多聚亚基蛋白质在固-液界面团聚的测量与表征

以血红蛋白和乙肝表面抗原(HBsAg)为模型,联用双偏振光干涉分析仪(DPI)和原子力显微镜(AFM)研究在固-液界面上的吸附行为.结果发现:当溶液环境中血红蛋白的质量浓度为1.08 mg/mL时,测得在硅羟基表面吸附的平均厚度为3.54 nm,蛋白颗粒直径达60～ 150 nm,远高于血红蛋白的分子尺寸,说明血红蛋白在固-液界面上发生团聚.当HBsAg质量浓度为0.67 mg/mL时,测得在硅羟基表面及DEAE琼脂糖表面吸附的平均厚度分别为1.06和23.69 nm,表面吸附的蛋白颗粒直径分别为288～401和520 ～ 971 nm,是单分子HBsAg尺寸的13.1～44.1倍,表明在模型蛋白表面都形成了大的团聚体.     

禾谷镰刀菌蛋白激酶研究进展

由禾谷镰刀菌引起的小麦赤霉病是小麦生产最重要的真菌病害之一,除了造成严重的产量损失外,其病原菌还会产生多种真菌毒素危害人畜健康。蛋白激酶在禾谷镰刀菌生长发育、植物侵染和胁迫应答等方面具有重要作用。综述了禾谷镰刀菌主要蛋白激酶在生物学功能和分子作用机制等方面的研究进展,并对未来禾谷镰刀菌蛋白激酶的研究趋势进行了展望,以期为今后禾谷镰刀菌蛋白激酶的研究与小麦赤霉病的防治提供理论参考。     

Comparison of genetic variability at multiple loci across the genomes of the major subtypes of Kaposi's sarcoma-associated herpesvirus reveals evidence for recombination and for two distinct types of open reading frame K15 alleles at the right-hand end.

Kaposi's sarcoma (KS)-associated herpesvirus or human herpesvirus 8 (HHV8) DNA is found consistently in nearly all classical, endemic, transplant, and AIDS-associated KS lesions, as well as in several AIDS-associated lymphomas. We have previously sequenced the genes for the highly variable open reading frame K1 (ORF-K1) protein from more than 60 different HHV8 samples and demonstrated that they display up to 30% amino acid variability and cluster into four very distinct evolutionary subgroups (the A, B, C, and D subtypes) that correlate with the major migrationary diasporas of modern humans. Here we have extended this type of analysis to six other loci across the HHV8 genome to further evaluate overall genotype patterns and the potential for chimeric genomes. Comparison of the relatively conserved ORF26, T0.7/K12, and ORF75 gene regions at map positions 0. 35, 0.85, and 0.96 revealed typical ORF-K1-linked subtype patterns, except that between 20 and 30% of the genomes analyzed proved to be either intertypic or intratypic mosaics. In addition, a 2,500-bp region found at the extreme right-hand side of the unique segment in 45 HHV8 genomes proved to be highly diverged from the 3,500-bp sequence found at this position in the other 18 HHV8 genomes examined. Furthermore, these previously uncharacterized "orphan" region sequences proved to encompass multiexon latent-state mRNAs encoding two highly diverged alleles of the novel ORF-K15 protein. The predominant (P) and minor (M) forms of HHV8 ORF-K15 are structurally related integral membrane proteins that have only 33% overall amino acid identity to one another but retain conserved likely tyrosine kinase signaling motifs and may be distant evolutionary relatives of the LMP2 latency protein of Epstein-Barr virus. The M allele of ORF-K15 is also physically linked to a distinctive M subtype of the adjacent ORF75 gene locus, and in some cases, this linkage extends as far back as the T0.7 locus also. Overall, the results suggest that an original recombination event with a related primate virus from an unknown source introduced exogenous right-hand side ORF-K15(M) sequences into an ancient M form of HHV8, followed by eventual acquisition into the subtype C lineage of the modern P-form of the HHV8 genome and subsequent additional, more recent transfers by homologous recombination events into several subtype A and B lineages as well.     

Enzymatic enantioselective transcyanation of silicon-containing aliphatic ketone with (S)-hydroxynitrile lyase from Manihot esculenta

(S)-Hydroxynitrile lyase from Manihot esculenta (MeHNL) was shown for the first time to be able to catalyze the enantioselective transcyanation of acetyltrimethylsilane (ATMS) with acetone cyanohydrin to form (S)-2-trimethylsilyl-2-hydroxyl-propionitrile in an aqueous/organic biphasic system. To better understand the reaction, various influential variables were examined. The most suitable organic phase, optimal buffer pH, aqueous phase content, shaking rate, temperature, concentration of ATMS, acetone cyanohydrin and crude enzyme were diisopropyl ether (DIPE), 5.4, 13% (v/v), 190 rpm, 40°C, 10 mM, 20 mM, and 35 U/ml, respectively, under which the initial reaction rate, substrate conversion and product enantiomeric excess (e.e.) were 19.5 mM/h, 99.0% and 93.5%, respectively. A comparative study demonstrated that silicon atoms in the substrate had a great effect on the reaction, and that ATMS was a much better substrate for MeHNL than its carbon analogue 3,3-dimethyl-2-butanone (DMBO) with respect to the initial reaction rate, substrate conversion and product e.e. MeHNL has greater affinity towards ATMS than its carbon analogue as indicated by the much lower K_m. The activation energy of MeHNL-catalyzed transcyanation of ATMS was also markedly lower than that of DMBO. The silicon effect on the reaction was rationalized on the basis of the special characteristics of silicon atoms and the catalytic mechanism of MeHNL.     

