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71.
Atomic dissection of the hydrogen bond network for transition-state analogue binding to purine nucleoside phosphorylase 总被引:2,自引:0,他引:2
Kicska GA Tyler PC Evans GB Furneaux RH Shi W Fedorov A Lewandowicz A Cahill SM Almo SC Schramm VL 《Biochemistry》2002,41(49):14489-14498
Immucillin-H (ImmH) and immucillin-G (ImmG) were previously reported as transition-state analogues for bovine purine nucleoside phosphorylase (PNP) and are the most powerful inhibitors reported for the enzyme (K(i) = 23 and 30 pM). Sixteen new immucillins are used to probe the atomic interactions that cause tight binding for bovine PNP. Eight analogues of ImmH are identified with equilibrium dissociation constants of 1 nM or below. A novel crystal structure of bovine PNP-ImmG-PO(4) is described. Crystal structures of ImmH and ImmG bound to bovine PNP indicate that nearly every H-bond donor/acceptor site on the inhibitor is fully engaged in favorable H-bond partners. Chemical modification of the immucillins is used to quantitate the energetics for each contact at the catalytic site. Conversion of the 6-carbonyl oxygen to a 6-amino group (ImmH to ImmA) increases the dissociation constant from 23 pM to 2.6 million pM. Conversion of the 4'-imino group to a 4'-oxygen (ImmH to 9-deazainosine) increases the dissociation constant from 23 pM to 2.0 million pM. Substituents that induce small pK(a) changes at N-7 demonstrate modest loss of affinity. Thus, 8-F or 8-CH(3)-substitutions decrease affinity less than 10-fold. But a change in the deazapurine ring to convert N-7 from a H-bond donor to a H-bond acceptor (ImmH to 4-aza-3-deaza-ImmH) decreases affinity by >10(7). Introduction of a methylene bridge between 9-deazahypoxanthine and the iminoribitol (9-(1'-CH(2))-ImmH) increased the distance between leaving and oxacarbenium groups and increased K(i) to 91 000 pM. Catalytic site energetics for 20 substitutions in the transition-state analogue are analyzed in this approach. Disruption of the H-bond pattern that defines the transition-state ensemble leads to a large decrease in binding affinity. Changes in a single H-bond contact site cause up to 10.1 kcal/mol loss of binding energy, requiring a cooperative H-bond pattern in binding the transition-state analogues. Groups involved in leaving group activation and ribooxacarbenium ion stabilization are central to the H-bond network that provides transition-state stabilization and tight binding of the immucillins. 相似文献
72.
Kuznetsov VY Ivanov YD Bykov VA Saunin SA Fedorov IA Lemeshko SV Hoa HB Archakov AI 《Proteomics》2002,2(12):1699-1705
The application of atomic force microscopy (AFM) technique in proteomic research, identification and visualization of individual molecules and molecular complexes within the P450cam containing monooxygenase system was demonstrated. The method distinguishes between the binary protein complexes and appropriate monomeric proteins and, also, between the binary and ternary complexes. The AFM images of the components of a cytochrome P450cam containing monooxygenase system - cytochrome P450cam (P450cam), putidaredoxin (Pd) and putidaredoxin reductase (PdR) - were obtained on a mica support. The molecules of P450cam, Pd and PdR were found to have typical heights of 2.6 +/- 0.3 nm, 2.0 +/- 0.3 and 2.8 +/- 0.3 nm, respectively. The measured heights of the binary Pd/PdR and P450cam/PdR complexes were 4.9 +/- 0.3 nm and 5.1 +/- 0.3 nm, respectively. The binary P450cam/Pd complexes were found to have a typical height of about (3.9 / 5.7 nm) and the ternary PdR/Pd/P450cam complexes, a typical height of about 9.1 +/- 0.3 nm. 相似文献
73.
74.
