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121.
Bochtler M Odintsov SG Marcyjaniak M Sabala I 《Protein science : a publication of the Protein Society》2004,13(4):854-861
Specific peptidases exist for nearly every amide linkage in peptidoglycan. In several cases, families of peptidoglycan hydrolases with different specificities turned out to be related. Here we show that lysostaphin-type peptidases and D-Ala-D-Ala metallopeptidases have similar active sites and share a core folding motif in otherwise highly divergent folds. The central Zn(2+) is tetrahedrally coordinated by two histidines, an aspartate, and a water molecule. The Zn(2+) chelating residues occur in the order histidine, aspartate, histidine in all sequences and contact the metal via the Nepsilon, the Odelta, and the Ndelta, respectively. The identity of the other active-site residues varies, but in all enzymes of known structure except for VanX, a conserved histidine is present two residues upstream of the second histidine ligand to the Zn(2+). As the same arrangement of active-site residues is also found in the N-terminal, cryptic peptidase domain of sonic hedgehog, we propose that this arrangement of active-site residues be called the "LAS" arrangement, because it is present in lysostaphin-type enzymes, D-Ala-D-Ala metallopeptidases, and in the cryptic peptidase in the N-domain of sonic hedgehog. 相似文献
122.
In neurons, tubulin is synthesized primarily in the cell body, whereas the molecular machinery for neurite extension and elaboration of microtubule (MT) array is localized to the growth cone region. This unique functional and biochemical compartmentalization of neuronal cells requires transport mechanisms for the delivery of newly synthesized tubulin and other cytoplasmic components from the cell body to the growing axon. According to the polymer transport model, tubulin is transported along the axon as a polymer. Because the majority of axonal MTs are stationary at any given moment, it has been assumed that only a small fraction of MTs translocates along the axon by saltatory movement reminiscent of the fast axonal transport. Such intermittent "stop and go" MT transport has been difficult to detect or to exclude by using direct video microscopy methods. In this study, we measured the translocation of MT plus ends in the axonal shaft by expressing GFP-EB1 in Xenopus embryo neurons in culture. Formal quantitative analysis of MT assembly/disassembly indicated that none of the MTs in the axonal shaft were rapidly transported. Our results suggest that transport of axonal MTs is not required for delivery of newly synthesized tubulin to the growing nerve processes. 相似文献
123.
Megy S Bertho G Kozin SA Debey P Hoa GH Girault JP 《Protein science : a publication of the Protein Society》2004,13(12):3151-3160
The conformational conversion of the nonpathogenic "cellular" prion isoform into a pathogenic "scrapie" protease-resistant isoform is a fundamental event in the onset of transmissible spongiform encephalopathies (TSE). During this pathogenic conversion, helix H1 and its two flanking loops of the normal prion protein are thought to undergo a conformational transition into a beta-like structure. A peptide spanning helix H1 and beta-strand S2 (residues 142-166 in human numbering) was studied by circular dichroism and nuclear magnetic resonance spectroscopies. This peptide in aqueous solution, in contrast to many prion fragments studied earlier (1) is highly soluble and (2) does not aggregate until the millimolar concentration range, and (3) exhibits an intrinsic propensity to a beta-hairpin-like conformation at neutral pH. We found that this peptide can also fold into a helix H1 conformation when dissolved in a TFE/PB mixture. The structures of the peptide calculated by MD showed solvent-dependent internal stabilizing forces of the structures and evidenced a higher mobility of the residues following the end of helix H1. These data suggest that the molecular rearrangement of this peptide in region 152-156, particularly in position 155, could be associated with the pathogenic conversion of the prion protein. 相似文献
124.
Makharashvili N Koroleva O Bera S Grandgenett DP Korolev S 《Structure (London, England : 1993)》2004,12(10):1881-1889
Recovery of arrested replication requires coordinated action of DNA repair, replication, and recombination machineries. Bacterial RecO protein is a member of RecF recombination repair pathway important for replication recovery. RecO possesses two distinct activities in vitro, closely resembling those of eukaryotic protein Rad52: DNA annealing and RecA-mediated DNA recombination. Here we present the crystal structure of the RecO protein from the extremely radiation resistant bacteria Deinococcus radiodurans (DrRecO) and characterize its DNA binding and strand annealing properties. The RecO structure is totally different from the Rad52 structure. DrRecO is comprised of three structural domains: an N-terminal domain which adopts an OB-fold, a novel alpha-helical domain, and an unusual zinc-binding domain. Sequence alignments suggest that the multidomain architecture is conserved between RecO proteins from other bacterial species and is suitable to elucidate sites of protein-protein and DNA-protein interactions necessary for RecO functions during the replication recovery and DNA repair. 相似文献
125.