Genetic variations at urotensin II and urotensin II receptor genes and risk of type 2 diabetes mellitus in Japanese

Urotensin II is among the most potent vasoactive hormones known and the urotensin II (UTS2) gene is localized to 1p36-p32, one of the regions reported to show possible linkage with type 2 diabetes in Japanese. When we surveyed genetic polymorphisms in the UTS2 and urotensin II receptor (GPR14) gene, we identified two SNPs with amino acid substitutions (designated T21M and S89N and an SNP in the promotor region (-605G>A) of the UTS2 gene, and two SNPs in the non-coding region of the GPR14 gene. We then studied these three SNPs in the UTS2 gene and two SNPs in the GPR14 gene in 152 Japanese subjects with type 2 diabetes mellitus and two control Japanese populations. The allele frequency of 89N was significantly higher in type 2 diabetic patients than in both elderly normal subjects (P = 0.0018) and subjects with normal glucose tolerance (P = 0.0011), whereas the allele frequency of T21M and -605G>A in the UTS2 gene and those of two SNPs in the GPR14 gene were essentially identical in these three groups. Furthermore, in the subjects with normal glucose tolerance, 89N was associated with significantly higher insulin levels on oral glucose tolerance test, suggesting reduced insulin sensitivity in subjects with 89N. These results strongly suggest that subjects with S89N in the UTS2 gene are more insulin-resistant and thus more susceptible to type 2 diabetes mellitus development.     

Lipid phosphate phosphatases regulate signal transduction through glycerolipids and sphingolipids

Lipid phosphate esters including lysophosphatidate (LPA), phosphatidate (PA), sphingosine 1-phosphate (S1P) and ceramide 1-phosphate (C1P) are bioactive in mammalian cells and serve as mediators of signal transduction. LPA and S1P are present in biological fluids and activate cells through stimulation of their respective G-protein-coupled receptors, LPA(1-3) and S1P(1-5). LPA stimulates fibroblast division and is important in wound repair. It is also active in maintaining the growth of ovarian cancers. S1P stimulates chemotaxis, proliferation and differentiation of vascular endothelial and smooth muscle cells and is an important participant in the angiogenic response and neovessel maturation. PA and C1P are believed to act primarily inside the cell where they facilitate vesicle transport. The lipid phosphates are substrates for a family of lipid phosphate phosphatases (LPPs) that dramatically alter the signaling balance between the phosphate esters and their dephosphorylated products. In the case of PA, S1P and C1P, the products are diacylglycerol (DAG), sphingosine and ceramide, respectively. These latter lipids are also bioactive and, thus, the LPPs change signals that the cell receives. The LPPs are integral membrane proteins that act both inside and outside the cell. The "ecto-activity" of the LPPs regulates the circulating and locally effective concentrations of LPA and S1P. Conversely, the internal activity controls the relative accumulation of PA or C1P in response to stimulation by various agonists thereby affecting cell signaling downstream of EDG and other receptors. This article will review the various LPPs and discuss how these enzymes could regulate signal transduction by lipid mediators.     

耐热性碱性磷酸酯酶作为非放射性标记物的研究

通过生物素与亲和素－酶复合物系统或地高辛与抗地高辛－酶复合物系统可把酶间接标记到探针上．Ｒｅｎｚ等通过不同的化学方法直接把酶标记到探针上［１～３］．耐热性碱性磷酸酯酶ＦＤ－ＴＡＰ（ｔｈｅｒｍｏｓｔａｂｌｅａｌｋａｌｉｎｅｐｈｏｓｐｈａｔａｓｅ）具有耐...     

大气CO2浓度升高对植物的直接影响-国外十余年来模拟实验研究主要手段及基本结论

 本文针对国外近十几年来在CO2浓度升高对植物的直接影响方面所开展的生理生态学研究方法、动态、基本结论、存在问题等内容做了简要的介绍。大气CO2浓度在过去200年内已增加了80μmol·mol-1,生长在高CO2环境下的植物,其生理生态、形态及化学成分等方面将会发生相应的变化。表现在光合作用速率出现不同程度的提高;呼吸作用受抑制;气孔密度减少,水分利用效率增加;生物量及产量增加;一些关键蛋白质及酶、非结构性碳水化合物含量增加;组织中的氮、硫等元素含量降低;根系及花的发育也随CO2浓度的升高而提前等。不同光合途径(C3、C4及CAM)及不同植被类型(自然植被、栽培植被)的植物随CO2浓度发生的上述指标的变化在长期反应与短期反应方面具有很大的差异。另外,实验控制条件如温度、光照、水分、养分甚至实验装置(如花盆)的大小对预测结果也有很大的影响。