363 resultados para Aldehyde Dimethylhydrazones
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The photooxidation of volatile organic compounds (VOCs) in the atmosphere can lead to the formation of secondary organic aerosol (SOA), a major component of fine particulate matter. Improvements to air quality require insight into the many reactive intermediates that lead to SOA formation, of which only a small fraction have been measured at the molecular level. This thesis describes the chemistry of secondary organic aerosol (SOA) formation from several atmospherically relevant hydrocarbon precursors. Photooxidation experiments of methoxyphenol and phenolic compounds and C12 alkanes were conducted in the Caltech Environmental Chamber. These experiments include the first photooxidation studies of these precursors run under sufficiently low NOx levels, such that RO2 + HO2 chemistry dominates, an important chemical regime in the atmosphere. Using online Chemical Ionization Mass Spectrometery (CIMS), key gas-phase intermediates that lead to SOA formation in these systems were identified. With complementary particle-phase analyses, chemical mechanisms elucidating the SOA formation from these compounds are proposed.
Three methoxyphenol species (phenol, guaiacol, and syringol) were studied to model potential photooxidation schemes of biomass burning intermediates. SOA yields (ratio of mass of SOA formed to mass of primary organic reacted) exceeding 25% are observed. Aerosol growth is rapid and linear with the organic conversion, consistent with the formation of essentially non-volatile products. Gas and aerosol-phase oxidation products from the guaiacol system show that the chemical mechanism consists of highly oxidized aromatic species in the particle phase. Syringol SOA yields are lower than that of phenol and guaiacol, likely due to unique chemistry dependent on methoxy group position.
The photooxidation of several C12 alkanes of varying structure n-dodecane, 2-methylundecane, cyclododecane, and hexylcyclohexane) were run under extended OH exposure to investigate the effect of molecular structure on SOA yields and photochemical aging. Peroxyhemiacetal formation from the reactions of several multifunctional hydroperoxides and aldehyde intermediates was found to be central to organic growth in all systems, and SOA yields increased with cyclic character of the starting hydrocarbon. All of these studies provide direction for future experiments and modeling in order to lessen outstanding discrepancies between predicted and measured SOA.
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A concise synthetic route to the tunicamycin antibiotics is described, illustrated by the preparation of (+)-tunicamycin-V (1-V). Key features of the synthesis include: (1) the development and application of a silicon-mediated reductive coupling of aldehydes and allylic alcohols to construct the undecose core of the natural product; and (2) the development of an efficient procedure for the synthesis of the trehalose glycosidic bond within the antibiotic. These innovations allow for the coupling of a uridine-derived aldehyde fragment with a preformed trehalose-linked disaccharide allylic alcohol to form the carbohydrate core (1) of the natural product in a highly convergent manner. The resultant amino polyol is a versatile intermediate for the synthesis of any of the homologous tunicamycin antibiotics.
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Homologous recombination is a source of diversity in both natural and directed evolution. Standing genetic variation that has passed the test of natural selection is combined in new ways, generating functional and sometimes unexpected changes. In this work we evaluate the utility of homologous recombination as a protein engineering tool, both in comparison with and combined with other protein engineering techniques, and apply it to an industrially important enzyme: Hypocrea jecorina Cel5a.
Chapter 1 reviews work over the last five years on protein engineering by recombination. Chapter 2 describes the recombination of Hypocrea jecorina Cel5a endoglucanase with homologous enzymes in order to improve its activity at high temperatures. A chimeric Cel5a that is 10.1 °C more stable than wild-type and hydrolyzes 25% more cellulose at elevated temperatures is reported. Chapter 3 describes an investigation into the synergy of thermostable cellulases that have been engineered by recombination and other methods. An engineered endoglucanase and two engineered cellobiohydrolases synergistically hydrolyzed cellulose at high temperatures, releasing over 200% more reducing sugars over 60 h at their optimal mixture relative to the best mixture of wild-type enzymes. These results provide a framework for engineering cellulolytic enzyme mixtures for the industrial conditions of high temperatures and long incubation times.
In addition to this work on recombination, we explored three other problems in protein engineering. Chapter 4 describes an investigation into replacing enzymes with complex cofactors with simple cofactors, using an E. coli enolase as a model system. Chapter 5 describes engineering broad-spectrum aldehyde resistance in Saccharomyces cerevisiae by evolving an alcohol dehydrogenase simultaneously for activity and promiscuity. Chapter 6 describes an attempt to engineer gene-targeted hypermutagenesis into E. coli to facilitate continuous in vivo selection systems.