Neurons of the human basal ganglia (striatum and basolateral amygdala) expressing the enzyme NADPH-d
Leontovich TA Mukhina IuK Fedorov AA 《Rossi?skii fiziologicheski? zhurnal imeni I.M. Sechenova / Rossi?skaia akademiia nauk》2002,88(10):1295-1308
In human striatum and basolateral amygdala NADPH-d+ neurons were revealed (after Vincent et al., 1983); and in striatum strio-cortical neurons were also revealed using DiI marker (after Dahtstrom and Belichenko, 1995). The NADPH-d+ neurons were numerous in both formations. Staining of NADPH-d+ neurons with their processes, and our previous study of striatal and amygdalar human neurons by Golgi method made it possible to identify the species of neurons with their assessment as sparsely or densely branched. The main efferent neurons of striatum and basolateral amygdala (densely branched medium spiny and bushy spiny, respectively) and their densely branched interneurons were not marked. Efferent NADPH-d+ neurons included the most numerous ones in both formations. A projection of reticular striatal neurons to cortex was also shown. The NADPH-d+ interneurons belonged to sparsely branched forms. In striatum they included slender-dendritic and long-dendritic bipolars (numerous), ordinary bipolars, twisted and large poor-dendritic cells; in amygdala--the same bipolars and radial cells. Thus, the NADPH-d positive cells in the formations under study were represented by more "ancient" or less structurally complex cell forms. 相似文献
75.
Firla B Arndt M Frank K Thiel U Ansorge S Täger M Lendeckel U 《Free radical biology & medicine》2002,32(7):584-595
Alanyl aminopeptidase (APN) is a surface-bound metallopeptidase that processes the N-terminals of biologically active peptides such as enkephalins, angiotensins, neurokinins, and cytokines. It exerts profound activity on vital processes such as immune response, cellular growth, and blood pressure control. Inhibition of either APN gene expression or its enzymatic activity severely affects leukocyte growth and function. We show here that oxidoreductase-mediated modulations of the cell surface thiol status affect the enzymatic activity of APN. Additional evidence for the pivotal role of extracellular cysteines in the APN molecule was obtained when substitution of any of these six cysteines caused complete loss of surface expression and enzymatic activity. In contrast, the transmembrane Cys24 appears to have no similar function. Enzymatically inactive cysteine mutants were retained in the endoplasmic reticulum as shown by high-resolution imaging and Endoglycosidase H digestion. In the absence of any crystal-structure data, the demonstration that individual extracellular cysteines contribute to APN expression and function appears to be of particular importance. The data are the first to show thiol-dependent modulation of the activity of a typical surface-bound peptidase at the cell surface, probably reflecting a general regulating mechanism. This may relate to various disease processes such as inflammation or malignant transformation. 相似文献
76.
Bukowska A Tadje J Arndt M Wolke C Kähne T Bartsch J Faust J Neubert K Hashimoto Y Lendeckel U 《Biological chemistry》2003,384(4):657-665
Aminopeptidase inhibitors strongly affect the proliferation and function of immune cells in man and animals and are promising agents for the pharmacological treatment of inflammatory or autoimmune diseases. Membrane alanyl-aminopeptidase (mAAP) has been considered as the major target of these anti-inflammatory aminopeptidase inhibitors. Recent evidence also points to a role of the cytosol alanyl-aminopeptidase (cAAP) in the immune response. In this study we used quantitative RT-PCR to determine the mRNA expression of both cAAP and mAAP in resting and activated peripheral T cells and also in CD4+, CD8+, Th1, Th2 and Treg (CD4+ CD25+) subpopulations. Both mAAP and cAAP mRNAs were expressed in all cell types investigated, and in response to activation their expression appeared to be upregulated in CD8+ cells, but downregulated in Treg cells. In CD4+ cells, mAAP and cAAP mRNAs were affected in opposite ways in response to activation. The cAAP-specific inhibitor, PAQ-22, did not affect either cAAP or mAAP expression in activated CD4+ or CD8+ cells, whereas in activated Treg cells it markedly upregulated the mRNA levels of both aminopeptidases. The non-discriminatory inhibitor, phebestin, significantly increased the amount of mAAP and cAAP mRNA in CD4+ and that of cAAP in Treg cells. 相似文献
77.
