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(Non)retroflexivity of slavic affricates and its motivation : Evidence from polish and czech <č>
(2005)
The goal of this paper is two-fold. First, it revises the common assumption that the affricate <č> denotes /t͡ʃ/ for all Slavic languages. On the basis of experimental results it is shown that Slavic <č> stands for two sounds: /t͡ʃ/ as e.g. in Czech and /ʈʂ/ as in Polish.
The second goal of the paper is to show that this difference is not accidental but it is motivated by perceptual relations among sibilants. In Polish, /t͡ʃ/ changed to /ʈʂ/ thus lowering its sibilant tonality and creating a better perceptual distance to /tɕ/, whereas in Czech /t͡ʃ/ did not turn to /ʈʂ/, as the former displayed sufficient perceptual distance to the only affricate present in the inventory, namely, the alveolar /t͡s/. Finally, an analysis of Czech and Polish affricate inventories is offered.
Language planning for the Irish language in the Republic of Ireland has featured prominently in international language policy and planning literature over the years. Researchers in the field may not be up to date, however, with recent developments in the area of Irish language planning and their impact on the language ecology. This monograph describes the language planning situation in the Republic of Ireland in its historical and social contexts as well as delineating language policy and planning for the Irish language implemented over the past number of years, showing developments in education, community, media, religion and local politics.
The technique of site-specific fluorescence labelling with Tetramethylrhodaminemaleimide (TMRM) in combination with two electrode voltage-clamp technique (TEVC), an approach that has been named voltage clamp fluorometry (VCF), has been used in this work to study the Na,K-ATPase. The TMRM dye has the ability to attach covalently to cysteine residues and it responds to changes in the hydrophobicity of its local environment. We exploited this property using a construct of the Na-pump in which the native, extracellularly accessible cysteines were removed and cysteine residues were introduced by site-directed mutagenesis in specific positions of the Na-pump. In this way it was possible to detect site-specific conformational rearrangements of the Na-pump in a time-resolved fashion within a native membrane environment. In particular this technique allows to resolve reactions with low electrogenicity that cannot be satisfactorily analyzed with purely electrophysiological techniques and to identify the conformations of the enzyme under specific ionic composition of the measuring buffers. We used VCF to study the influence that several cations like Na+, K+, NMG+, TEA+ and BTEA+ exert on the distribution of the Na,K-ATPase between several enzymatic intermediates and on some of the reactions related to cation transport. To this end we utilized the mutants N790C in the loop M5-M6 and the mutant E307C, T309C, L311C and E312C in the loop M3-M4. From the correspondence of the fluorescence changes with the activation and inhibition of pumping current, by K+ and ouabain respectively, and from the fact that in Na+/Na+ exchange conditions the voltage distribution of charge movement and fluorescence changes evoked by voltage jumps are in reasonable agreement we conclude that through the fluorescence signals measured from these mutants, we can indeed monitor conformational changes linked to transport activity of the enzyme. For the mutants N790 and L311, it was found that the Na+ dependence of the amplitude and kinetics of the fluorescence signal associated with the E1P-E2P transition is in agreement with the prediction of an access channel model describing the regulation of the access of extracellular Na+ to its binding site. In particular for the mutants E307 and T309 it was found that in Na+/Na+ exchange conditions, the conformational change tracked by the fluorescence was much slower than the charge relaxation at hyperpolarized potentials while the kinetics was very similar at depolarized potentials. This implies that at hyperpolarized potentials the conformational change connected to the E1P-E2P transition does not give a large contribution to the electrogenicity of the process which is also consistent with the access channel model. On the mutant N790C it was found that the external pH does not seem to have any effect on the E1P-E2P equilibrium even if it seems to modulate the fluorescence quantum yield of the dye. Fluorescence quenching experiments with iodide and D2O indicate that at hyperpolarized potentials the local environment of the mutant N790C, experiences a small change in the accessibility to water without major changes in the local electrostatic field ...
