G(d,p) mostrou os melhores resultados. Desta forma, este método foi utilizado na obtenção das geometrias de mínimo das demais moléculas em estudo. Posteriormente, estes métodos foram utilizados no cálculo das propriedades estruturais, eletrônicas e físico-químicas, distribuição de cargas derivadas do potencial eletrostático, momento dipolar, energia total, energia dos orbitais de fronteira, GAP de energia entre o orbital ocupado de mais alta energia (HOMO) e o orbital desocupado de mais baixa energia (LUMO), dureza, potencial químico, eletronegatividade, eletronegatividade absoluta e eletrofilicidade. Assim, foram verificadas possíveis relações entre os descritores calculados e a atividade biológica determinada por Scorza et al, Hurtado-Guzmán et al and Sterling et al.esta para esta série de compostos. A análise destes resultados foi feita através da aplicação da técnica quimiométrica de análise de componentes principais para, desta forma, verificar-se o agrupamento dos compostos segundo a presença ou ausência de atividade biológica na série estudada. Entretanto, não foi possível se identificar um padrão de agrupamento para as moléculas ativas e inativas, sugerindo assim, que estes descritores não são os mais adequados para a descrição da atividade antidepressiva destes compostos. Em uma segunda etapa, foram feitos estudos de docking para seis diferentes estruturas da MAO B (1OJA, 1OJ9, 2BK3, 2V5Z, 2V60 e 2V61) e cinco da MAO A (2BXR, 2BXS, 2Z5X e 2Z5Y) todas disponíveis no banco de dados de proteína, PDB, no qual se avaliou o modo de interação do ligante no sitio ativo da proteína. Os resultados de docking para a MAO B mostraram que o tamanho do inibidor é importante para uma correta interação no sítio ativo da enzima, tendo-se em vista que o tamanho da cavidade catalítica é dependente da conformação do aminoácido isoleucina 199 e, que a conformação deste aminoácido está relacionada com o tamanho do ligante. Desta forma, a escolha correta da estrutura da proteína torna-se importante para uma correta descrição do sistema. Os resultados sugerem ainda que o átomo do ligante, no qual ocorre a reação com o receptor, deve estar a uma distância média de 3,5 Å do sitio reativo. Os resultados de MD mostraram que este aminoácido é flexível na ausência de um inibidor, onde sua conformação varia entre as chamadas formas aberta e fechada ao longo do tempo, porém, quando o estudo é feito na presença de um ligante, sua conformação perrnanece, de modo geral, constante. / The amphetamine family of drugs is central nervous system stimulant drugs. Amphetamine inhibits the monoamine oxidase enzyme (MAO, isoforms A and B) which catalyzes the oxidative deamination of the neurotransmitter, e. g., serotonin and noradrenalin. In the present study, the aim was to understand the main features of a series of amphetamines derivatives, which have different substrate selectivity and a good range of activity varying from very potent to low potent compounds, even inactive molecules by the application of quantum chemistry techniques to calculate the molecular descriptors, as well as the application of a classical mechanics to describe the ligand-receptor interactions from docking studies and molecular dynamics (MD) simulation. First of all, was applied the AM1, HF, DFT (B3LYP and BP86 functionals) and MP2 quantum chemical methods to analyze which theoretical level is more appropriated for the molecular geometry optimization of this series of compounds from a comparison between the theoretical results for MDMA molecule and it\'s X-ray data. The HF/6-3lG** calculations produced results in close agreement with X-ray crystallography. Thus, was employed the same method for the molecular optimization of the other compounds in the series under investigation. Furthermore, the same method was applied to calculate quantum-chemical parameters (atomic charges, total energy, highest occupied molecular orbital -HOMO- lowest unoccupied molecular orbital -LUMO- dipole moments, hardness, electronegativity, chemical potential, absolute electronegativity and electrophilicity). It was examined possible correlations between the theoretical parameters as calculated by us with the biological activity results as reported by Scorza et al, Hurtado-Guzman et al and Sterling et al. The chemometric technique of Principal Component Analysis for the quantum chemical parameters of these compounds was employed in order to identify some pattern of grouping between the active and inactive molecules. However, it was not possible to identify a pattern between active and inactive compounds suggesting that these above-mentioned parameters are not the best descriptors to evaluate the antidepressant activity for this group of molecules. Later, a docking study was performed for six different PDB structure of MAO B (1OJA, 1OJ9, 2BK3, 2V5Z, 2V60 e 2V61) and five different structure of MAO A (2BXR, 2BXS, 2Z5X e 2Z5Y). It was possible to analyze the ligand-receptor interaction and, according to the bind site size, the activity molecules showed a 3.5A distance between the reactive atoms of the inhibitor and of the protein. Because the conformation of the isoleucine 199 (Ile 199) amino acid can change, the chosen of the correct PDB structure is important for a write description of that interaction. The MD results for the 1OJA structure showed that the Ile199 is flexible in the absence of an inhibitor, where its conformation varies between so-called closed and open forms over the simulation time. However, when the study was done in the presence of a ligand, its conformation remains by generally constant.