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Neocarzinostatin chromophore 1 is the active component of the antitumor antibiotic neocarzinostatin (NCS). The chromophore reacts with thiols to form a highly strained cumulene-enyne species which rapidly rearranges to a biradical intermediate which can abstract hydrogen atoms from DNA, leading to strand cleavage. DNA damage is the proposed source of biological activity for NCS. The structure of the methyl thioglycolate monoadduct 2 of NCS chromophore, including the absolute stereochemistry, was determined by NMR studies. The presence of the cumulene-enyne intermediate and the rearrangement to a biradical were supported by data from low temperature NMR investigations. Also included are synthetic approaches to NCS chromophore model compounds based on intramolecular addition of an acetylide to an aldehyde.
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Zirconocene aldehyde and ketone complexes were synthesized in high yield by treatment of zirconocene acyl complexes with trimethylaluminum or diisobutylaluminum hydride. These complexes, which are activated by dialkylaluminum chloride ligands, inserted unsaturated substrates such as alkynes, allenes, ethylene, nitriles, ketenes, aldehydes, ketones, lactones, and acid chlorides with moderate to high conversion. Insertion of aldehyde substrates yielded zirconocene diolate complexes with up to 20:1 (anti:syn) diastereoselectivity. The zirconocene diolates were hydrolyzed to afford unsymmetrical 1,2-diols in 40-80% isolated yield. Unsymmetrical ketones gave similar insertion yields with little or no diastereoselectivity. A high yielding one-pot method was developed that coupled carbonyl substrates with zirconocene aldehyde complexes that were derived from olefins by hydrozirconation and carbonylation. The zirconocene aldehyde complexes also inserted carbon monoxide and gave acyloins in 50% yield after hydrolysis.
The insertion reaction of aryl epoxides with the trimethylphoshine adduct of titanocene methylidene was examined. The resulting oxytitanacyclopentanes were carbonylated and oxidatively cleaved with dioxygen to afford y-lactones in moderate yields. Due to the instability and difficult isolation of titanocene methylidene trimethylphoshine adducts, a one-pot method involving the addition of catalytic amounts of trimethylphosphine to β,β-dimethyltitanacyclobutane was developed. A series of disubstituted aryl epoxides were examined which gave mixtures of diastereomeric insertion products. Based on these results, as well as earlier Hammett studies and labeling experiments, a biradical transition state intermediate is proposed. The method is limited to aryl substituted epoxide substrates with aliphatic examples showing no insertion reactivity.
The third study involved the use of magnesium chloride supported titanium catalysts for the Lewis acid catalyzed silyl group transfer condensation of enol silanes with aldehydes. The reaction resulted in silylated aldol products with as many as 140 catalytic turnovers before catalyst inactivation. Low diastereoselectivities favoring the anti-isomer were consistent with an open transition state involving a titanium atom bound to the catalyst surface. The catalysts were also used for the aldol group transfer polymerization of t-butyldimethylsilyloxy-1-ethene resulting in polymers with molecular weights of 5000-31,000 and molar mass dispersities of 1.5-2.8. Attempts to polymerize methylmethacrylate using GTP proved unsuccessful with these catalysts.
