Sonic hedgehog-responsive lipoxygenases and cyclooxygenase-2 modulate Dectin-1-induced inflammatory cytokines

Immune responses during fungal infections are predominately mediated by 5/15-lipoxygenases (LO)-or cyclooxygenase (COX)-2-catalysed bioactive eicosanoid metabolites like leukotrienes, lipoxins and prostaglandins. Although few host mediators of fungi-triggered eicosanoid production have been established, the molecular mechanism of expression and regulation of 5-LO, 15-LO and COX-2 are not well-defined. Here, we demonstrate that, macrophages infected with representative fungi Candida albicans, Aspergillus flavus or Aspergillus fumigatus or those treated with Curdlan, a selective agonist of pattern recognition receptor for fungi Dectin-1, displays increased expression of 5-LO, 15-LO and COX-2. Interestingly, Dectin-1-responsive Syk pathway activates mTOR-sonic hedgehog (SHH) signaling cascade to stimulate the expression of these lipid metabolizing enzymes. Loss-of-function analysis of the identified intermediaries indicates that while Syk-mTOR-SHH pathway-induced 5-LO and 15-LO suppressed the Dectin-l-responsive pro-inflammatory signature cytokines like TNE-alpha, IL-1 beta and IL-12, Syk-mTOR-SHH-induced COX-2 positively regulated these cytokines. Dectin-1-stimulated IL-6, however, is dependent on 5-LO, 15-LO and COX-2 activity. Together, the current study establishes Dectin-1-arbitrated host mediators that direct the differential regulation of immune responses during fungal infections and thus are potential candidates of therapeutic intervention. (C) 2015 Elsevier Ltd. All rights reserved.

The mycobacterial iron-dependent regulator IdeR induces ferritin (bfrB) by alleviating Lsr2 repression

Emerging evidence indicates that precise regulation of iron (Fe) metabolism and maintenance of Fe homeostasis in Mycobacterium tuberculosis (Mtb) are essential for its survival and proliferation in the host. IdeR is a central transcriptional regulator of Mtb genes involved in Fe metabolism. While it is well understood how IdeR functions as a repressor, how it induces transcription of a subset of its targets is still unclear. We investigated the molecular mechanism of IdeR-mediated positive regulation of bfrB, the gene encoding the major Fe-storage protein of Mtb. We found that bfrB induction by Fe required direct interaction of IdeR with a DNA sequence containing four tandem IdeR-binding boxes located upstream of the bfrB promoter. Results of in vivo and in vitro transcription assays identified a direct repressor of bfrB, the histone-like protein Lsr2. IdeR counteracted Lsr2-mediated repression in vitro, suggesting that IdeR induces bfrB transcription by antagonizing the repressor activity of Lsr2. Together, these results elucidate the main mechanism of bfrB positive regulation by IdeR and identify Lsr2 as a new factor contributing to Fe homeostasis in mycobacteria.

Differential proteomic and genomic profiling of mouse striatal cell model of Huntington's disease and control; probable implications to the disease biology

