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121.
Polysaccharases for microbial exopolysaccharides 总被引:6,自引:0,他引:6
Ian W. Sutherland 《Carbohydrate polymers》1999,38(4):319-328
Microbial exopolysaccharides (EPS) are the substrates for a wide range of enzymes most of which are highly specific. The enzymes are either endoglycanases or polysaccharide lyases and their specificity is determined by carbohydrate structure with uronic acids often playing a major role. The presence of various acyl substituents frequently has little effect on the action of many of the polysaccharases but markedly inhibits some of the polysaccharide lyases including alginate and gellan lyases. The commonest sources of such enzymes can be either microorganisms or bacteriophages. These specific polysaccharide-degrading enzymes can yield oligosaccharide fragments, which are amenable to NMR and other analytical techniques. They have thus proved to be extremely useful in providing information about microbial polysaccharide structures and were routinely used in many such studies. Complex systems containing various mixtures of enzymes may also be effective in the absence of single enzymes but may be difficult to obtain with reproducible activities. Such preparations may also cause extensive degradation of the polysaccharide structure and thus prove less useful in providing information. Commercially available enzyme preparations have seldom proved capable of degrading microbial heteropolysaccharides, although some are active against bacterial alginates and homopolysaccharides including bacterial cellulose and curdlan. 相似文献
122.
Pocanschi CL Apell HJ Puntervoll P Høgh B Jensen HB Welte W Kleinschmidt JH 《Journal of molecular biology》2006,355(3):548-561
Membrane protein insertion and folding was studied for the major outer membrane protein of Fusobacterium nucleatum (FomA), which is a voltage-dependent general diffusion porin. The transmembrane domain of FomA forms a beta-barrel that is predicted to consist of 14 beta-strands. Here, unfolded FomA is shown to insert and fold spontaneously and quantitatively into phospholipid bilayers upon dilution of the denaturant urea, which was shown previously only for outer membrane protein A (OmpA) of Escherichia coli. Folding of FomA is demonstrated by circular dichroism and fluorescence spectroscopy, by SDS-polyacrylamide gel electrophoresis, and by single-channel recordings. Refolded FomA had a single-channel conductance of 1.1 nS at 1 M KCl, in agreement with the conductance of FomA isolated from membranes in native form. In contrast to OmpA, which forms a smaller eight-stranded beta-barrel domain, folding kinetics of the larger FomA were slower and provided evidence for parallel folding pathways of FomA into lipid bilayers. Two pathways were observed independent of membrane thickness with two different lipid bilayers, which were either composed of dicapryl phosphatidylcholine or dioleoyl phosphatidylcholine. This is the first observation of parallel membrane insertion and folding pathways of a beta-barrel membrane protein from an unfolded state in urea into lipid bilayers. The kinetics of both folding pathways depended on the chain length of the lipid and on temperature with estimated activation energies of 19 kJ/mol (dicapryl phosphatidylcholine) and 70 kJ/mol (dioleoyl phosphatidylcholine) for the faster pathways. 相似文献
123.
革兰氏阴性细菌的群体感应系统利用N-酰基高丝氨酸内酯(N-acyl-homoserine lactone, AHL)作为主要信号分子诱导致病因子表达,造成细菌性病害. N-酰基高丝氨酸内酯酶(N-acyl-homoserine lactonase, AHLase)能水解AHL分子的内酯键,减弱致病菌的危害.本研究利用从苏云金芽孢杆菌克隆的N-酰基高丝氨酸内酯酶基因(auto inducer inactivation A, aiiA),根据Swiss-model模拟aiiA所编码的AiiA蛋白三维结构,预测可能形成的分子内盐桥、活性中心位点等,利用环状诱变方法对AiiA进行定点突变,以期提高其酶活力和热稳定性等酶学性能.对AiiA及其突变蛋白酶学特性分析结果发现,突变体AiiA-N65K-A206E酶活力要比野生型AiiA-wild提高87.4%,并表现出良好的热稳定性和储存稳定性;37 ℃温浴30 min后酶活力剩余73;9%,比AiiA-wild有了大幅提高;4 ℃储存120 h后酶活力剩余12.9%,而AiiA-wild丧失酶活力.酶动力学分析表明,AiiA-N65K-A206E酶促反应的米氏常数Km为1.23 mmol/L,与野生型相当;最大反应速率Vmax为32.36 μmol/L/min,比野生型有较大提高.本研究表明,利用定点突变技术改造AiiA的分子结构,可有效提升AiiA酶活力、热稳定性和储存稳定性.本研究结果为进一步阐明AiiA结构与功能的关系,促进AiiA在植物病害生物防治上的应用,提供了有益的参考和新的思路. 相似文献
124.
Ruchita Selot Virendra Kumar Sreeja C. Sekhar Pradeep G. Kumar 《Archives of insect biochemistry and physiology》2010,73(3):163-175
We recently documented the identification of a 26.5 kDa protein named BmNox in the gut fluid of Nistari strain of Bombyx mori, which possessed antiviral activity against BmNPV in vitro. In this report, we report the characterization of the full‐length gene encoding BmNOX and the levels of expression of this gene in select tissues of silkworm larvae from a BmNPV‐susceptible and a BmNPV‐resistant strain to the defense capability in Bombyx mori larvae challenged with BmNPV. We also evaluated the BmNox expression in various stages of larval life of a resistant and a susceptible strain of Bombyx mori selected from among a panel of strains of silkworm. Nistari, a multivoltine strain of silkworm, expressed BmNOX during all five larval stages, and were highly resistant to BmNPV infection. In sharp contrast, CSR2, a bivoltine strain, showed weaker expression of BmNOX in the anterior midgut in larval life and was highly susceptible to BmNPV infection. BmNOX is a secretory protein with dual expression in gut fluid and mid gut tissue. BmNOX is expressed heavily in the posterior mid gut, with weaker expression in the fore‐ and mid‐gut regions. © 2010 Wiley Periodicals, Inc. 相似文献
125.
