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1.
A set of conformations was shown to be characteristic of the free-state spatial structure of substrate-like inhibitor JG-365 for aspartic protease from HIV-1. Among them, the lowest-energy conformations have a folded form of the peptide backbone. The inhibitor has a noncleavable hydroxyethylamine group with an additional chiral center in its structure. Our calculations showed that only the S-isomer of the inhibitor displays conformational characteristics that practically coincide with those of the native substrate for HIV-1 protease. One of the calculated conformations with a completely extended main chain and a relative energy of 9.5 kcal/mol very closely mimics the experimentally observed structure of the inhibitor in the enzyme-inhibitor complex. The realization of this structure is unlikely for a free inhibitor, because it has only a small number of interresidual noncovalent interactions in the extended conformation; these are presumably compensated for by intermolecular interactions at the active site of the enzyme. 相似文献
2.
The conformational states of side chains of catalytic Asp residues in active sites of HIV-1 protease and rhizopuspepsin in the potential field of free enzymes were studied by using theoretical conformational analysis. Structural factors that stabilize the conformation of these residues in free enzymes were revealed. Methods of molecular mechanics were used to estimate the stabilization energy of the Met46-Phe53 labile fragments of HIV-1 protease in the potential field of their nearest surrounding amino acid residues for the conformations characteristic of the free protein and similar to that of the protein in enzyme-inhibitor complexes. In solution, the conformational state of the fragments of the free enzyme was concluded to be similar to that observed in the enzyme complex with the ligand and different from that determined by X-ray diffraction analysis. This difference was ascribed to the effect of crystal packing. 相似文献
3.
Likhareva VV Vas'kovskiĭ BV Shepel' NE Garanin SK Mikhaĭlova AG Rumsh LD 《Bioorganicheskaia khimiia》2003,29(2):129-134
Enteropeptidase (enterokinase, EC 3.4.21.9) hydrolyzes peptide bonds formed by carboxyl groups of Lys or Arg residue provided that less than four negatively charged amino acid residues are in positions P2-P5 of its substrate. We determined the kinetic parameters of three substrates of this type: human angiotensin II (AT) (DR decreases VYIHPF) and the Hb(2-8) (LTAEEK decreases A) and Hb(1-9) (MLTAEEK decreases AA) peptides of the cattle hemoglobin beta-chain. The Km values for all the substrates (approximately 10(-3) M) were one order of magnitude higher than those of the typical synthetic substrates of enteropeptidase or chimeric proteins with the -DDDDK- full-size linker (Km approximately 10(-4) M). The kcat values for AT and Hb(2-8) were also close and low (approximately 30 min-1). The general hydrolysis efficiency of such substrates is no more than 1% of the corresponding value for the typical peptide and protein substrates of the enteropeptidase. However, the elongation of Hb(2-8) peptide by one amino acid residue from its N- or C-terminus results in a dramatic increase in the catalytic efficiency of the hydrolysis: the kcat value for Hb(1-9) is 1510 min-1, which means that it is hydrolyzed only three times less effective than the chimeric protein with the full-size linker. 相似文献
4.
Refolding from inclusion bodies of chimeric proteins containing the enteropeptidase-specific linker (Asp)4Lys was carried out. It was shown that, depending on the refolding conditions, chimeric proteins function as substrates or inhibitors of the enteropeptidase. The efficiency of the enteropeptidase hydrolysis of chimeric proteins containing the (Asp)4Lys linker may depend not only on the amino acid sequence of the protein binding site for the enzyme but also on the site conformation. 相似文献
5.
Makarova AM Gorbacheva LR Savinkova IV Mikhailova AG Rumsh LD Pinelis VG Strukova SM 《Biochemistry. Biokhimii?a》2010,75(9):1153-1159
The effects of full-size bovine enteropeptidase (BEK) and of human recombinant light chain enteropeptidase (L-HEP) on survival
of cultured hippocampal neurons were studied under conditions of glutamate excitotoxicity. Low concentrations of L-HEP or
BEK (0.1–1 and 0.1–0.5 nM, respectively) protected hippocampal neurons against the death caused by 100 μM glutamate. Using
the PAR1 (proteinase-activated receptor) antagonist SCH 79797, we revealed a PAR1-dependent mechanism of neuroprotective action
of low concentrations of enteropeptidase. The protective effect of full-size enteropeptidase was not observed at the concentrations
of 1 and 10 nM; moreover, 10 nM of BEK caused death of 88.9% of the neurons, which significantly exceeded the cell death caused
by glutamate (31.9%). Under conditions of glutamate cytotoxicity the survival of neurons was 26.8% higher even in the presence
of 10 nM of L-HEP than in the presence of 10 nM BEK. Pretreatment of cells with 10 nM of either form of enteropeptidase abolished
the protective effect of 10 nM thrombin under glutamate cytotoxicity. High concentrations of BEK and L-HEP caused the death
of neurons mainly through necrosis. 相似文献
6.