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Devido ao efeito estufa, a produção de hidrogênio a partir da reação de reforma do bioetanol tem se tornado um assunto de grande interesse em catálise heterogênea. Os catalisadores à base de Pt são empregados nos processos de purificação de H2 e também em eletrocatalisadores das células a combustível do tipo membrana polimérica (PEMFC). O hidrogênio obtido a partir da reforma do etanol contém como contaminante o acetaldeído e pequenas quantidades de CO. Assim, pode-se prever que muitas reações podem ocorrer na presença de catalisadores de Pt durante o processo de purificação do H2 e mesmo no próprio eletrocatalisador. Desta forma, este trabalho tem como objetivo descrever o comportamento do acetaldeído na presença de catalisadores de Pt. Para tanto foram preparados dois catalisadores, Pt/SiO2 e Pt/USY, contendo 1,5% de metal em ambos. Também foi estudado um eletrocatalisador (comercial) de Pt suportado em carvão (Pt/C). Os catalisadores foram caracterizados através das técnicas de análise textural, difração de raios X (DRX), quimissorção de H2, reação de desidrogenação do ciclohexano, espectroscopia no infravermelho de piridina adsorvida, dessorção a temperatura programada de n-butilamina (TPD de n-butilamina), dessorção a temperatura programada de CO2 (TPD-CO2), análise termogravimétrica, microscopia eletrônica de varredura (MEV) e espectroscopia de dispersão de energia (EDS). Os testes catalíticos foram realizados entre as temperaturas de 50 e 350 C em corrente contendo acetaldeído, H2 e N2. Foi observado que as propriedades ácido-básicas dos suportes promovem as reações de condensação com formação de éter etílico e acetato de etila. O acetaldeído em catalisadores de Pt sofre quebra das ligações C-C e C=O. A primeira ocorre em uma ampla faixa de temperaturas, enquanto a segunda apenas em temperaturas abaixo de 200 C. A quebra da ligação C-C produz metano e CO. Já a quebra da ligação C=O gera carbono residual nos catalisadores, assim como espécies oxigênio, que por sua vez são capazes de eliminar o CO da superfície dos catalisadores. Nota-se que o tipo de suporte utilizado influencia na distribuição de produtos, principalmente a baixas temperaturas. Além disso, constatou-se que a descarbonilação não é uma reação sensível à estrutura do catalisador. Verificou-se também a presença de resíduos sobre os catalisadores, possivelmente oriundos não somente da quebra da ligação C=O, mas também de reações de polimerização
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O oxigênio é fundamental para os vertebrados. No entanto, variações dos níveis de oxigênio na água podem provocar estresse oxidante em peixes porque privação de oxigênio seguida de reoxigenação forma espécies reativas de oxigênio (ERO) em células. Níveis intracelulares de ERO aumentados favorecem que moléculas de proteínas, fosfolipídios e ácidos nucleicos sofram alterações, vindo a prejudicar muitas funções celulares. No Pantanal, habitat do pacu, o nível de oxigênio varia circadianamente na água das lagoas rasas que acabam isoladas dos rios na seca. O pacu evoluiu sob a pressão contínua da exposição aos efeitos prejudiciais das ERO causados pelos pulsos de inundação. A melatonina, uma indolamina produzida na glândula pineal, influencia os níveis de atividade de enzimas antioxidantes que reduzem ERO, além de ser capaz de doar elétrons ou captar radicais livres de forma não enzimática. Os níveis de melatonina no pacu são mais altos no verão e menores no inverno. Isoenzimas de glutationa S-transferases que conjugam o tripetídeo glutationa com o 4-hidroxinonenal, aldeído derivado da peroxidação de ácidos graxos por ERO, são importantes para evitar alteração funcional de proteínas por ligação do 4-hidroxinonenal à sua estrutura. Neste trabalho procuramos relação entre estresse oxidante, níveis de atividades de glutationa S-transferase e melatonina, para estabelecer se a melatonina ajudaria pacus a superar os efeitos deletérios das espécies reativas de oxigênio. Ensaiamos atividades de isoenzimas de glutationa S-transferases no citosol de fígado de pacus mantidos em normoxia, hipoxia, reoxigenação e hiperoxia no inverno e no verão. Medimos o efeito da melatonina in vitro e in vivo sobre as atividades de isoenzimas de glutationa S-transferase. Medimos os efeitos do estresse oxidante sobre a ligação do 4-hidroxinonenal com proteínas nos fígados de pacus tratados com melatonina. Somente as isoenzimas que conjugam 4-hidroxinonenal com glutationa mostraram menor atividade no inverno em relação ao verão; outras isoenzimas de glutationa S-transferases não alteram suas atividades sazonalmente. In vitro a melatonina não alterou a atividade de isoenzimas de glutationa S-transferase que conjugam o 4-hidroxinonenal, mas inibiu outras isoenzimas de glutationa S-transferase. In vivo a melatonina aumentou a atividade encontrada no inverno das isoenzimas que conjugam o 4-hidroxinonenal para os níveis do verão. A ligação de 4-hidroxinonenal com proteínas foi menor em pacus inoculados com melatonina. Nossos resultados mostram que a melatonina pode influenciar os efeitos de ERO em fígado de pacus. Ficou claro que a melatonina do plasma mantém os níveis de atividade conjugadora de 4-hidroxinonenal do fígado em pacus e que a baixa produção de melatonina no inverno não é adequada para a conjugação do 4-hidroxinonenal em fígado de pacus.