The cumulant method is applied to study elliptic flow (v_2) in Au+Au collisions at sqrt s=200 AGeV, with the UrQMD model. In this approach, the true event plane is known and both the non-flow effects and event-by-event spatial (epsilon) and v_2 fluctuations exist. Qualitatively, the hierarchy of v_2 's from two, four and six-particle cumulants is consistent with the STAR data, however, the magnitude of v_2 in the UrQMD model is only 60% of the data. We find that the four and six-particle cumulants are good measures of the real elliptic flow over a wide range of centralities except for the most central and very peripheral events. There the cumulant method is affected by the v_2 fluctuations. In mid-central collisions, the four and six-particle cumulants are shown to give a good estimation of the true differential v_2, especially at large transverse momentum, where the two-particle cumulant method is heavily affected by the non-flow effects.
The Na+/proline transporter of E. Coli (PutP) is responsible for the uptake of proline which is subsequently used not only as a carbon and nitrogen source and a constituent of proteins but also as a particularly effective osmoprotectant. However, for a long time there was little known about the single steps in the reaction cycle of this transporter and only few details about its structure-function relationship are available. Aim of the present work was to achieve a deeper understanding about the kinetic properties of the Na+/proline transporter and to get insights into the structure-function relationship of the substrate binding. To answer these questions different techniques were used. By using the novel SSM technique combining the preparation of PutP proteoliposomes it was possible to demonstrate for the first time the electrogenic substrate binding to PutP transporter. Due to rapid solution exchange measurements on the SSM it was additionally possible to obtain time resolved information about the kinetic details of the cytoplasmic substrate binding sites which were not available by previous steady state and equilibrium binding measurements. Pre-steady-state charge translocation was observed after rapid addition of one or both of the cosubstrates Na+ and/or proline to the PutP-WT proteoliposomes adsorbed on the SSM. Thereby it was possible to link the observed electrical signals with the binding activity of PutP. The observed Na+ and/or proline induced charge displacement were assigned to an electrogenic Na+ and/or proline binding process at the cytoplasmic face of the enzyme with a rate constant of k > 50 s-1 proceeding the rate limiting step of the reaction cycle. Furthermore, based on the kinetic analysis of the electrical signals obtained from the measurements of PutP on SSM, the following characteristics of the substrates binding in PutP were deduced: (1) both Na+ and proline can bind individually to the transporter. Under physiological conditions, an ordered binding mechanism prevails; while at sufficiently high concentrations, each substrate can bind in the absence of the other; (2) substrate binding is electrogenic not only for Na+, but also for the uncharged cosubstrate proline. The charge displacement associated with Na+ binding and proline binding is of comparable size and independent of the presence of the respective cosubstrate. In addition, it was concluded that Na+ accesses its binding site through a high-field access channel resulting in a charge translocation, whereas the binding of the electroneutral proline induces a conformation alteration involving the displacement of charged amino acid residue(s) of the protein; (3) Na+ and proline binding sites interact cooperatively with each other by increasing the affinity and/or the speed of binding of the respective cosubstrate; (4) proline binding proceeds in a two step process: low affinity (~ 0.9 mM) electroneutral substrate binding followed by a nearly irreversible electrogenic conformational transition; (5) membrane impermeable PCMBS inhibits both Na+ and proline binding to the inside-out orientated PutP transporter, indicating that rather than selectively blocking a specific binding site, PCMBS probably locks the enzyme in an inactive state. The possible targets for this SH-reagent are cysteines 281 and 344 located close to the cytoplasmic surface of the protein. Beyond it, transient electrical currents of PutP were also observed on the BLM after rapid addition of proline in the presence of Na+. This was possible by combining the conventional BLM technique with high-speed flash-photolysis of caged-proline. Indeed the signals on the BLM indicate the detection of a different underlying reaction process in comparison to the data achieved by the SSM technique. This has paved the way for supplemental information about the reaction cycle since it was possible to assign the flash-photolysis BLM signals to the proline binding step followed by the internalization of Na+ and proline into the liposome. Thereby it was found, that the presence of Na+ is indispensable and the time constant for the process is ~ 63 ms. Moreover, structure-function information about the Na+ and proline binding sites of PutP was obtained by investigating the functionally important amino acid residues Asp55, Gly63 and Asp187 with site-directed mutagenesis and the combined SSM technique. One finding is that the mutated proteins PutP-D55C and PutP-G63C showed no activity on the SSM. Therefore, it can be assumed that either both Asp55 and Gly63 are crucial for the structure of PutP protein, or they are located at or close to the Na+ and proline binding sites. Furthermore, the results obtained from PutP-D187N and PutP-D187C mutants on SSM suggest that Asp187 of PutP is likely to be involved in the Na+ binding at the cytoplasmic side of the backward running carrier. Taken together the results of the present work have substantially broadened the known picture of the Na+/proline transporter PutP thereby several steps of the reaction cycle were elucidated, and moreover, valuable insights into the structure-function relationship of the transporter have become available.