Optimization of the extracellular production of a bacterial phytase with Escherichia coli by using different fed-batch fermentation strategies 总被引:3,自引:0,他引:3
Kleist S Miksch G Hitzmann B Arndt M Friehs K Flaschel E 《Applied microbiology and biotechnology》2003,61(5-6):456-462
The extracellular production of Escherichia coli phytase was studied in fed-batch fermentations. Two different feeding strategies were compared: control by keeping the glucose concentration constant, and control by keeping a low constant oxygen level in the medium. For the feeding control based on glucose concentration, a recently developed rapid glucose controlling system was tested for the first time in bacterial cultivations and used to establish the fermentative production of extracellular phytase with E. coli. High activity levels (120 U ml(-1)) at short cultivation times (14 h) were obtained. Even higher activity levels - albeit at longer cultivation times - were reached by applying a feeding control, the main characteristic of which was a constant low oxygen concentration. The optimum oxygen level for the production of phytase was in the range of 5-10% saturation. 相似文献
78.
79.
Tanaka H Shan W Phillips GR Arndt K Bozdagi O Shapiro L Huntley GW Benson DL Colman DR 《Neuron》2000,25(1):93-107
The relationship between adhesive interactions across the synaptic cleft and synaptic function has remained elusive. At certain CNS synapses, pre- to postsynaptic adhesion is mediated at least in part by neural (N-) cadherin. Here, we demonstrate that upon depolarization of hippocampal neurons in culture by K+ treatment, or application of NMDA or alpha-latrotoxin, synaptic N-cadherin dimerizes and becomes markedly protease resistant. These properties are indices of strong, stable, enhanced cadherin-mediated intercellular adhesion. N-cadherin retained protease resistance for at least 2 hr after recovery, while other surface molecules, including other cadherins, were completely degraded. The acquisition of protease resistance and dimerization of N-cadherin is not dependent on new protein synthesis, nor is it accompanied by internalization of N-cadherin. By immunocytochemistry, we found that high K+ selectively induces surface dispersion of N-cadherin, which, after recovery, returns to synaptic puncta. N-cadherin dispersion under K+ treatment parallels the rapid expansion of the presynaptic membrane consequent to the massive vesicle fusion that occurs with this type of depolarization. In contrast, with NMDA application, N-cadherin does not disperse but does acquire enhanced protease resistance and dimerizes. Our data strongly suggest that synaptic adhesion is dynamically and locally controlled, and modulated by synaptic activity. 相似文献
80.
Arndt KM Pelletier JN Müller KM Alber T Michnick SW Plückthun A 《Journal of molecular biology》2000,295(3):627-639
Novel heterodimeric coiled-coil pairs were selected simultaneously from two DNA libraries using an in vivo protein-fragment complementation assay with dihydrofolate reductase, and the best pair was biophysically characterized. We randomized the interface-flanking e and g positions to Gln, Glu, Arg or Lys, and the core a position to Asn or Val in both helices simultaneously, using trinucleotide codons in DNA synthesis. Selection cycles with three different stringencies yielded sets of coiled-coil pairs, of which 80 clones were statistically analyzed. Thereby, properties most crucial for successful heterodimerization could be distinguished from those mediating more subtle optimization. A strong bias towards an Asn pair in the core a position indicated selection for structural uniqueness, and a reduction of charge repulsions at the e/g positions indicated selection for stability. Increased stringency led to additional selection for heterospecificity by destabilizing the respective homodimers. Interestingly, the best heterodimers did not contain exclusively complementary charges. The dominant pair, WinZip-A1B1, proved to be at least as stable in vitro as naturally occurring coiled coils, and was shown to be dimeric and highly heterospecific with a K(D) of approximately 24 nM. As a result of having been selected in vivo it possesses all characteristics required for a general in vivo heterodimerization module. The combination of rational library design and in vivo selection presented here is a very powerful strategy for protein design, and it can reveal new structural relationships. 相似文献