Role of the Cys 2-Cys 10 disulfide bond for the structure, stability, and folding kinetics of ribonuclease T1.

The Cys 2-Cys 10 disulfide bond in ribonuclease T1 was broken by substituting Cys 2 and Cys 10 by Ser and Asn, respectively, as present in ribonuclease F1. This C2S/C10N variant resembles the wild-type protein in structure and in catalytic activity. Minor structural changes were observed by 2-dimensional NMR in the local environment of the substituted amino acids only. The thermodynamic stability of ribonuclease T1 is strongly reduced by breaking the Cys 2-Cys 10 bond, and the free energy of denaturation is decreased by about 10 kJ/mol. The folding mechanism is not affected, and the trans to cis isomerizations of Pro 39 and Pro 55 are still the rate-limiting steps of the folding process. The differences in the time courses of unfolding and refolding are correlated with the decrease in stability: the folding kinetics of the wild-type protein and the C2S/C10N variant become indistinguishable when they are compared under conditions of identical stability. Apparently, the Cys 2-Cys 10 disulfide bond is important for the stability but not for the folding mechanism of ribonuclease T1. The breaking of this bond has the same effect on stability and folding kinetics as adding 1 M guanidinium chloride to the wild-type protein.     

淋病奈瑟菌肽基脯氨酰异构酶的原核表达及其作为候选疫苗的初步评价

【背景】淋病是我国主要的性传播疾病之一,感染淋病奈瑟菌可促进人类免疫缺陷病毒(human immunodeficiency virus, HIV)的传播和感染。目前我国淋病发病人数呈上升趋势,随着多重耐药菌株的出现,亟须研发保护性疫苗来防治淋病的传播和感染。【目的】分析淋病奈瑟菌(Neisseria gonorrhoeae, NG)肽基脯氨酰异构酶(peptidyl-prolyl isomerase, PPIase)蛋白的高级结构和表位,探讨其作为疫苗和分子诊断靶点的潜力。【方法】利用生物信息学软件分析PPIase蛋白的极性、亲水性、柔韧性、表面可及性、二级和三级结构,以及T、B细胞表位等;用pET32a(+)质粒构建PPIase蛋白的原核表达系统并纯化蛋白,用纯化的重组蛋白和超声波破碎的NG全菌抗原分别免疫BALB/c小鼠,收获免疫血清;制备NG全细胞抗原,分别以全细胞抗原酶联免疫吸附试验(enzyme linked immunosorbent assay, ELISA)和间接免疫荧光试验检测重组PPIase蛋白血清抗体与NG全细胞表面抗原的结合情况。【结果】生物信息学分析结果显示,...     

Crystal structure of Streptomyces diastaticus No. 7 strain M1033 xylose isomerase

The crystal structures of Streptomyces diastaticus No. 7 strain M1033 xylose isomerase (SDXyI) have been analysed and refined at 0.19nm. The crystal space group is I222, with unit cell dimensions of a=9.884 ran, b=9.393nm and c=8.798nm. Based on the coordinates of the Streptomyces rubiginosus xylose isomerase (SRXyI), the initial model of SDXyl was built up by the dose packing analysing and R-factor searching and refined by PROLSQ to a final R-factor of 0.177 with the rms deviations of bond lengths and bond angles of 0.001 9nm and 2.1°, respectively. No significant global conformation change existed between SRXyI and SDXyI except the local conformation in the active site.     

GI双突变体GIK253RA198C的构建及其性质分析

以双引物法对葡萄糖异构酶（GI）基因进行定点突变,将突变体基因于大肠杆菌中表达,获得了GI双点突变体GIK253RA198C.研究K253R和A198C双点突变对GI的结构和性质的作用,结果表明GIK253RA198C的热稳定性明显下降,最适反应温度降低5℃.文章从结构和机制上解释了为何同是K253R突变,对SM33 GI和密苏里游动放线菌GI的热稳定性产生不同的影响,认为这是由于Lys253在两种GI结构的位置上存在微小差异,从而使引入的Arg对亚基间的相互作用产生了相反效应所引起.     

An Estimate of Divergence Time of Parazoa and Eumetazoa and That of Cephalochordata and Vertebrata by Aldolase and Triose Phosphate Isomerase Clocks

Previously we suggested that four proteins including aldolase and triose phosphate isomerase (TPI) evolved with approximately constant rates over long periods covering the whole animal phyla. The constant rates of aldolase and TPI evolution were reexamined based on three different models for estimating evolutionary distances. It was shown that the evolutionary rates remain essentially unchanged in comparisons not only between different classes of vertebrates but also between vertebrates and arthropods and even between animals and plants, irrespective of the models used. Thus these enzymes might be useful molecular clocks for inferring divergence times of animal phyla. To know the divergence time of Parazoa and Eumetazoa and that of Cephalochordata and Vertebrata, the aldolase cDNAs from Ephydatia fluviatilis, a freshwater sponge, and the TPI cDNAs from Ephydatia fluviatilis and Branchiostoma belcheri, an amphioxus, have been cloned and sequenced. Comparisons of the deduced amino acid sequences of aldolase and TPI from the freshwater sponge with known sequences revealed that the Parazoa–Eumetazoa split occurred about 940 million years ago (Ma) as determined by the average of two proteins and three models. Similarly, the aldolase and TPI clocks suggest that vertebrates and amphioxus last shared a common ancestor around 700 Ma and they possibly diverged shortly after the divergence of deuterostomes and protostomes.     