Huntington's disease (HD) is an autosomal dominant disorder of central nervous system caused by expansion of CAG repeats in exon1 of the huntingtin gene (Htt). Among various dysfunctions originated from the mutation in Htt gene, transcriptional deregulation has been considered to be one of the most important abnormalities. Large numbers of investigations identified altered expressions of genes in brains of HD patients and many models of HD. In this study we employed 2D SDS-PAGE/MALDI-MS coupled with 2D-DIGE and real-time PCR experiments of an array of genes focused to HD pathway to determine altered protein and gene expressions in STHdh(Q111)/Hdh(Q111) cells, a cell model of HD and compared with STHdh(Q7)/Hdh(Q7) cells, its wild type counterpart. We annotated 76 proteins from these cells and observed differential expressions of 31 proteins (by 2D-DIGE) involved in processes like unfolded protein binding, negative regulation of neuron apoptosis, response to superoxides etc. Our PCR array experiments identified altered expressions of 47 genes. Altogether significant alteration of 77 genes/proteins could be identified in this HD cell line with potential relevance to HD biology. Biological significance: In this study we intended to find out differential proteomic and genomic profiles in HD condition. We used the STHdh cells, a cellular model for HD and control. These are mouse striatal neuronal cell lines harboring 7 and 111 knock -in CAG repeats in their two alleles. The 111Q containing cell line (STHdh(Q111)/Hdh(Q111)) mimics diseased condition, whereas the 7Q containing ones (STHdh(Q7)/Hdh(Q7)), serves as the proper control cell line. Proteomic experiments were performed earlier to obtain differential expressions of proteins in R6/2 mice models, Hdh(Q) knock -in mice and in plasma and CSF from HD patients. However, no earlier report on proteomic alterations in these two HD cell lines and control was available in literature. It was, therefore, an important objective to find out differential expressions of proteins in these two cell lines. In this study, we annotated 76 proteins from STHdh(Q7)/Hdh(Q7) and STHdh(Q111)/Hdh(Q111) cells using 2D-gel/mass spectrometry. Next, by performing 2D-DIGE, we observed differential expressions of 31 proteins (16 upregulated and 15 downregulated) between these two cell lines. We also performed customized qRT-PCR array focused to HD pathway and found differential expressions of 47 genes (8 gene exptessions increased and 39 genes were decreased significantly). A total of 77 genes/proteins (Htt downregulated in both the studies) were found to be significantly altered from both the experimental paradigms. We validated the differential expressions of Vim, Hypk, Ran, Dstn, Hspa5 and Sod2 either by qRT-PCR or Western blot analysis or both. Out of these 77, similar trends in alteration of 19 out of 31 and 38 out of 47 proteins/genes were reported in earlier studies. Thus our study confirmed earlier observations on differential gene/protein expressions in HD and are really useful. Additionally, we observed differential expression of some novel genes/proteins. One of this was Hypk, a Htt-interacting chaperone protein with the ability to solubilize mHtt aggregated structures in cell lines. We propose that downregulation of Hypk in STHdh-Qm (Q111)/Hdh(Q111) has a causal effect towards HD pathogenesis. Thus the novel findings from our study need further research and might be helpful to understand the molecular mechanism behind HD pathogenesis. (C) 2015 Elsevier B.V. All rights reserved.

Autoregulation of topoisomerase I expression by supercoiling sensitive transcription

The opposing catalytic activities of topoisomerase I (TopoI/relaxase) and DNA gyrase (supercoiling enzyme) ensure homeostatic maintenance of bacterial chromosome supercoiling. Earlier studies in Es-cherichia coli suggested that the alteration in DNA supercoiling affects the DNA gyrase and TopoI expression. Although, the role of DNA elements around the promoters were proposed in regulation of gyrase, the molecular mechanism of supercoiling mediated control of TopoI expression is not yet understood. Here, we describe the regulation of TopoI expression from Mycobacterium tuberculosis and Mycobac-terium smegmatis by a mechanism termed Supercoiling Sensitive Transcription (SST). In both the organisms, topoI promoter(s) exhibited reduced activity in response to chromosome relaxation suggesting that SST is intrinsic to topoI promoter(s). We elucidate the role of promoter architecture and high transcriptional activity of upstream genes in topoI regulation. Analysis of the promoter(s) revealed the presence of suboptimal spacing between the -35 and -10 elements, rendering them supercoiling sensitive. Accordingly, upon chromosome relaxation, RNA polymerase occupancy was decreased on the topoI promoter region implicating the role of DNA topology in SST of topoI. We propose that negative supercoiling induced DNA twisting/writhing align the -35 and -10 elements to facilitate the optimal transcription of topoI.

Role of G protein coupled inwardly rectifier K+ channels (GIRK) on the neurobiology depression

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A unified guide to two opposite size effects in nano elastic materials

The microstructural variation near surface of nano elastic materials is analyzed based on different potentials. The atomic/molecular mechanism underlying the variation and its effect on elastic modulus are such that the nature of long-range interactions (attractive or repulsive) in the atomic/molecular potentials essentially governs the variation near surface (looser or tighter) and results in two opposite size effects (decreasing or increasing modulus) with decreasing size.

Novel roles of the SRP RNA in co-translational protein targeting

The signal recognition particle (SRP) and its receptor (SR) are universally conserved protein machineries that deliver nascent peptides to their proper destination. The SRP RNA is a universally conserved and essential component of SRP, which serves as the “catalyst” of the protein targeting cycle. The SRP RNA accelerates SRP-SR complex formation at the beginning of the protein targeting reaction, and triggers GTP hydrolysis and SRP-SR complex disassembly at the end. Here we combined biochemical and biophysical approaches to investigate the molecular mechanism of the functions of the SRP RNA. We found that two functional ends in the SRP RNA mediate distinct functions. The tetraloop end facilitates initial assembly of SRP and SR by mediating an electrostatic interaction with the Lys399 receptor, which ensures efficient and accurate substrate targeting. At the later stage of the SRP cycle, the SRP-SR complex relocalizes ~ 100 Angstrom to the 5’,3’-distal end of the RNA, a conformation crucial for GTPase activation and cargo handover. These results, combined with recent structural work, elucidate the functions of the SRP RNA during the protein targeting reaction.