To elucidate the general constraints imposed on the structure of the D- and T-loops in functional tRNAs, active suppressor tRNAs were selected in vivo from a combinatorial tRNA gene library in which several nucleotide positions of these loops were randomized. Analysis of the nucleotide sequences of the selected clones demonstrates that among the randomized nucleotides, the most conservative are nucleotides 54 and 58 in the T-loop. In most cases, they make the combination U54-A58, which allows the formation of the normal reverse Hoogsteen base pair. Surprisingly, other clones have either the combination G54-A58 or G54-G58. However, molecular modeling shows that these purine–purine base pairs can very closely mimic the reverse Hoogsteen base pair U-A and thus can replace it in the T-loop of a functional tRNA. This places the reverse Hoogsteen base pair 54-58 as one of the most important structural aspects of tRNA functionality. We suggest that the major role of this base pair is to preserve the conformation of dinucleotide 59–60 and, through this, to maintain the general architecture of the tRNA L-form. 相似文献
126.
Cleavage of DNA without loss of genetic information by incorporation of a disaccharide nucleoside 下载免费PDF全文
Nauwelaerts K Vastmans K Froeyen M Kempeneers V Rozenski J Rosemeyer H Van Aerschot A Busson R Lacey JC Efimtseva E Mikhailov S Lescrinier E Herdewijn P 《Nucleic acids research》2003,31(23):6758-6769
A ribose residue inserted between the 3′-OH of one nucleotide and the 5′-phosphate group of the next nucleotide, functions as a site-specific cleavage site within DNA. This extra ribose does not interrupt helix formation and it protects duplex DNA against cleavage by restriction enzymes. Cleavage can be obtained with periodate and all ribose fragments can be removed with sodium hydroxide. As a result of this, an intact natural oligodeoxynucleotide is obtained after ligation reaction, which means that site-specific cleavage and recovering of intact DNA occurs without loss of genetic information. 相似文献
127.
Generation of a recombinant cytomegalovirus for expression of a hantavirus glycoprotein 总被引:1,自引:0,他引:1 下载免费PDF全文
Rizvanov AA van Geelen AG Morzunov S Otteson EW Bohlman C Pari GS St Jeor SC 《Journal of virology》2003,77(22):12203-12210
A cytomegalovirus (CMV) was isolated from its natural host, Peromyscus maniculatus, and was designated Peromyscus CMV (PCMV). A recombinant PCMV was constructed that contained Sin Nombre virus glycoprotein G1 (SNV-G1) fused in frame to the enhanced green fluorescent protein (EGFP) gene inserted into a site homologous to the human CMV UL33 (P33) gene. The recombinant CMV was used for expression and immunization of deer mice against SNV-G1. The results of the study indicate that P. maniculatus could be infected with as few as 10 virus particles of recombinant virus. Challenge of P. maniculatus with either recombinant or wild-type PCMV produced no overt pathology in infected animals. P. maniculatus immunized with recombinant virus developed an antibody response to SNV and EGFP. When rechallenged with recombinant virus, animals exhibited an anamnestic response against SNV. Interestingly, a preexisting immune response against PCMV did not prevent reinfection with recombinant PCMV. 相似文献
128.
Brautaset T Borgos SE Sletta H Ellingsen TE Zotchev SB 《The Journal of biological chemistry》2003,278(17):14913-14919
The loading module for the nystatin polyketide synthase (PKS) in Streptomyces noursei is represented by the NysA protein composed of a ketosynthase (KS(S)), acyltransferase, dehydratase, and an acyl carrier protein. The absolute requirement of this protein for initiation of nystatin biosynthesis was demonstrated by the in-frame deletion of the nysA gene in S. noursei. The role of the NysA KS(S) domain, however, remained unclear, since no data on the significance of the "active site" serine (Ser-170) residue in the loading modules of type I PKSs were available. Site-specific mutagenesis of Ser-170 both in the wild-type NysA and in the hybrid loading module containing malonyl-specific acyltransferase domain from the extender module had no effect on nystatin biosynthesis. A second mutation (S413N) of the NysA KS(S) domain was discovered that completely abolished the ability of the hybrids to restore nystatin biosynthesis, presumably by affecting the ability of the resulting proteins to catalyze the required substrate decarboxylation. In contrast, NysA and its Ser-170 mutants bearing the same S413N mutation were able to restore nystatin production to significant levels, probably by using acetyl-CoA as a starter unit. Together, these data suggest that the KS(S) domain of NysA differs from the KS(Q) domains found in the loading modules of several PKS type I systems in that the active site residue is not significant for its activity. 相似文献
129.
