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101.
Lassing I Schmitzberger F Björnstedt M Holmgren A Nordlund P Schutt CE Lindberg U 《Journal of molecular biology》2007,370(2):331-348
An essential consequence of growth factor-mediated signal transduction is the generation of intracellular H2O2. It operates as a second messenger in the control of actin microfilament dynamics, causing rapid and dramatic changes in the morphology and motile activity of stimulated cells. Little is understood about the molecular mechanisms causing these changes in the actin system. Here, it is shown that H2O2 acts directly upon several levels of this system, and some of the mechanistic effects are detailed. We describe the impact of oxidation on the polymerizability of non-muscle β/γ-actin and compare with that of muscle α-actin. Oxidation of β/γ-actin can cause a complete loss of polymerizability, crucially, reversible by the thioredoxin system. Further, oxidation of the actin impedes its interaction with profilin and causes depolymerization of filamentous actin. The effects of oxidation are critically dependent on the nucleotide state and the concentration of Ca2+. We have determined the crystal structure of oxidized β-actin to a resolution of 2.6 Å. The arrangement in the crystal implies an antiparallel homodimer connected by an intermolecular disulfide bond involving cysteine 374. Our data indicate that this dimer forms under non-polymerizing and oxidizing conditions. We identify oxidation of cysteine 272 in the crystallized actin dimer, likely to a cysteine sulfinic acid. In β/γ-actin, this is the cysteine residue most reactive towards H2O2 in solution, and we suggest plausible structural determinants for its reactivity. No other oxidative modification was obvious in the structure, highlighting the specificity of the oxidation by H2O2. Possible consequences of the observed effects in a cellular context and their potential relevance are discussed. 相似文献
102.
Hughes E Clayton JC Kitmitto A Esmann M Middleton DA 《The Journal of biological chemistry》2007,282(36):26603-26613
The transmembrane protein sarcolipin regulates calcium storage in the sarcoplasmic reticulum of skeletal and cardiac muscle cells by modulating the activity of sarco(endo)plasmic reticulum Ca(2+)-ATPases (SERCAs). The highly conserved C-terminal region ((27)RSYQY-COOH) of sarcolipin helps to target the protein to the sarcoplasmic reticulum membrane and may also participate in the regulatory interaction between sarcolipin and SERCA. Here we used solid-state NMR measurements of local protein dynamics to illuminate the direct interaction between the Tyr(29) and Tyr(31) side groups of sarcolipin and skeletal muscle Ca(2+)-ATPase (SERCA1a) embedded in dioleoylphosphatidylcholine bilayers. Further solid-state NMR experiments together with functional measurements on SERCA1a in the presence of NAc-RSYQY, a peptide representing the conserved region of sarcolipin, suggest that the peptide binds to the same site as the parent protein at the luminal face of SERCA1a, where it reduces V(max) for calcium transport and inhibits ATP hydrolysis with an IC(50) of approximately 200 microM. The inhibitory effect of NAc-RSYQY is remarkably sequence-specific, with the native aromatic residues being essential for optimal inhibitory activity. This combination of physical and functional measurements highlights the importance of aromatic and polar residues in the C-terminal region of sarcolipin for regulating calcium cycling and muscle contractility. 相似文献
103.
104.
Hedrén M Nordström S Hovmalm HA Pedersen HÆ Hansson S 《American journal of botany》2007,94(7):1205-1218
Polyploidy is common in higher plants, and speciation in polyploid complexes is usually the result of reticulate evolution. We examined variation in nuclear AFLP fingerprints, nuclear isozymes, and hypervariable plastid DNA loci to describe speciation patterns and species relationships in the Dactylorhiza incarnata/maculata polyploid complex (marsh orchids; Orchidaceae) in Greece. Several endemic taxa with restricted distribution have been described from this area, and to propose meaningful conservation priorities, detailed relationships need to be known. We identified four independently derived allopolyploid lineages, which is a pattern poorly correlated with prevailing taxonomy. Three lineages were composed of populations restricted to small areas and may be of recent origins from extant parental lineages. One lineage with wide distribution in northern Greece was characterized by several unique plastid haplotypes that were phylogenetically related and evidently older. The D. incarnata/maculata polyploid complex in Greece has high levels of genetic diversity at the polyploid level. This diversity has accumulated over a long time and may include genetic variants originating from now extinct parental populations. Our data also indicate that the Balkans may have constituted an important refuge from which northern European Dactylorhiza were recruited after the Weichselian ice age. 相似文献
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107.