Direct visualization of the dynamics of membrane-anchor proteins in living cells

Dynamic properties of proteins have crucial roles in understanding protein function and molecular mechanism within cells. In this paper, we combined total internal reflection fluorescence microscopy with oblique illumination fluorescence microscopy to observe directly the movement and localization of membrane-anchored green fluorescence proteins in living cells. Total internal reflect illumination allowed the observation of proteins in the cell membrane of living cells since the penetrate depth could be adjusted to about 80 nm, and oblique illumination allowed the observation of proteins both in the cytoplasm and apical membrane, which made this combination a promising tool to investigate the dynamics of proteins through the whole cell. Not only individual protein molecule tracks have been analyzed quantitatively but also cumulative probability distribution function analysis of ensemble trajectories has been done to reveal the mobility of proteins. Finally, single particle tracking has acted as a compensation for single molecule tracking. All the results exhibited green fluorescence protein dynamics within cytoplasm, on the membrane and from cytoplasm to plasma membrane.

Antitumor activity of Py-Im polyamides

Molecules that inhibit DNA dependent processes are the most commonly used agents for the treatment of cancer. The genotoxicity associated with their mechanisms of action, unfortunately, make them extremely toxic to the patient and cancer cells alike. The work presented in this thesis outlines the development of Py-Im polyamides as non-genotoxic DNA-targeted antitumor molecules that interfere with RNA polymerase II elongation. We initially characterized the pharmacokinetic profiles of two hairpin polyamides to establish their bioavailability in the serum and tissues after a single administration. We next determined the molecular mechanism that contributes to toxicity of a hairpin polyamide in human prostate cancer cells in cell culture and we demonstrated antitumor effects of the compound against LNCaP xenografts in mice. Finally, we conducted animal toxicity experiments on 4 polyamides that vary on the gamma-turn with respect to the substitution of amino and acetamide groups at the alpha and beta positions. From this study we identified a second generation compound that retains antitumor activity with significantly reduce animal toxicity. This work sets the foundation for the development of Py-Im polyamides as DNA targeted therapeutics for the treatment of advanced prostate cancer.

Potencial antiinflamatório do extrato aquoso de Echinodorus macrophyllus e de suas frações em modelo de inflamação aguda