Nucleotide-binding domains (NBDs), roughly 27 kDa in size, are conservative components of the large family of ABC (ATP-binding cassette) transporters, which includes importers, exporters, and receptors. NBDs or ABC-ATPases supply energy for the translocation of a vast variety of substrates across biological membranes. Despite their hydrophilic sequence, many NBDs tend to aggregate and precipitate in solution upon isolation from the complete transporter. The conditions stabilizing an extremely labile NBD component of the E.coli HlyA transporter, HlyB-NBD, were developed. As a result, the pure highly concentrated enzyme was protected from precipitation for months that allowed screening of the unlimited crystallization conditions in the presence of different substrates and performance of the reproducible functional assays. HlyB-NBD was characterized in regard to its uncoupled ATPase activity, oligomeric state, and stability in solution. Comparative analysis of protein stability and ATPase activity in various buffers suggested an inverse relationship between the two. Kinetic analysis of ATPase activity revealed ATP-induced protein dimerization. Gel-filtration experiments with the wild type protein and H662A-mutant of HlyB-NBD provided further evidence of protein dimerization in the presence of ATP. The crystal structures in post- and pre-hydrolysis nucleotide-bound states of HlyB-NBD were determined at 1.6Å and 2.5Å resolution, respectively. While the hydrolytically deficient H662A mutant of HlyB-NBD was crystallized as a stable dimer in the presence of ATP or ATP-Mg2+, with two nucleotide molecules sandwiched between the two monomers, the same protein was shown to be a monomer in the ADP-loaded state. The wild type protein failed to develop crystals with bound ATP, yet formed ADP-bound crystals identical to those of the H662A-mutant. The X-ray structures of HlyB-NBD in various states of the hydrolytic cycle and the functional studies of the enzyme have provided an opportunity to characterize enzyme-substrate complexes and protein-protein interactions between the NBD subunits in great detail. Comparison of the nucleotide-free, the ADP-, and the ATP-loaded states revealed oligomeric and conformational changes of the protein upon substrate binding and resulted in a molecular picture of the catalytic cycle. The correlated results of the structural and functional investigations of HlyB-NBD are discussed with relation to the mechanism of action of ABC transporters.
Prostaglandin E2 is the major prostaglandin involved in colorectal carcinogenesis. The biosynthesis of prostaglandin E2 is accomplished by several terminal prostaglandin E synthases through catalytical conversion of the cyclooxygenase product prostaglandin H2. Among the known terminal prostaglandin E synthases, microsomal prostaglandin E synthase type 1 and type 2 were found to be overexpressed in colorectal cancer, however the role and regulation of these enzymes in this tumor entity are yet not fully understood. Here we report that the cyclopentenone prostaglandins 15-deoxy-D12,14-prostaglandin J2 and prostaglandin A2, which have been shown to modulate cell growth and neoplasia, selectively down-regulate microsomal prostaglandin E synthase type 2 mRNA and protein expression in the human colorectal carcinoma cell lines Caco-2 and HCT 116. This effect appeared to be PPARgamma independent and was not found to require G-protein-coupled receptor activation. Instead, inhibition of microsomal prostaglandin E synthase type 2 by cyclopentenone prostaglandins may be mediated by covalent binding of the cyclopentenone ring to cysteine residues on signalling molecules or via a redox-dependent mechanism. Inhibition of microsomal prostaglandin E synthase type 2 was subsequently followed by decreased prostaglandin E synthase activity, which in turn contributed at least in part to the anti-proliferative action of cyclopentenone prostaglandins in HCT 116 cells. Collectively, these data unravel a novel mechanism for the growth-inhibitory effects of cyclopentenone prostaglandins and expose microsomal prostaglandin E synthase type 2 as a new potential target for pharmacological intervention in the treatment of colorectal cancer.