Comparative substrate analysis of full-length bovine enteropeptidase and trypsin, bovine and human enteropeptidase light chains was performed using model N-terminal dodecapeptides corresponding to wild-type human trypsinogen and pancreatitis-associated mutant trypsinogens K23R and D22G. The substitution of Lys residue by Arg at P1 leads to 2-fold increase in the efficiency of enteropeptidase hydrolysis; the absence of the negatively charged residue at P2 reduces the efficiency of such hydrolysis by two orders of magnitude. The difference in efficiency of peptide chain hydrolysis after Lys/Arg residues by enteropeptidase compared to trypsin is equal to the difference in hydrolysis by serine proteases of different primary specificity of their specific substrates. 相似文献
7.
8.
T. N. Borodina L. D. Rumsh S. M. Kunizhev G. B. Sukhorukov G. N. Vorozhtsov B. M. Feldman E. A. Markvicheva 《Biochemistry (Moscow) Supplemental Series B: Biomedical Chemistry》2008,2(1):88-93
Based on the method of the layer-by-layer (LbL) adsorption of oppositely charged polyelectrolytes, sodium alginate (Alg) and poly-L-lysine (PLL), novel biodegradable microcapsules have been prepared for delivery of biological active substances (BAS). Porous spherical CaCO3 microparticles were used as templates. The template cores were coated with several layers of oppositely charged polyelectrolytes forming shell on the core surface. The core-shell microparticles were converted into hollow microcapsules by means of core dissolution with EDTA. Mild conditions for microcapsules preparation allow to perform incorporation of various biomolecules maintaining their bioactivity. Biocompatibility and biodegradability of the polyelectrolytes give a possibility to use the microcapsules as the target delivery systems. Chymotrypsin entrapped into the microcapsules was used as a model enzyme. The immobilized enzyme retained about 86% of the activity compared to a native chymotrypsin. The resultant microcapsules were stable in acidic medium and could be easily decomposed by trypsin treatment in slightly alkaline medium. Chymotrypsin was shown to be active after its release from the microcapsules decomposed by the trypsin treatment. Thus, the microcapsules prepared by the LbL technique can be used for the development of new type of BAS delivery systems in humans and animals. 相似文献
9.
T. N. Borodina L. D. Rumsh S. M. Kunizhev G. B. Sukhorukov G. N. Vorozhtsov B. M. Feldman A. V. Rusanova T. V. Vasil’eva S. M. Strukova E. A. Markvicheva 《Biochemistry (Moscow) Supplemental Series B: Biomedical Chemistry》2008,2(2):176-182
The microcapsules with entrapped herbal water-soluble extracts of plantain Plantago major and calendula Calendula officinalis L. (PCE) were prepared by layer-by-layer (LbL)-adsorption of carrageenan and oligochitosan onto CaCO3 microparticles with their subsequent dissolving after the treatment of EDTA. Entrapment of PCE was performed by using adsorption and co-precipitation techniques. The co-precipitation provided better entrapment of PCE into the carbonate matrix compared to adsorption. In vitro release kinetics (AGJ) was studied using artificial gastric juice. Using the model of acetate ulcer in rats it has been demonstrated that PCE released from the microcapsules accelerates gastric tissue repair. 相似文献
10.
I. V. Kublanov K. B. Tsiroulnikov E. N. Kaliberda L. D. Rumsh T. Haertlé E. A. Bonch-Osmolovskaya 《Microbiology》2009,78(1):67-75
A thermophilic anaerobic bacterial strain 1004-09 belonging to the genus Thermoanaerobacter and capable of growth on protein substrates such as albumin, gelatin, casein, and α- and β-keratins was isolated from the Urinskii hot spring (Barguzin river valley, Republic of Buryatia, Russia). A 150-kDa serine proteinase was revealed in the strain supernatant; it exhibited optimal activity at 60°C and pH 9.3 and was capable of keratin hydrolysis. A number of characteristics for the strain 1004-09 keratinase were established including activation by SDS and NaCl and residual activity (15% to the activity of the intact protein) in the presence of 10% ethanol and acetone. 相似文献