A Echinodorus macrophyllus (Alismataceae), conhecida como chapéu de couro no Brasil, é usada popularmente para tratar doenças reumáticas e inflamatórias. Neste trabalho, foram avaliados os efeitos antiinflamatórios do extrato aquoso de E. macrophyllus (EAEm) e suas frações etanólicas no modelo murino de air pouch. Para a obtenção das frações, 7 g do EAEm foram aplicadas em uma coluna cromatográfica aberta de sílica gel eluída com diferentes concentrações de etanol. Os cromatogramas do EAEm/frações foram obtidos usando um sistema de HPLC. Foram obtidas quatro frações, duas delas com maior rendimento. Resumidamente, a bolha de ar foi induzida pela injeção de 5 mL de ar estéril (s.c) no dorso de camundongos SW machos (25-35 g). Após 3 dias, mas 3 mL de ar estéril foram injetados para manter a bolha. No sexto dia, cada grupo (n = 4) foi tratado intraperitoneal (ip) ou oralmente (v.o) com EAEm (25 ou 250 mg/kg), Fr20 ou Fr40 (2,5, 25, 50 ou 100 mg/kg) e os controles com indometacina (10 mg/kg, v.o.) ou veículo (salina). Uma hora depois, 1 mL de salina ou de carragenina 1% estéril foi injetada dentro da bolha. Após 4 h, a cavidade foi lavada com NaCl 0,9%, EDTA 2 mM (1 mL), para a determinação do número de leucócitos, volume do exsudato e concentração de proteínas. Células do exsudato foram preparadas em citocentrífuga e coradas pelo método do Panótico para a contagem diferencial dos leucócitos. Cortes histológicos coletados dos diferentes grupos foram fixados com formol tamponado 10% (pH 7,4) por 7 dias, corados com HE e analisados em MO. A análise da expressão da iNOS e da COX-2 foi realizada em células do exsudato por RT-PCR. O acúmulo de nitrito (NO2−) no sobrenadante do cultivo de células RAW 264.7 foi determinado usando um ensaio colorimétrico baseado na reação de Griess. Os resultados foram expressos como média EP e comparados usando ANOVA seguido de teste de Dunnet. Os experimentos foram realizados em triplicata. No modelo air pouch, a injeção de carragenina 1% aumentou tanto a migração celular quanto a concentração de proteína no exsudato. Contudo, enquanto o pré-tratamento com a Fr40 aumentou a resposta inflamatória, o pré-tratamento com o EAEm e a Fr20, sobretudo por via i.p., inibiu esta resposta quando comparado ao grupo controle tratado apenas com o veículo. Assim, foram observadas as seguintes razões de inibição da migração de células: EAEm, i.p. a 25 mg/kg (66,44%) e a 250 mg/kg (87,27%) e Fr20 a 2,5 mg/kg (26,89%), 25 mg/kg (60,06%), 50 mg/kg (63,13%) e a 100 mg/kg (77,47%). Em relação à contagem diferencial, o EAEm e a Fr20 afetaram principalmente o número de neutrófilos, inibindo sua migração no exsudato. O EAEm e a Fr20 também reduziram a concentração total de proteínas no exsudato principalmente no tratamento i.p.; EAEm a 25 e 250 mg/kg mostrou 3,33 0,55 e 2,05 0,51 mg/mL, respectivamente, quando comparado aos grupos controles (Indometacina 2.88 0.64 mg/mL; Veículo 5.48 0.88 mg/mL). A Fr20 a 2,5, 25, 50 e 100 mg/kg mostrou 4,788 0,444, 1,417 0,519, 2,474 0,529 e 2,215 0, 361 mg/mL. A análise histológica mostrou infiltrado celular, principalmente composto de leucócitos polimorfonucleares ao longo da derme inflamada de animais tratados com veículo. O tratamento com o EAEm ou Fr20 reduziu a infiltração de leucócitos no tecido inflamado. Além disso, o tratamento com o EAEm e a Fr20 mostrou atividade supressora sobre a expressão de iNOS e COX-2, e mostrou efeitos inibitórios na produção de NO induzida por LPS. Concluindo, todos estes resultados confirmam o potencial antiinflamatório sugerido para esta planta e fornecem uma base para a compreensão de seus mecanismos moleculares de ação. Contudo, outros estudos devem ser realizados para melhor elucidar as vias pelas quais o EAEm e a Fr20 exercem seus efeitos antiinflamatórios. Além disso, estudos fitoquímicos devem ser realizados para identificar os compostos ativos no EAEm e na Fr20.

Estudo da sinalização da insulina nos tecidos muscular e adiposo de ratos submetidos à desnutrição materna no início da lactação

Vários estudos sugerem que a desnutrição materna no período pós-natal poderia causar alterações na homeostase glicêmica da prole na vida adulta. Neste trabalho objetivamos investigar a interferência da programação metabólica induzida pela desnutrição protéica materna durante o início da lactação sobre a homeostase glicêmica e a sinalização da insulina nos tecidos muscular e adiposo. Animais desnutridos (D-dieta da mãe contendo 0% de proteína nos primeiros 10 dias de lactação) ou controle (C-dieta da mãe contendo 22% de proteína) foram estudados do nascimento até a vida adulta. Em resumo, observamos uma diminuição na insulina plasmática acompanhada de normoglicemia nos animais adultos desnutridos. A ativação do receptor de insulina (IR), após a estimulação com o hormônio apresentou-se diminuída durante o período de restrição protéica em músculo isolado destes animais experimentais. Durante o período da lactação, observamos uma diminuição na captação de glicose, na fosforilação do substrato para o receptor de insulina (IRS 1) e na translocação do GLUT 4 no tecido muscular. Na idade adulta, entretanto, houve aumento significativo na captação de glicose e translocação do GLUT 4 no músculo, associado com o aumento na expressão da PI3 quinase associada ao IRS 1. No tecido adiposo de ratos desnutridos adultos observamos menor fosforilação em tirosina tanto do IR quanto do IRS 1, que foi compensada pela maior ativação do IRS 2 e da PI3 quinase. Os níveis basais de pAkt e de GLUT 4 na membrana estavam aumentados, culminando em um aumento na captação de glicose. Observamos também uma redistribuição do citoesqueleto de actina e maior resistência aos efeitos da Ltrunculina B nos adipócitos dos ratos desnutridos. Em conclusão, este estudo demonstrou que a desnutrição materna no início da lactação é capaz de causar alterações na prole na vida adulta, o que parece estar relacionado com a expressão e ativação de proteínas chave na cascata da sinalização da insulina nos tecidos periféricos, importantes na regulação do metabolismo da glicose.