Genetic control of chalcone isomerase activity in anthers of Petunia hybrida

The gene Po in pollen of Petunia hybrida Vilm. controls a discrete step in flavonoid biosynthesis. In recessive genotypes, naringenin-chalcone (4, 2,4,6-tetrahydroxychalcone) is accumulated, whereas, under the influence of the wild-type allele flavonols and anthocyanins are formed. Enzymic investigations on anthers of four genetically defined lines with different pollen colouration revealed a clear correlation between accumulation of naringenin-chalcone and deficiency of chalcone isomerase (EC 5.5.1.6). The results allow the conclusion that chalcone is the first product of the flavanone synthase reaction in anthers of Petunia hybrida and that chalcone isomerase is essential for the formation of flavonols and anthocyanins. These results were similar to those previously obtained with Callistephus chinensis (L.) Nees.Abbreviations EGME ethylen glycol monomethyl ether - MeOH methanol - CI chalcone isomerase - HOAc acetic acid - TLC thinlayer chromatography     

Carbohydrate catabolism in harvested mushrooms

The activities of five enzymes of carbohydrate catabolism were assayed in mushrooms stored for up to four days at 18°. Glucose-6-phosphate dehydrogen     

The effect of temperature on CL 218872 and propyl beta-carboline-3-carboxylate inhibition of [3H]-flunitrazepam binding in rat brain

The competitive inhibition of [³H]-flunitrazepam binding by CL 218872 and propyl beta-carboline-3-carboxylate (PCC), non-benzodiazepine compounds that show differential affinities for benzodiazepine (BZD) receptor subtypes, was studied in the rat cerebral cortex and hippocampus at different temperatures of incubation. The potency of both inhibitors was significantly greater at 0° than at 37°C. The magnitude of temperature induced enhancement of potency may correlate with the pharmacological efficacy of compounds that interact with BZD receptors. Hill slopes for CL 218872 shifted from 0.52 to 0.97 in the cerebral cortex when incubations were performed at 0° and 37°C, respectively. Hill values for PCC changed from 0.68 to 0.93 under similar temperature conditions. These observations suggest the presence of a homogenous population of benzodiazepine receptors at physiological temperatures or the inability of CL 218872 and PCC to distinguish between receptor subtypes at 37°C.     

Molecular Analysis of Plant Defense Responses to Plant Pathogens

A number of inducible plant responses are believed to contribute to disease resistance. These responses include the hypersensitive reaction, phytoalexin synthesis, and the production of chitinase, glucanase, and hydroxyproline-rich glycoproteins. Because of the coordinate induction of these responses, it has been difficult to determine whether they are functional defense responses, and if they are, how they specifically contribute to disease resistance. Recent developments in molecular biology have provided experimental techniques that will reveal the specific contribution of each response to disease resistance. In this paper, we describe a strategy to determine if the hypersensitive reaction is a functional plant defense mechanism.     

Quinone and quinone methide as transient intermediates involved in the side chain hydroxylation of N-acyldopamine derivatives by soluble enzymes from Manduca sexta cuticle.

Proteins solubilized from the pharate cuticle of Manduca sexta were fractionated by ammonium sulfate precipitation and activated by the endogenous enzymes. The activated fraction readily converted exogenously supplied N-acetyldopamine (NADA) to N-acetylnorepinephrine (NANE). Either heat treatment (70 degrees C for 10 min) or addition of phenylthiourea (2.5 microM) caused total inhibition of the side chain hydroxylation. If chemically prepared NADA quinone was supplied instead of NADA to the enzyme solution containing phenylthiourea, it was converted to NANE. Presence of a quinone trap such as N-acetylcysteine in the NADA-cuticular enzyme reaction not only prevented the accumulation of NADA quinone, but also abolished NANE production. In such reaction mixtures, the formation of a new compound characterized as NADA-quinone-N-acetylcysteine adduct could be readily witnessed. These studies indicate that NADA quinone is an intermediate during the side chain hydroxylation of NADA by Manduca cuticular enzyme(s). Since such a conversion calls for the isomerization of NADA quinone to NADA quinone methide and subsequent hydration of NADA quinone methide, attempts were also made to trap the latter compound by performing the enzymatic reaction in methanol. These attempts resulted in the isolation of beta-methoxy NADA (NADA quinone methide methanol adduct) as an additional product. Similarly, when the N-beta-alanyldopamine (NBAD)-Manduca enzyme reaction was carried out in the presence of L-kynurenine, two diastereoisomers of NBAD quinone methide-kynurenine adduct (= papiliochrome IIa and IIb) could be isolated.(ABSTRACT TRUNCATED AT 250 WORDS)