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In estrogen receptor-negative breast cancer patients, metastatic relapse usually occurs in the lung and is responsible for the fatal outcome of the disease. Thus, a better understanding of the biology of metastasis is needed. In particular, biomarkers to identify patients that are at risk of lung metastasis could open the avenue for new therapeutic opportunities. Here we characterize the biological activity of RARRES3, a new metastasis suppressor gene whose reduced expression in the primary breast tumors identifies a subgroup of patients more likely to develop lung metastasis. We show that RARRES3 downregulation engages metastasis-initiating capabilities by facilitating adhesion of the tumor cells to the lung parenchyma. In addition, impaired tumor cell differentiation due to the loss of RARRES3 phospholipase A1/A2 activity also contributes to lung metastasis. Our results establish RARRES3 downregulation as a potential biomarker to identify patients at high risk of lung metastasis who might benefit from a differentiation treatment in the adjuvant programme.
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Lymphangioleiomyomatosis (LAM) is a rare lung-metastasizing neoplasm caused by the proliferation of smooth muscle-like cells that commonly carry loss-of-function mutations in either the tuberous sclerosis complex 1 or 2 (TSC1 or TSC2) genes. While allosteric inhibition of the mechanistic target of rapamycin (mTOR) has shown substantial clinical benefit, complementary therapies are required to improve response and/or to treat specific patients. However, there is a lack of LAM biomarkers that could potentially be used to monitor the disease and to develop other targeted therapies. We hypothesized that the mediators of cancer metastasis to lung, particularly in breast cancer, also play a relevant role in LAM. Analyses across independent breast cancer datasets revealed associations between low TSC1/2 expression, altered mTOR complex 1 (mTORC1) pathway signaling, and metastasis to lung. Subsequently, immunohistochemical analyses of 23 LAM lesions revealed positivity in all cases for the lung metastasis mediators fascin 1 (FSCN1) and inhibitor of DNA binding 1 (ID1). Moreover, assessment of breast cancer stem or luminal progenitor cell biomarkers showed positivity in most LAM tissue for the aldehyde dehydrogenase 1 (ALDH1), integrin-beta 3 (ITGB3/CD61), and/or the sex-determining region Y-box 9 (SOX9) proteins. The immunohistochemical analyses also provided evidence of heterogeneity between and within LAM cases. The analysis of Tsc2-deficient cells revealed relative over-expression of FSCN1 and ID1; however, Tsc2-deficient cells did not show higher sensitivity to ID1-based cancer inhibitors. Collectively, the results of this study reveal novel LAM biomarkers linked to breast cancer metastasis to lung and to cell stemness, which in turn might guide the assessment of additional or complementary therapeutic opportunities for LAM.
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Nota técnica para el análisis de compuestos volátiles en fórmulas higiénicas
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水母雪莲(Saussurea medusa Maxim)为名贵珍稀中药材,其主要药用成分为类黄酮,尤其是3-脱氧类黄酮。目前关于雪莲的研究主要集中在采用细胞培养生产类黄酮等方面,但对于雪莲类黄酮生物合成的分子机制了解甚少,极大限制了这一珍贵资源的利用。本研究采用水母雪莲红色系愈伤组织及悬浮细胞为材料,构建cDNA文库,从中克隆水母雪莲类黄酮次生代谢中的相关基因并对这些基因进行了深入的生物信息学分析、转基因研究初步确定其功能,以期了解雪莲类黄酮次生代谢的分子机制,为提高类黄酮的合成奠定基础。主要结果如下: 1. 成功地构建了水母雪莲红色系愈伤组织与悬浮细胞cDNA文库,原始文库滴度达到4×106pfu/ml,扩增文库滴度接近1011 pfu/ml,重组率达98%。PCR检测插入片段,均在0.5kb到3kb之间,1kb以上占62%。从文库中检测到了chs、dfr及Myb转录因子SmP,文库覆盖度达到要求且为PCR筛选文库提供了可能。 2. 采用部分简并引物,通过RT-PCR克隆了水母雪莲查尔酮异构酶基因Smchi特异探针,并根据这一探针序列设计特异引物,采用TD-PCR法筛选cDNA文库,获得Smchi cDNA序列,全长831bp,编码一个232氨基酸残基的蛋白。根据cDNA序列克隆了Smchi DNA序列,结果表明Smchi基因无内含子。Smchi cDNA序列与翠菊chi基因高度同源,ORF区域同源性高达84%,但推测氨基酸序列则只有79.3%。Smchi mRNA具有复杂的二级结构。SmCHI具有典型的Chalcone结构域,其二级结构与苜蓿CHI蛋白十分相似,7个α-螺旋与8个延伸链由随机结构联系起来。但其活性中心的第三个关键氨基酸残基N115为M115所取代,这一取代可能导致该蛋白无生物活性,也可能使它具有一般CHI不同的功能。构建Smchi正义、反义真核表达载体,通过农杆菌介导导入烟草,获得转正义、反义Smchi基因的烟草。转基因烟草花色未改变,但叶片总黄酮发生了显著的变化,50%转正义基因烟草总黄酮含量显著提高,最高比对照提高6倍,70%转反义基因烟草总黄酮含量显著下降,最多达85.1%,初步证明Smchi具有功能,并能有效调控烟草类黄酮次生代谢。因此,SmCHI可能是不同于已知CHI的一类新的CHI蛋白,它催化的反应可能与花色素合成无关,其反应机制也可能有所不同。 3. 伴随Smchi的克隆获得了一个黄烷酮3-羟化酶类似基因Smf3h的cDNA,全长1334bp,编码一个343aa的蛋白。根据这一cDNA序列克隆了Smf3h DNA序列,全长1630bp,结果表明该基因由4个外显子和3个内含子组成。Smf3h mRNA具有十分复杂的二级结构。 推测蛋白氨基酸同源性分析表明,SmF3H属于2OG-FeII_Oxy家族,与同一家族的的颠茄H6H的同源性为45%,与拟南芥F3H的同源性为40%,但对SmF3H、典型F3H及典型H6H推测蛋白二级结构、活性中心关键氨基酸残基的位置与相对距离、软件进行功能预测分析,发现SmF3H与F3H更相似。构建Smf3h的正义与反义真核表达载体,通过农杆菌介导导入烟草,但只获得一批转正义基因的烟草,反义基因导致烟草不能再生而未获得转反义基因烟草。转基因烟草花色未改变,叶片总黄酮也与对照相似,初步确认Smf3h与烟草类黄酮生物合成无关,而是一个既不属于f3h也不属于h6h的功能未确定的新基因。 4. 采用与克隆Smchi基因相似的方法,从cDNA文库中克隆了SmP基因cDNA,全长969bp,编码一个256 aa的蛋白质。根据cDNA序列克隆了SmP基因的DNA序列,结果表明,SmP基因无内含子。SmP基因cDNA 一级结构及mRNA二级结构预测分析表明,该基因A+T含量很高(63%),所形成二级结构以A-T配对为主,其稳定性可能较差。