五数苣苔(Bournea leiophylla)次生辐射对称花形成的分子机制和进化发育生物学研究

被子植物中，花对称性进化的一个重要方面就是从两侧对称向次生辐射对称的演化。唇形目是被子植物中以两侧对称花为主的类群，次生辐射对称花频繁发生。然而在分子发育水平上，除了模式植物金鱼草(Antirrhinum majus)和少数其他种外，从两侧对称花向次生辐射对称花演化的机制仍然是一个巨大的未被探索的领域。 在金鱼草和柳川鱼(Linaria vulgaris)中，腹部化反常整齐花的形成各自是由于CYC和LCYC的沉默所引起，这些基因沉默分别是由于转座子插入和DNA广泛甲基化所导致。在豆科(legumes)中，辐射对称花的形成是由于legCYC基因在所有五个花瓣均有表达，这相似于金鱼草中CYC基因同源异位表达所形成的背部化辐射对称花。然而，自然界中起源于不同的两侧对称花支系的许多次生辐射对称花好像并不是因为简单的花对称性基因功能丢失或者获得。因此，以模式植物突变体表型特征的分子机制作为研究出发点，通过对自然发生的次生辐射对称花进行详细研究探讨，有可能揭示两侧对称花向次生辐射对称花转变的新的演化途径，包括花对称性发育过程中不同基因的参与以及他们的表达在时间上的变化等。 苦苣苔科(Gesneriaceae)是唇形目(Lamiales sensu lato)其他类群的姊妹群, 以较弱的两侧对称花为特征，并拥有相当数量的次生辐射对称花种类;该科所拥有的辐射对称花属在唇形目所有科中占的比例最大。在苦苣苔科中，五数苣苔(Bournea leiophylla)是次生辐射对称花类群中具有两侧对称痕迹的代表类群，其花的发育过程显示出五数苣苔花经历了由花器官发育早期的两侧对称向成熟时期辐射对称的形态转变。这种发育模式暗示着五数苣苔的花可能起源于一个两侧对称花祖先;五数苣苔中控制花背腹非对称性的CYC类基因应该是有功能的，至少在花发育的早期是这样的。由于苦苣苔科和婆婆纳科(Veronicaceae)(金鱼草属于婆婆纳科)亲缘关系较近，而且CYC类基因的基本功能之一是导致背部雄蕊退化;因此五数苣苔中辐射对称花的形成很可能既不是由于CYC类基因失去，也不是因为CYC-类基因功能获得延伸或加强所致。在五数苣苔花发育过程中，从早期的两侧对称到成熟花的辐射对称的发育转变可能牵涉到TCP和MYB基因家族成员相互调节作用在时间和空间上的改变。因此，五数苣苔是探讨被子植物中次生辐射对称花新的进化途径的一个理想的候选材料。针对解决这一问题，我们对五数苣苔花进行了以下实验研究： 1 花器官发生过程的观察 成熟的五数苣苔花是辐射对称花，但是对花发育过程中花原基电镜扫描结果表明：在花器官起始和发育的早期，五数苣苔花是显著的两侧对称;但是随着进一步发育，这种两侧对称性逐步减弱，最后形成具有微弱两侧对称性痕迹的辐射对称花。 2 花对称性基因的克隆 我们应用RACE技术克隆得到了五数苣苔花对称性同源基因：BlDIV1、BlDIV2和BlRAD的翻译区全序列及其上下游非翻译区，得到了BlCYC1的3‘端翻译区和非翻译区序列。为了确定这些基因内含子的有无和位置，我们也从DNA中得到了相应同源基因的DNA序列，并且补全了BlCYC1的5‘端序列。同时也克隆到了一个没有在mRNA中得到的CYC同源基因BlCYC2。在该实验中我们第一次在金鱼草以外的类群中克隆得到了DIV和RAD的同源基因。 3 序列比较和分子系统发育分析 运用不同的比较软件和分子系统发育分析工具对五数苣苔的花对称性基因进行了比较和分析。结果表明：五数苣苔各种类型的花对称性基因和金鱼草的花对称基因在序列上是高度同源的，在分子系统发育上是非常近缘的。暗示着五数苣苔花对称性基因和金鱼草花对称性基因功能上的同源性。 4 花对称称性基因表达模式的分析 我们第一次运用组织原位杂交和RT-PCR技术对在金鱼草以外类群中所有已知类型花对称性同源基因的表达模式进行了实验研究。结果表明：五数苣苔花对称性基因的表达模式在花发育的早期类似于金鱼草;但是早期以后，BlCYC1和BlRAD被负调节，BlDIV的表达特异地在每个花瓣侧部边缘表达;这种表达结果和花的形态发生过程有很好的吻合。 上述研究表明：和金鱼草花对称基因的表达模式相比，五数苣苔三种类型花对称性基因在花发育过程中的时间和空间表达模式发生了改变;并且这种表达模式变化和五数苣苔花对称性由发育起始时期的两侧对称向成熟时期的辐射对称的转变是相互关联的。五数苣苔具有两侧对称性痕迹的辐射对称花和其他类群辐射对称花的比较显示：在五数苣苔中发育早期的两侧对称性应该是两侧对称性的遗迹;这是由于BlCYC1和BlRAD基因早期表达的保守性造成的。我们的结果揭示了一个新的花对称性演化路径：在花发育过程中，被CYC-like基因推动的RAD和DIV同源基因之间相互调节作用在时间和空间上的变化是花对称性从两侧对称向辐射对称转变或演化的基础;我们的发现还预示着：在一个调节网络的动态变化过程中，一个预先存在的两侧对称发育程序的修饰调节可能在被子植物次生辐射对称花多样性的形成中扮演重要角色。