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Modelagem molecular de derivados anfetamínicos e sua atividade antidepressiva / Molecular modelling of amphetamines derivates and their antidepressant activityFresqui, Maíra de Almeida Carvalho 11 February 2010 (has links)
As anfetaminas, grupo de moléculas derivadas da anfetamina, são fármacos estimulantes do sistema nervoso central, e possuem, entre outras, atividade antidepressiva sendo sua ação baseada na inativação da enzima monoamina oxidase (MAO) a qual catalisa a desaminação oxidativa de neurotransmissores, como por exemplo, a serotonina e a noradrenalina. Esta enzima pode ser encontrada em duas diferentes isoformas, a MAO A e MAO B. Este trabalho teve como objetivo o estudo de uma série de derivados anfetamínicos os quais apresentam diferente seletividade e diferentes valores de IC50, variando desde moléculas muito potentes, pouco potentes, até inativas, através da aplicação de técnicas de química-quântica no cálculo de descritores moleculares, bem como a aplicação da mecânica clássica na descrição das interações ligante-receptor a partir de estudos de docking e simulações de dinâmica molecular. Inicialmente, foram aplicados os métodos de química-quântica AM1, HF, DFT (com os funcionais B3LYP e BP86) e MP2 para a determinação do nível de teoria mais apropriado para a otimização da geometria desta série de compostos a partir da comparação entre os resultados teóricos e de raios-X obtidos para a molécula MDMA. O método HF/6-31G(d,p) mostrou os melhores resultados. Desta forma, este método foi utilizado na obtenção das geometrias de mínimo das demais moléculas em estudo. Posteriormente, estes métodos foram utilizados no cálculo das propriedades estruturais, eletrônicas e físico-químicas, distribuição de cargas derivadas do potencial eletrostático, momento dipolar, energia total, energia dos orbitais de fronteira, GAP de energia entre o orbital ocupado de mais alta energia (HOMO) e o orbital desocupado de mais baixa energia (LUMO), dureza, potencial químico, eletronegatividade, eletronegatividade absoluta e eletrofilicidade. Assim, foram verificadas possíveis relações entre os descritores calculados e a atividade biológica determinada por Scorza et al, Hurtado-Guzmán et al and Sterling et al.esta para esta série de compostos. A análise destes resultados foi feita através da aplicação da técnica quimiométrica de análise de componentes principais para, desta forma, verificar-se o agrupamento dos compostos segundo a presença ou ausência de atividade biológica na série estudada. Entretanto, não foi possível se identificar um padrão de agrupamento para as moléculas ativas e inativas, sugerindo assim, que estes descritores não são os mais adequados para a descrição da atividade antidepressiva destes compostos. Em uma segunda etapa, foram feitos estudos de docking para seis diferentes estruturas da MAO B (1OJA, 1OJ9, 2BK3, 2V5Z, 2V60 e 2V61) e cinco da MAO A (2BXR, 2BXS, 2Z5X e 2Z5Y) todas disponíveis no banco de dados de proteína, PDB, no qual se avaliou o modo de interação do ligante no sitio ativo da proteína. Os resultados de docking para a MAO B mostraram que o tamanho do inibidor é importante para uma correta interação no sítio ativo da enzima, tendo-se em vista que o tamanho da cavidade catalítica é dependente da conformação do aminoácido isoleucina 199 e, que a conformação deste aminoácido está relacionada com o tamanho do ligante. Desta forma, a escolha correta da estrutura da proteína torna-se importante para uma correta descrição do sistema. Os resultados sugerem ainda que o átomo do ligante, no qual ocorre a reação com o receptor, deve estar a uma distância média de 3,5 Å do sitio reativo. Os resultados de MD mostraram que este aminoácido é flexível na ausência de um inibidor, onde sua conformação varia entre as chamadas formas aberta e fechada ao longo do tempo, porém, quando o estudo é feito na presença de um ligante, sua conformação perrnanece, de modo geral, constante. / The amphetamine family of drugs is central nervous system stimulant drugs. Amphetamine inhibits the monoamine oxidase enzyme (MAO, isoforms A and B) which catalyzes the oxidative deamination of the neurotransmitter, e. g., serotonin and noradrenalin. In the present study, the aim was to understand the main features of a series of amphetamines derivatives, which have different substrate selectivity and a good range of activity varying from very potent to low potent compounds, even inactive molecules by the application of quantum chemistry techniques to calculate the molecular descriptors, as well as the application of a classical mechanics to describe the ligand-receptor interactions from docking studies and molecular dynamics (MD) simulation. First of all, was applied the AM1, HF, DFT (B3LYP and BP86 functionals) and MP2 quantum chemical methods to analyze which theoretical level is more appropriated for the molecular geometry optimization of this series of compounds from a comparison between the theoretical results