SmP推测蛋白序列具有R2R3-Myb转录因子的典型特征,在N-端具有两个Myb DNA-binding Domain,其二级结构与鸡Myb转录因子1A5J十分相似,与其他基因如水稻OsMYB、番茄ThMYB的同源区域主要集中在这一结构域,分别为71.3%和70.8%;C-端富含丝氨酸,与烟草NtMYB、葡萄VlMYB等类黄酮调控因子相似,都呈寡聚体分布,并具有相同的保守磷酸化位点S170与S206。构建SmP基因真核表达载体,通过农杆菌介导导入烟草,获得大量转基因烟草。转基因烟草花色未发生改变,但51%的转基因烟草叶片总黄酮含量都显著提高(0.5-6倍),表明SmP具有促进烟草类黄酮生物合成的功能,但所调控的支路与花色素合成无关。初步试验结果表明,转SmP基因烟草对蚜虫具有很高的抗性,可有效地抑制蚜虫在烟草上的生长,抑制率最高可达92%-100%。这一抗性与烟草中类黄酮的积累可能具有直接的联系,但还需要进一步的试验证明。 5. 与美国俄亥俄州立大学Erich Grotewold 博士实验室合作,完成了微型EST库50个克隆的测序并进行了分析,从中获得了水母雪莲花色素合酶基因SmANS及醛脱氢酶基因SmALDH的特异探针。根据SmANS特异探针设计引物,采用PCR从这50个克隆中筛选获得了SmANS的cDNA序列,全长1229bp,编码一个356aa的蛋白质。SmANS在cDNA水平上与同属的翠菊ANS基因高度同源,但同源区域集中在ORF区域,达到80%,mRNA 预测二级结构十分复杂;推测氨基酸序列与翠菊ANS同源性达到82.9%。SmANS属于2OG-FeII_Oxy家族,在2OG-FeII_Oxy结构域高度保守,与翠菊、甜橙ANS保守结构域同源性达到94%。预测蛋白二级结构以α-螺旋-β-折叠为主,由7个主螺旋和11个主β-折叠及随机结构连接而成,并具有2OG-FeII_Oxy家族活性中心的三个保守的组氨酸残基(His84、His235、His291)和一个天冬氨酸残基(Asp237)。 6. 根据微型EST库中获得的SmALDH特异探针设计引物,采用PCR从这50个克隆中筛选获得了SmALDH基因cDNA 序列,全长1664bp,编码一个491aa的蛋白质。SmALDH基因cDNA具有独特的碱基组成,3/-UTR富含A+T,占该区域碱基总量的80%,5/-UTR的A+T和G+C各占50%,比ORF区域(52%)还低,因此其mRNA二级结构中5/-UTR可以单独形成自身二级结构并且十分稳定,这可能影响基因的表达。这一现象在水稻、玉米等植物中也存在。SmALDH在cDNA水平上在ORF区域与拟南芥、藏红花、水稻等具有较高同源性,分别为64.03%、63.89%、63.72%,但在推测蛋白氨基酸序列水平上同源性反而较低,分别为54.9%、54.3%、54.0%。SmALDH缺少线粒体定位信号,为胞质醛脱氢酶,具有一个Aldedh 保守结构域,还具有与1OF7-H相似的以α-螺旋-β-折叠为主的二级结构,由10个主螺旋和15个主β-折叠及随机结构连接而成。由于ALDH在植物细胞乙醇发酵中具有解除醛类物质毒害的功能,因此SmALDH基因的克隆为改造细胞自身以适应发酵培养条件,解决水母雪莲细胞大规模培养中需氧问题提供了可能。
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本实验以菠菜叶片为材料,分离并纯化了甜菜碱醛脱氢酶(BADH,EC 1.2.1.8),并对其某些性质进行了研究。此外,还提取并纯化了poly (A)+RNA,并对其完整性进行了分析,主要结果如下: 1.菠菜甜菜碱醛脱氢酶存在于60%硫酸铵沉淀部分,70%硫酸铵沉淀部分未检出其活性。用层析法纯化该酶,使纯化倍数达到405.3倍。菠菜甜菜碱醛脱氢酶有两个同工酶。 2.菠菜甜菜碱醛脱氢酶主要定位于胞液中。其中,在过氧化物酶体及微粒体中有一定量活性存在,但在叶绿体中未检出其活性。 3.菠菜甜菜碱醛脱氢酶活性有较广的pH值范围,其最适pH范围为9.5左右。该酶以NAD作为特异性辅酶,其Km值为8.0×10-6M, Vmax为0.143nmol/min。该酶以甜菜碱醛作为特异性底物,其Km值为1.82×10-4M,Vmax为0.182nmol/min。该酶活性为0.125~1M的NaCl、KCl和脯氨酸所抑制,但0.125~1M的蔗糖及甜菜碱对其活性没有影响。 4.PCMB和Mersalyl抑制该酶的活性,DTT可逐步恢复被抑制的活性。稀土元素LaCl3对该酶活性没有影响,但CeCl则使其完全失活。另外,Mn2+和Mo6+离子对其活性没有影响,Mg2+离子可增加其活性。 5.菠菜叶片中有菠菜甜菜碱醛脱氢酶的抑制因子存在,该因子可能是一种小分子化合物。 6.应用酚-氯仿方法分离了菠菜叶片的poly (A)+RNA,并在-80℃低温下长期贮存。