植物分子伴侣热休克蛋白90（Hsp90）的分子作用机理及抗逆基因工程研究

热激蛋白90是广泛存在于各类细菌和真核生物中的一类高度保守的分子伴侣，它对维持细胞生命是绝对必需的。对Hsp90的相关认知主要来源于对动物和酵母细胞的研究，植物Hsp90的研究甚少。由于植物的特殊性，因此对植物Hsp90的研究是对Hsp90未知功能的有力补充。拟南芥中有7个Hsp90蛋白，其中AtHsp90-1、AtHsp90-2、AtHsp90-3和AtHsp90-4定位在细胞质中，AtHsp90-5、AtHsp90-6和AtHsp90-7分别定位在叶绿体、线粒体和内质网中。本文对拟南芥中的AtHsp90-1、AtHsp90-2、AtHsp90-5、AtHsp90-6和AtHsp90-7五个基因进行了克隆，并分别利用酵母互补、双杂交和拟南芥过表达体系几个层面进行了功能分析。 我们利用酵母穿梭载体p416GPD构建了五个AtHsp90基因的酵母表达载体，将其转入Hsp90基因点突变和条件型缺失的酵母菌株iG170D和R0005中。酵母功能互补实验表明细胞质定位的AtHsp90-1和AtHsp90-2可以在各种胁迫条件下互补酵母Hsp90的功能，而定位于细胞器中的AtHsp90-5、 AtHsp90-6和AtHsp90- 7则在任何条件下都不能互补酵母Hsp90的功能。我们还对转基因酵母进行了液体培养的动态观测和细胞膜完整性检测，其结果和固体培养的结果一致。这说明细胞质Hsp90的功能具有一定的保守性，细胞器Hsp90的功能有其特殊性。 热激蛋白90在执行其生物功能时，需要和大量的辅助因子相互作用，因此我们利用酵母双杂交体系检测了AtHsp90-1、AtHsp90-2、AtHsp90-5、AtHsp90-6和AtHsp90-7五个Hsp90蛋白和Hsp70、p23、Cyp40、NOS等几个辅助因子之间的相互作用情况。双杂交结果显示AtHsp90-1和AtHsp90-2几乎不和所选的这几个辅助因子相互作用，AtHsp90-5可以和所有的辅助因子相互作用、AtHsp90-6可以和除Hsp70以外的辅助因子相互作用，AtHsp90-7也可以和所有的辅助因子相互作用但和Hsp70及Hsp70t-2和互作较其他辅助因子弱一些。可以看出胞质Hsp90和细胞器Hsp90在和辅助因子相互作用时有一定的差异。 为了进一步了解拟南芥个Hsp90基因在抗非生物逆境中的作用，我们又将AtHsp90-2、AtHsp90-5、AtHsp90-7基因插入植物表达载体pBI121，用农杆菌介导的浸蕾法将这三个基因转入拟南芥并在其中过量表达，并研究了这些基因的过表达植株的种子和幼苗对多种模拟非生物逆境的响应。结果显示，转基因种子和幼苗对ABA、盐(NaCl)、干旱(甘露醇)、高温、氧化、高钙等非生物逆境都表现出了敏感，转细胞器Hsp90的种子和幼苗比转细胞质Hsp90的更为敏感。但在高浓度钙离子胁迫下，幼苗表现情况与盐、旱和氧化等非生物逆境处理下的情况正好相反，转细胞器Hsp90的幼苗比转细胞质Hsp90的长得健壮。这些结果表明Hsp90参与了植物抵抗非生物逆境的反应，其作用可能是通过ABA和Ca2+途径实现的，然而体内Hsp90的动态平衡可能才是植物抵抗非生物逆境的关键。