for MDMA molecule and it\'s X-ray data. The HF/6-3lG** calculations produced results in close agreement with X-ray crystallography. Thus, was employed the same method for the molecular optimization of the other compounds in the series under investigation. Furthermore, the same method was applied to calculate quantum-chemical parameters (atomic charges, total energy, highest occupied molecular orbital -HOMO- lowest unoccupied molecular orbital -LUMO- dipole moments, hardness, electronegativity, chemical potential, absolute electronegativity and electrophilicity). It was examined possible correlations between the theoretical parameters as calculated by us with the biological activity results as reported by Scorza et al, Hurtado-Guzman et al and Sterling et al. The chemometric technique of Principal Component Analysis for the quantum chemical parameters of these compounds was employed in order to identify some pattern of grouping between the active and inactive molecules. However, it was not possible to identify a pattern between active and inactive compounds suggesting that these above-mentioned parameters are not the best descriptors to evaluate the antidepressant activity for this group of molecules. Later, a docking study was performed for six different PDB structure of MAO B (1OJA, 1OJ9, 2BK3, 2V5Z, 2V60 e 2V61) and five different structure of MAO A (2BXR, 2BXS, 2Z5X e 2Z5Y). It was possible to analyze the ligand-receptor interaction and, according to the bind site size, the activity molecules showed a 3.5A distance between the reactive atoms of the inhibitor and of the protein. Because the conformation of the isoleucine 199 (Ile 199) amino acid can change, the chosen of the correct PDB structure is important for a write description of that interaction. The MD results for the 1OJA structure showed that the Ile199 is flexible in the absence of an inhibitor, where its conformation varies between so-called closed and open forms over the simulation time. However, when the study was done in the presence of a ligand, its conformation remains by generally constant.
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Wang Xizhe's critique of Mao Zedong and the Cultural RevolutionChiu-Duke, Josephine. January 1983 (has links)
Thesis (M.A.)--University of Wisconsin--Madison, 1983. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 97-100).
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Mao Tse-tung and the politics of science in communist China, 1949-1965Feurtado, Gardel MacArthur. January 1986 (has links)
Thesis (Ph. D.)--Stanford University, 1986. / Includes bibliographical references.
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Efeito de 2-aril(heteroaril)-4,5-diidro-1h-imidazóis sobre a atividade da enzima monoamina oxidase in vitro / Effect of 2-aryl-heteroaryl-4,5-dihydro-1h-imidazoles on monoamine oxidase activity in vitro.Anna, Gabriela da Silva Sant 05 August 2008 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Monoamine oxidase (MAO) is a flavin adenine dinucleotide (FAD)-containing enzyme attached to the mitochondrial outer membrane of neurons, glia, and other cells. Its roles include regulation of the levels of biogenic and xenobiotic amines in the brain and peripheral tissues by catalyzing their oxidative deamination. On the basis of their substrate and inhibitor specificities, two isoforms of MAO have been described (A and B). Due to their role in the metabolism of catecholamines neurotransmitters, MAO-A and MAO-B have long been of pharmacological interest. Accordingly, and reversible and irreversible inhibitors of MAO-A and MAO-B have been used in the clinics to treat
neurological disorders including depression and Parkinson´s disease. Since the demonstration that I2-
imidazoline sites are associated with mitochondrial membranes 15 years ago, several studies have provided evidence that these sites represent regions on MAOs. In line with this view, it has been demonstrated that imidazoline derivatives inhibit MAO activity. This effect has been attributed to a high affinity I2 binding site on MAO-B (I2B) and to a similar lower affinity site on MAO-A (I2A). This study investigated the effect of 4,5-dihydro-1H-imidazole-2-substituted compounds on MAO activity in vitro by spectrophotometric and fluorimetric methods using kynuramine as substrate. Among the compounds that inhibited MAO-A (3c-e, 3j), compound 3d was 73-fold more selective towards MAO-A than MAO-B. Among the compounds that selectively inhibited MAO-B (3g-I, 3k, 3o), imidazoline 3g was shown to be potent with Ki value of 5,3 μM. Some of compounds that selectively bind to I2-sites,
such as 3l (benazoline), 3n (2-BFI), and 3p (BU224) showed good inhibitory activity especially against MAO-B. Imidazolines inhibited MAO-A and MAO-B activities in liver with less selectively than in rat brain. The compounds 3d and 3g reversibly inhibited MAO, and kinetics studies showed that compound 3d and 3g inhibited MAO in a mixed manner (decreased Vmax and increased Km values).