Trefethen JM Pace CN Scholtz JM Brems DN 《Protein science : a publication of the Protein Society》2005,14(7):1934-1938
Gaining a better understanding of the denatured state ensemble of proteins is important for understanding protein stability and the mechanism of protein folding. We studied the folding kinetics of ribonuclease Sa (RNase Sa) and a charge-reversal variant (D17R). The refolding kinetics are similar, but the unfolding rate constant is 10-fold greater for the variant. This suggests that charge-charge interactions in the denatured state and the transition state ensembles are more favorable in the variant than in RNase Sa, and shows that charge-charge interactions can influence the kinetics and mechanism of protein folding. 相似文献
126.
Paarmann I Frermann D Keller BU Villmann C Breitinger HG Hollmann M 《Journal of neurochemistry》2005,93(4):812-824
NMDA receptors are involved in a variety of brainstem functions. The excitatory postsynaptic NMDA currents of pre-Botzinger complex interneurons and hypoglossal motoneurons, which are located in the medulla oblongata, show remarkably fast deactivation kinetics of approximately 30 ms compared with NMDA receptors in other types of neurons. Because structural heterogeneity might be the basis for physiological properties, we examined the expression of six NMDA receptor subunits (NMDAR1, NR2A-2D, and NR3A) plus eight NMDR1 splice variants in pre-Botzinger complex, hypoglossal and, for comparison, neurons from the nucleus of the solitary tract in young rats using single cell multiplex RT-PCR. Expression of NR2A, NR2B, and NR2D was observed in all three cell types while NR3A was much more abundant in pre-Botzinger complex interneurons, which belong to the rhythm generator of respiratory activity. In hypoglossal neurons, the NMDAR1 splice variants NMDAR1-4a and NMDAR1-4b were found. In neurons of the nucleus of the solitary tract, instead of NMDAR1-4b, the NMDAR1-2a splice variant was detected. This differential expression of modulatory splice variants might be the molecular basis for the characteristic functional properties of NMDA receptors, as neurons expressing a special NMDAR1 splice variant at the mRNA level show fast kinetics compared with neurons lacking this splice variant. 相似文献
127.
The Briggs-Haldane approximation of the irreversible Michaelis-Menten scheme of enzyme kinetics is cited in virtually every biochemistry textbook and is widely considered the classic example of a quasi-steady-state approximation. Though of similar importance, the reversible Michaelis-Menten scheme is not as well characterized. This is a serious limitation since even enzymatic reactions that go to completion may be reversible. The current work derives a total quasi-steady-state approximation (tQSSA) for the reversible Michaelis-Menten and delineates its validity domain. The tQSSA allows the derivation of uniformly valid approximations for the limit of low enzyme concentrations, ET相似文献
128.
Weikl TR Palassini M Dill KA 《Protein science : a publication of the Protein Society》2004,13(3):822-829
We present a solvable model that predicts the folding kinetics of two-state proteins from their native structures. The model is based on conditional chain entropies. It assumes that folding processes are dominated by small-loop closure events that can be inferred from native structures. For CI2, the src SH3 domain, TNfn3, and protein L, the model reproduces two-state kinetics, and it predicts well the average Phi-values for secondary structures. The barrier to folding is the formation of predominantly local structures such as helices and hairpins, which are needed to bring nonlocal pairs of amino acids into contact. 相似文献
129.
130.
Human heart Na+ channels were expressed transiently in both mammalian cells and Xenopus oocytes, and Na+ currents measured using 150 mM intracellular Na+. Decreasing extracellular permeant ion concentration decreases outward Na+ current at positive voltages while increasing the driving force for the current. This anomalous effect of permeant ion concentration, especially obvious in a mutant (F1485Q) in which fast inactivation is partially abolished, is due to an alteration of open probability. The effect is only observed when a highly permeant cation (Na+, Li+, or hydrazinium) is substituted for a relatively impermeant cation (K+, Rb+, Cs+, N -methylglucamine, Tris, choline, or tetramethylammonium). With high concentrations of extracellular permeant cations, the peak open probability of Na+ channels increases with depolarization and then saturates at positive voltages. By contrast, with low concentrations of permeant ions, the open probability reaches a maximum at approximately 0 mV and then decreases with further depolarization. There is little effect of permeant ion concentration on activation kinetics at depolarized voltages. Furthermore, the lowered open probability caused by a brief depolarization to +60 mV recovers within 5 ms upon repolarization to −140 mV, indicative of a gating process with rapid kinetics. Tail currents at reduced temperatures reveal the rapid onset of this gating process during a large depolarization. A large depolarization may drive a permeant cation out of a site within the extracellular mouth of the pore, reducing the efficiency with which the channel opens. 相似文献