显花植物器官形成激素调控的分子机理研究

本论文以显花植物水稻和拟南芥为对象，研究植物器官形成激素调控的分子机理。发现拟南芥干细胞决定基因WUS和ABA信号关键调节因子ABI3间存在相互调节关系，它们对质体和根毛发育等具有调控作用；运用细胞学手段对OsAGAP和OsRMC调控根发育的机理进行了研究。这些结果为了解ABA、生长素和JA等激素对分生组织或根等器官的形成的调控机理提供了新资料。 拟南芥WUS基因是一个重要的干细胞决定基因。在茎尖分生组织和花分生组织的动态平衡调节中各存在一个反馈调节环：WUS促进CLV3的表达，而CLV3 反馈抑制WUS表达，它们共同决定干细胞的数目；在WUS+LFY 和AG之间也存在一个类似的反馈环，负责花器官的正常启动和终止。本工作发现在外源ABA 存在下，拟南芥WUS功能获得突变体sef (stem ectopic flowers)子叶黄化过程受到抑制，即sef突变体对ABA 的敏感性降低，而且在sef突变体中ABI3转录水平下调，说明WUS 抑制ABI3的表达。另一方面，在abi3突变体中WUS转录水平下降，启动子分析发现WUS是ABI3所在的B3结构域家族基因的靶基因，酵母单杂交实验表明B3家族蛋白FUS3可以与WUS调控区结合；外源ABA 处理pWUS::GUS植株发现ABA可使WUS异位表达，暗示受ABA信号诱导的B3类转录因子可与WUS调控区结合，从而促进WUS的表达。这些结果支持ABI3/WUS间的反馈调节机理，该调节环可能参与调控拟南芥质体和根毛发育等过程。 双子叶和单子叶植物的发育和器官形成高度依赖生长素极性运输（PAT）， 生长素输入和输出载体的准确定位对于极性运输的正常进行是必要的。在双子叶模式植物拟南芥中，生长素输出载体PIN1的转运和定位受小G蛋白ARF鸟苷酸转换因子GNOM介导。本实验室克隆到一个水稻ARF GAPase激活蛋白OsAGAP， 其超表达引起PAT改变且干扰主根和侧根的发生及发育。前期生理实验显示超表达植株侧根的表型可被膜渗透性生长素NAA恢复，但不能被载体依赖型生长素IAA和2, 4-D恢复。为了解释OsAGAP过表达引起根系发育受到抑制的表型，本工作主要从细胞学角度继续深入分析OsAGAP介导生长素运输的机理。实验发现，OsAGAP超表达植株中AUX1在细胞中分布改变；生长素输出载体PIN1和PIN2的定位不受影响；该基因的超表达使囊泡聚集，形成类似囊泡运输抑制剂BFA处理后的结构；OsAGAP与细胞转运系统中的高尔基体存在部分共定位。以上结果表明OsAGAP调节小G蛋白Arf的活性，参与调控生长素极性运输过程，进而调控根系发育。通过对JA诱导的OsRMC蛋白的膜定位分析及转基因植株根中JA合成水平的测定，为研究此蛋白参与JA信号、调控根系发育提供了直接证据。 此外，论文还对拟南芥STAR2基因的功能进行了一定的初探。