These results confirm that imidazolines inhibit MAO activity and suggest a relationship between I2 binding site and modulation of central MAO / A monoamina oxidase (MAO) é uma enzima que contém o dinucleotídeo adenina-flavina (FAD) e que está presente na membrana externa da mitocôndria de células neuronais, glia e outras células. Seu papel inclui a regulação dos níveis de aminas biogênicas e xenobióticas no cérebro e em
tecidos periféricos pela desaminação oxidativa. Com base na especificidade a substrato e inibidores, são descritas duas isoformas da MAO (A e B). Devido aos seus papéis no metabolismo das catecolaminas neurotransmissoras, a MAO-A e a MAO-B são consideradas farmacologicamente
interessantes, e inibidores reversíveis e irreversíveis destas isoformas são usados clinicamente para tratar doenças neurológicas incluindo depressão e doença de Parkinson. Nos últimos 15 anos, desde a demonstração que sítios I2 estão associados com frações da membrana mitocondrial, muitos
estudos provem evidências de que estes sítios representam regiões da MAO. Além disso, alguns estudos têm demonstrado que derivados imidazolínicos são capazes de inibir a atividade da MAO. Este efeito tem sido atribuído a sítios I2 de alta afinidade na MAO-B (I2B) e a um sítio similar de baixa
afinidade na MAO-A (I2A). Assim, este estudo teve como objetivo investigar o efeito in vitro de compostos 4,5-diidro-1H-imidazol-2-substituídos sobre a atividade da enzima monoamina oxidase através de métodos espectrofotométricos e fluorimétricos usando quinuramina como substrato. Entre
os compostos estudados que inibiram preferencialmente a MAO-A (3c-e, 3j) apenas o composto 3d foi seletivo, apresentando um Ki para a MAO-A de aproximadamente 73 vezes menor do que seu Ki para MAO-B. Entre os compostos obtidos que seletivamente inibiram MAO-B (3g-l, 3K, 3o), apenas a imidazolina 3g mostrou ser potente, com valores de Ki de 5,3 μM. Alguns compostos que exercem ligação potente e seletiva à sítios I2, como o 3l (benazolina), 3n (2-BFI) e 3p (BU224) mostraram boa atividade inibitória especialmente contra MAO-B. Em fígado de ratos, as imidazolinas inibiram com
menos seletividade a MAO-A e MAO-B quando comparado com cérebro de ratos. Os compostos 3d e 3g inibiram a MAO de maneira reversível e apresentaram inibição de natureza mista (diminuindo o valor de Vmáx e aumentando o valor de Km) sobre a enzima MAO. Estes resultados confirmam que
drogas imidazolinas podem inibir a atividade da MAO e sugerem uma relação entre sítios I2 e a modulação da atividade da enzima.
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Mao Dun's interpretaion of Western literary realism.January 1985 (has links)
by Amanda Jane Ryder. / Bibliography: leaves 158-162 / Thesis (M.Ph.)--Chinese University of Hong Kong, 1985
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The application of multi-attribute optimisation as a systems engineering tool in an automotive CAE environmentSutton, Paul January 2012 (has links)
Multi-Attribute Optimisation (MAO) is proposed as a tool for delivering high value products within the systems engineering approach taken in the automotive industry. This work focuses on MAO methods that use Computer Aided Engineering (CAE) analyses to build a metamodel of system behaviour. A review of the literature and current Jaguar Land Rover optimisation methods showed that the number of samples required to build a metamodel could be estimated using the number of input variables. The application of these estimation methods to a concept airbox design showed that this guidance may not be sufficient to fully capture the complexity of system behaviour in the metamodelling method. The use of the number of input variables and their ranges are proposed as a new approach to the scaling of sample sizes. As a corollary to the issue of the sample size required for accurate metamodelling, the sample required to estimate the error was also examined. This found that the estimation of the global error by additional samples may be impractical in the industrial context. CAE is an important input to the MAO process and must balance the efficiency and accuracy of the model to be suitable for application in the optimisation process. Accurate prediction of automotive attributes may require the use of new CAE techniques such as multi-physics methods. For this, the fluid structure interaction assessment of the durability of internal components in the fuel tank due to slosh was examined. However, application of the StarCD-Abaqus Direct couple and Abaqus Combined Eularian Lagrangian was unsuitable for this fuel slosh application. Further work would be required to assess the suitability of other multi-physics methods in an MAO architecture. Application of the MAO method to an automotive airbox shows the potential for improving both product design and lead time.
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