The carboxylate of Glu35 in the active site of potato epoxide hydrolase StEH1 interacts with the catalytic water molecule and is the first link in a chain of hydrogen bonds connecting the active site with bulk solvent. To probe its importance to catalysis, the carboxylate was replaced with an amide through an E35Q mutation. Comparing enzyme activities using the two trans-stilbene oxide (TSO) enantiomers as substrates revealed the reaction with R,R-TSO to be the one more severely affected by the E35Q mutation, as judged by determined kinetic parameters describing the pre-steady states or the steady states of the catalyzed reactions. The hydrolysis of S,S-TSO afforded by the E35Q mutant was comparable with that of the wild-type enzyme, with only a minor decrease in activity, or a change in pH dependencies of kcat, and the rate of alkylenzyme hydrolysis, k3. The pH dependence of E35Q-catalyzed hydrolysis of R,R-TSO, however, exhibited an inverted titration curve as compared to that of the wild-type enzyme, with a minimal catalytic rate at pH values where the wild-type enzyme exhibited maximum rates. To simulate the pH dependence of the E35Q mutant, a shift in the acidity of the alkylenzyme had to be invoked. The proposed decrease in the pKa of His300 in the E35Q mutant was supported by computer simulations of the active site electrostatics. Hence, Glu35 participates in activation of the Asp nucleophile, presumably by facilitating channeling of protons out of the active site, and during the hydrolysis half-reaction by orienting the catalytic water for optimal hydrogen bonding, to fine-tune the acid-base characteristics of the general base His300. 相似文献
108.
Characterization and biological role of the O-polysaccharide gene cluster of Yersinia enterocolitica serotype O:9 下载免费PDF全文
Skurnik M Biedzka-Sarek M Lübeck PS Blom T Bengoechea JA Pérez-Gutiérrez C Ahrens P Hoorfar J 《Journal of bacteriology》2007,189(20):7244-7253
Yersinia enterocolitica serotype O:9 is a gram-negative enteropathogen that infects animals and humans. The role of lipopolysaccharide (LPS) in Y. enterocolitica O:9 pathogenesis, however, remains unclear. The O:9 LPS consists of lipid A to which is linked the inner core oligosaccharide, serving as an attachment site for both the outer core (OC) hexasaccharide and the O-polysaccharide (OPS; a homopolymer of N-formylperosamine). In this work, we cloned the OPS gene cluster of O:9 and identified 12 genes organized into four operons upstream of the gnd gene. Ten genes were predicted to encode glycosyltransferases, the ATP-binding cassette polysaccharide translocators, or enzymes required for the biosynthesis of GDP-N-formylperosamine. The two remaining genes within the OPS gene cluster, galF and galU, were not ascribed a clear function in OPS biosynthesis; however, the latter gene appeared to be essential for O:9. The biological functions of O:9 OPS and OC were studied using isogenic mutants lacking one or both of these LPS parts. We showed that OPS and OC confer resistance to human complement and polymyxin B; the OPS effect on polymyxin B resistance could be observed only in the absence of OC. 相似文献
109.
Wrapping it up: the cell biology of myelination 总被引:5,自引:0,他引:5
During nervous system development, oligodendroglia in the central nervous system (CNS) and Schwann cells in the peripheral nervous system (PNS) synthesise large amounts of specific proteins and lipids to generate myelin, a specialised membrane that spirally ensheathes axons and facilitates fast conduction of the action potential. Myelination is initiated after glial processes have attached to the axon and polarisation of the plasma membrane has been triggered. Myelin assembly is a multi-step process that occurs in spatially distinct regions of the cell. We propose that assembly of myelin proteins and lipids starts during their transport through the biosynthetic pathway and continues at the plasma membrane aided by myelin-basic protein (MBP). These sequential processes create the special lipid and protein composition necessary for myelin to perform its insulating function during nerve conduction. 相似文献
110.
Staying out in the cold: glacial refugia and mitochondrial DNA phylogeography in ancient European brown bears 总被引:4,自引:1,他引:3
Valdiosera CE García N Anderung C Dalén L Crégut-Bonnoure E Kahlke RD Stiller M Brandström M Thomas MG Arsuaga JL Götherström A Barnes I 《Molecular ecology》2007,16(24):5140-5148
Models for the development of species distribution in Europe typically invoke restriction in three temperate Mediterranean refugia during glaciations, from where recolonization of central and northern Europe occurred. The brown bear, Ursus arctos, is one of the taxa from which this model is derived. Sequence data generated from brown bear fossils show a complex phylogeographical history for western European populations. Long-term isolation in separate refugia is not required to explain our data when considering the palaeontological distribution of brown bears. We propose continuous gene flow across southern Europe, from which brown bear populations expanded after the last glaciation. 相似文献