光系统II反应中心复合物组成性质与光仰制分子机理研究

由于光系统Ⅱ反应中心Dl/D2/Cyt b559色素蛋白复合物(PSII-RC)的红 区吸收光谱严重重叠，给其组成特性研究及光抑制分子机理研究造成 了困难，因此我们运用多种光谱分析技术配合计算机数据处理技术对 PSII-RC复合物的组成特性进行了研究，并用自己建立的方法对PSII-RC 的色素和多肽的化学计量进行了进一步确定，另外还重点研究了单线 态氧在PSII-RC光破坏中的作用，据此提出新的PSD[-RC光抑制分子机 理。主要结果如下： 1．用反相HPLC外标法测定我们制备的色谱纯PSR-RC样品的色素化 学计量结果为Chl:Pheo:Car= 6:2:2。我们发现，当PSII-RC中存在微量CP47 时，Chl: Pheo的比例与CP47的含量呈正相关关系，说明较高的Chl比例 可能表示样品中有CP47污染。结果还表明PSII-RC中Car: Pheo的比例也与 CP47含量有关，说明CP47可影响Car在PSII-RC上的结合，这暗示CP47可 能结合Car，或者CP47对PSII-RC上Car的结合位点有影响，这一推测对阐 明CP47的功能有一定启发作用。 2．建立了一种估算PSII-RC多肽化学计量的理论计算方法，即利用计 算机统计PSII-RC中各多肽组分的不同氨基酸残基数量，以确定不同多 肽化学计量时的理论氨基酸残基组成，并与PSlI-RC的实测氨基酸残基 组成进行比较，得到所用PSII-RC样品的多肽化学计量值为D1+D2:Cyt b559-o+邮：I=2:1:1. 3．对PSII-RC的红区吸收光谱进行了高斯解析，发现680 nm附近含有 峰高和半高宽明显不同的两个高斯组分，它们对光抑制处理的响应具 有明显差别，分别表现了P680和Pheo的特征。由此可知，在680nm处除了 有P680的信号外，PSII-RC中的Pheo在这个区域也有跃迁组分。这个结果 表明光抑制进程中PSII-RC红区吸收光谱信号的下降除了P680的破坏 外，还与Pheo的破坏有关。 4．用Ste)anov关系式分析了PSII-RC色素激发态分布的平衡状态，发现 经过暗适应的PSII-RC的激发态可达到充分的平衡，光抑制处理可导致 PSIL-RC激发态平衡受到破坏。 5．用荧光发射光谱观察到PSII-RC在光抑制进程中有弱光破坏和强光 破坏两个破坏过程，前者是与色素间能量传递的色素结合状态与 取向的破坏，后者与色素本身化学结构的破坏有关。通过研究不同激发波长下的发射光谱发现Car的弱光破坏过程比Chl快，暗示Car可能的保护作用，而Pheo的破坏程度比Chl小。从发射光谱组分的光破坏时间 进程推断强光破坏过程导致的色素破坏是多步反应，验证我们小组原 先报导的PSII-RC的多步反应特性。 6．首次将磁圆二色光谱( MCD)技术应用于PSII-RC研究，发现MCD明显表现出比吸收光谱要丰富得多的光谱精细结构，同时还具有较高的灵敏度和分辨率，不经过任何解析就可直接观察到680 nm组分及其它色素组分的变化，而且PSⅡ-RC中的Car没有明显MCD信号，使PSII-RC谱 图简化，便于进一步分析。用MCD技术还观察到光抑制初期Chl从PSII- RC复合物上脱离及Pheo的光破坏现象。 7．分别用HPLC法、吸收光谱高斯解析法、荧光发射光谱分析法和MCD法共四种方法证明了PSII-RC中Pheo的光破坏，充分证实我们小组关于Pheo光破坏的报导，同时还证明Pheo的光破坏是单线态氧作用的结果。 8．给出了单线态氧参与PSII-RC色素和蛋白光破坏的直接实验证 据，即发现光抑制过程中色素和蛋白的破坏受到单线态氧的特异性清除剂的保护，用化学方法在暗中产生的单线态氧同样造成与光抑制相 似的PSII-RC各组分的损伤，由此说明单线态氧是PSII-RC光抑制过程中 的直接破坏因子。 9．提出了PSII-RC中Hiis残基光破坏的一种新的分子机理。用组氨酸残基的特异性化学修饰剂证实以前我们实验室发现的PSI[-RC组氨酸残基的光破坏，根据比较蛋白变性前后的测定结果，初步证明PSIl-RC中 受光破坏的His残基位于P680附近。我们还观察到光抑制处理后，PSII- RC表现与组氨酸残基被修饰后的样品相似的紫外吸收特征，由此提出 PSII-RC中His残基光破坏的一种分子机理，即His残基的眯唑环上的两个氮原子与其它多肽上的游离氨基在单线态氧的作用下发生反应形成酰 胺键而导致PsII-RC多肽间的共价交联，推测PSII-RC中His残基的光破坏与其蛋白的光致交联和降解有直接的因果联系。