The Role of Ceramide Synthases in the Pathogenicity of Cryptococcus neoformans

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抑制蛋白磷酸酶对嗜铬细胞瘤细胞一氧化氮合酶活性的影响

蛋白磷酸酶降低参与阿尔茨海默病（AD）神经元退化,本旨在探讨一氧化氮（NO）在tau蛋白过度磷酸化引起AD脑神经元退化中的可能作用。采用β-还原型尼克酰胺腺嘌呤二核苷酸磷酸-黄递酶（β-NADPH-d)组织化学技术研究不同剂量蛋白磷酸酶抑制剂岗田酸（OA）对嗜铬细胞瘤细胞株（PC12）一氧化氮合成酶（NOS）活性的影响。结果显示1nmol/LOA与PC12共培养48小时,NOS活性轻度增强;当增加OA浓度至10nmol/L时,培养24和48小时均可见NOS活性明显增强,结果表明根据1nmol/LOA抑制蛋白磷酸酶（PP）-2A,而10nmol/LOA除完全抑制PP-2A外,还部分抑制PP-1,提示PP-2A和PP-1的抑制均可增强NOS活性使NO产生增加,关于蛋白磷酸酶活性降低和NO产生增多与AD的关系和作用有待继续研究。     

The chalcone synthase multigene family of Petunia hybrida (V30): differential,light-regulated expression during flower development and UV light induction

We have analysed the expression of the 8–10 members of the gene family encoding the flavonoid biosynthetic enzyme chalcone synthase (CHS) from Petunia hybrida. During normal plant development only two members of the gene family (CHS-A and CHS-J) are expressed. Their expression is restricted to floral tissues mainly. About 90% of the total CHS mRNA pool is transcribed from CHS-A, wheares CHS-J delivers about 10% in flower corolla, tube and anthers. Expression of CHS-A and CHS-J during flower development is coordinated and (red) light-dependent. In young seedlings and cell suspension cultures expression of CHS-A and CHS-J can be induced with UV light. In addition to CHS-A and CHS-J, expression of another two CHS genes (CHS-B and CHS-G) is induced in young seedlings by UV light, albeit at a low level. In contrast to CHS genes from Leguminoseae, Petunia CHS genes are not inducible by phytopathogen-derived elicitors. Expression of CHS-A and CHS-J is reduced to a similar extent in a regulatory CHS mutant, Petunia hybrida Red Star, suggesting that both genes are regulated by the same trans-acting factors. Comparison of the promoter sequences of CHS-A and CHS-J reveals some striking homologies, which might represent cis-acting regulatory sequences.     

Oxylipin Pathway in Rice and Arabidopsis

Plants have evolved complex signaling pathways to coordinate responses to developmental and environmental Information. The oxylipin pathway Is one pivotal lipid-based signaling network, composed of several competing branch pathways, that determines the plant＇s ability to adapt to various stimuli. Activation of the oxyllpln pathway Induces the de novo synthesis of biologically active metabolltes called ＂oxyllplns＂. The relative levels of these metabolltes are a distinct indicator of each plant species and determine the ability of plants to adapt to different stimuli. The two major branches of the oxyllpln pathway, allene oxide synthase （AOS） and hydroperoxlde lyase （HPL） are responsible for production of the signaling compounds, jasmonates and aldehydes respectively. Here, we compare and contrast the regulation of AOS and HPL branch pathways In rice and Arabidopsis as model monocotyledonous and dicotyledonous systems. These analyses provide new Insights Into the evolution of JAs and aldehydes signaling pathways, and the complex network of processes responsible for stress adaptations In monocots and dicots.     

QTL detection on porcine chromosome 12 for fatty-acid composition and association analyses of the fatty acid synthase, gastric inhibitory polypeptide and acetyl-coenzyme A carboxylase alpha genes

Refinement of previous QTL on porcine chromosome 12 for fatty-acid composition and a candidate gene association analysis were conducted using an Iberian × Landrace cross. The concentrations of ten fatty acids were assayed in backfat tissue from which four metabolic ratios were calculated for 403 F₂ animals. Linkage analysis identified two significant QTL. The first QTL was associated with the average chain length ratio and the percentages of myristic, palmitic and gadoleic acids. The second QTL was associated with percentages of palmitoleic, stearic and vaccenic acids. Based upon its position on SSC12, fatty acid synthase was tested as a candidate gene for the first QTL and no significant effects were found. Similarly, gastric inhibitory polypeptide ( GIP ) and acetyl-coenzyme A carboxylase alpha ( ACACA ) were tested as candidate genes for the second QTL using three SNPs in GIP and 15 synonymous SNPs in ACACA cDNA sequences. Two missense SNPs in GIP showed significant effects with palmitoleic and stearic fatty-acid concentration. Highly significant associations were found for two SNPs in ACACA with stearic, palmitoleic and vaccenic fatty-acid concentrations. These associations could be due to linkage disequilibrium with the causal mutations.     

逆转录病毒载体介导诱导型NO合酶在神经细胞中表达

为了深入研究诱导型一氧化氮合酶基因表达产物在阿片耐受和依赖中作用,采用脂质体介导基因转染技术,将ｉＮＯＳ ｃＤＮＡ重组逆转录病毒载体导入ＮＧ１０８－１５神经细胞,获得Ｇ４１８抗性克隆,命名为ＮＧ－ＬＮＣＸｉＮＯＳ细胞。ＤＮＡ印迹杂交,ＰＣＲ扩增及ＲＴ－ＰＣＲ和蛋白质免疫印迹杂交分析,证实ＮＧ－ＬＮＣＸｉＮＯＳ细胞有外源ｉＮＯＳ基因整合,转录和表达;ＮＡＤＰＨ黄递酶（ＮＡＤＰＨ ｄｉａｐｈｏｒａｓｅ     

Host‐induced gene silencing of an essential chitin synthase gene confers durable resistance to Fusarium head blight and seedling blight in wheat

Fusarium head blight (FHB) and Fusarium seedling blight (FSB) of wheat, caused by Fusarium pathogens, are devastating diseases worldwide. We report the expression of RNA interference (RNAi) sequences derived from an essential Fusarium graminearum (Fg) virulence gene, chitin synthase (Chs) 3b, as a method to enhance resistance of wheat plants to fungal pathogens. Deletion of Chs3b was lethal to Fg; disruption of the other Chs gene family members generated knockout mutants with diverse impacts on Fg. Comparative expression analyses revealed that among the Chs gene family members, Chs3b had the highest expression levels during Fg colonization of wheat. Three hairpin RNAi constructs corresponding to the different regions of Chs3b were found to silence Chs3b in transgenic Fg strains. Co‐expression of these three RNAi constructs in two independent elite wheat cultivar transgenic lines conferred high levels of stable, consistent resistance (combined type I and II resistance) to both FHB and FSB throughout the T₃ to T₅ generations. Confocal microscopy revealed profoundly restricted mycelia in Fg‐infected transgenic wheat plants. Presence of the three specific short interfering RNAs in transgenic wheat plants was confirmed by Northern blotting, and these RNAs efficiently down‐regulated Chs3b in the colonizing Fusarium pathogens on wheat seedlings and spikes. Our results demonstrate that host‐induced gene silencing of an essential fungal chitin synthase gene is an effective strategy for enhancing resistance in crop plants under field test conditions.