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从菠菜中克隆甜菜碱醛脱氢酶( betaine aldehyde dehydrogenase,BADH)基因并转化烟草, 研究转基因烟草光合作用对高温和盐胁迫等环境胁迫的抗性机理,利用外源甜菜碱研究在正常条件下对植物光合作用的影响以及在盐胁迫下外源甜菜碱对玉米幼曲光合作刚的保护机理。主要结果如下: 转BADH基因烟草中能合成甘氨酸甜菜碱,合成的甜菜碱主要积累于叶绿体中。转BADH 基因烟草提高了对高温胁迫的抗性,在中度高温胁迫下,转基冈烟草生长利光合作用对高温 的抗性增强。中度高温胁迫下,转基冈烟草光合作用的维持是由于甜菜碱对Rubisco活化酶的保护作用。在中度高温胁迫下甜菜碱通过维持Rubisco活化酶的活化态以及阻止Rubisco 活化酶山可溶性问质向类囊体的聚集,从而维持了Rubisco活化酶的活性,进而维持了C02 的同化。在严重高温胁迫下,烟草光系统II受到影响,转BADH基冈烟草通过提高体内抗氧化酶系统的功能,减轻了高温胁迫对光合机构造成的活性氧伤害,高温胁迫下转基因烟草体内抗氧化酶如SOD、APX、GR等酶活性明显高于野生型。在高温胁迫下,证明了甜菜碱对光系统II的保护作用主要在氧化侧,严重高温胁迫下,转基因烟草维持较高的PSII活性。 转BADH基因烟草提高了对盐胁迫的抗性,盐胁迫下转基因烟草光合作用的维持与盐胁迫下转基因烟草较高的气孔导度和抗氧化酶活性的提高有关。 外源甜菜碱在正常的非胁迫条件下对植物的生长有促进作用,而这一作用与光合速率的提高有关。通过对气孔导度、光合碳同化关键酶以及叶绿素荧光分析证明,甜菜碱对光合作用的促进与气孔导度的提高有关,同时甜菜碱提高了光系统ll的实际光化学效率。 外源甜菜碱提高了盐胁迫条件下植物的抗性,抗盐性的提高与盐胁迫下甜菜碱对气孔导度的提高以及维持较高的光系统II光化学活性有关。
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:亚洲人群中普遍存在突变型的乙醛脱氢酶2 ( ALDH2 3 2) 。此酶突变后活性缺失,导致乙醛在肝脏内大量 累积使突变携带者在喝酒后会有脸红等不适反应,因此这可能影响他们的饮酒行为。由于ALDH2 3 2 等位基因 与饮酒行为相关,它也可能与酒精引起的肝脏损伤及某些癌症密切相关,而且,它在不同的亚洲人群中有不同的频 率分布。近年来对ALDH2 3 2 等位基因的序列结构、表达及其重要功能等有了更深入的了解,对ALDH2 的多态 性在研究方法、研究群体分布范围等都有很大进展。同时还讨论了不同地理分布、不同年龄结构、性别差异条件 下,中国人群中ALDH2 基因型频率与饮酒行为的关系。
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The increasing use of patterned neural networks in multielectrode arrays and similar devices drives the constant development and evaluation of new biomaterials. Recently, we presented a promising technique to guide neurons and glia reliably and effectively. Parylene-C, a common hydrophobic polymer, was photolithographically patterned on silicon oxide (SiO(2)) and subsequently activated via immersion in serum. In this article, we explore the effects of ultraviolet (UV)-induced oxidation on parylene's ability to pattern neurons and glia. We exposed parylene-C stripe patterns to increasing levels of UV radiation and found a dose-dependent reduction in the total mass of patterned cells, as well as a gradual loss of glial and neuronal conformity to the patterns. In contrast, nonirradiated patterns had superior patterning results and increased presence of cells. The reduced cell adhesion and patterning after the formation of aldehyde and carboxyl groups on UV-radiated parylene-C supports our hypothesis that cell adhesion and growth on parylene is facilitated by hydrophobic adsorption of serum proteins. We conclude that unlike other cell patterning schemes, our technique does not rely on photooxidation of the polymer. Nonetheless, the precise control of oxygenated groups on parylene could pave the way for the differential binding of proteins and other molecules on the surface, aiding in the adhesion of alternative cell types. (c) 2010 Wiley Periodicals, Inc. J Biomed Mater Res, 2010.