Cytochrome c is transformed from anti- to pro-oxidant when interacting with truncated oncoprotein prothymosin alpha 总被引:2,自引:0,他引:2
Markova OV Evstafieva AG Mansurova SE Moussine SS Palamarchuk LA Pereverzev MO Vartapetian AB Skulachev VP 《Biochimica et biophysica acta》2003,1557(1-3):109-117
Many apoptotic signals are known to induce release to cytosol of cytochrome c, a small mitochondrial protein with positively charged amino acid residues dominating over negatively charged ones. On the other hand, in this group, it was shown that prothymosin alpha (PT), a small nuclear protein where 53 of 109 amino acid residues are negatively charged, is truncated to form a protein of 99 amino acid residues which accumulates in cytosol during apoptosis [FEBS Lett. 467 (2000) 150]. It was suggested that positively charged cytochrome c and negatively charged truncated prothymosin alpha (tPT), when meeting in cytosol, can interact with each other. In this paper, such an interaction is shown. (1) Formation of cytochrome cz.ccirf;tPT complex is demonstrated by a blot-overlay assay. (2) Analytical centrifugation of solution containing cytochrome c and tPT reveals formation of complexes of molecular masses higher than those of these proteins. The masses increase when the cytochrome c/tPT ratio increases. High concentration of KCl prevents the complex formation. (3) In the complexes formed, cytochrome c becomes autoxidizable; its reduction by superoxide or ascorbate as well as its operation as electron carrier between the outer and inner mitochondrial membranes appear to be inhibited. (4) tPT inhibits cytochrome c oxidation by H(2)O(2), catalyzed by peroxidase. Thus, tPT abolishes all antioxidant functions of cytochrome c which, in the presence of tPT, becomes in fact a pro-oxidant. A possible role of tPT in the development of reactive oxygen species- and cytochrome c-mediated apoptosis is discussed. 相似文献
130.
Origin and diffusion of mtDNA haplogroup X 总被引:10,自引:0,他引:10
Reidla M Kivisild T Metspalu E Kaldma K Tambets K Tolk HV Parik J Loogväli EL Derenko M Malyarchuk B Bermisheva M Zhadanov S Pennarun E Gubina M Golubenko M Damba L Fedorova S Gusar V Grechanina E Mikerezi I Moisan JP Chaventré A Khusnutdinova E Osipova L Stepanov V Voevoda M Achilli A Rengo C Rickards O De Stefano GF Papiha S Beckman L Janicijevic B Rudan P Anagnou N Michalodimitrakis E Koziel S Usanga E Geberhiwot T Herrnstadt C Howell N Torroni A Villems R 《American journal of human genetics》2003,73(5):1178-1190
A maximum parsimony tree of 21 complete mitochondrial DNA (mtDNA) sequences belonging to haplogroup X and the survey of the haplogroup-associated polymorphisms in 13,589 mtDNAs from Eurasia and Africa revealed that haplogroup X is subdivided into two major branches, here defined as “X1” and “X2.” The first is restricted to the populations of North and East Africa and the Near East, whereas X2 encompasses all X mtDNAs from Europe, western and Central Asia, Siberia, and the great majority of the Near East, as well as some North African samples. Subhaplogroup X1 diversity indicates an early coalescence time, whereas X2 has apparently undergone a more recent population expansion in Eurasia, most likely around or after the last glacial maximum. It is notable that X2 includes the two complete Native American X sequences that constitute the distinctive X2a clade, a clade that lacks close relatives in the entire Old World, including Siberia. The position of X2a in the phylogenetic tree suggests an early split from the other X2 clades, likely at the very beginning of their expansion and spread from the Near East. 相似文献