Найдено научных статей и публикаций: 2, для научной тематики: Thermodynamics
1.
Omarbakiyeva Y.A., Fortmann C., Ramazanov T.S., Roepke G.
- Physical Review E , 2010
We study the contribution of electron-atom interaction to the equation of state for partially ionized hydrogen
plasma using the cluster-virial expansion. We use the Beth-Uhlenbeck approach to calculate the second virial
coefficient for the electron-atom bound cluster pair from the corresponding sc...
We study the contribution of electron-atom interaction to the equation of state for partially ionized hydrogen
plasma using the cluster-virial expansion. We use the Beth-Uhlenbeck approach to calculate the second virial
coefficient for the electron-atom bound cluster pair from the corresponding scattering phase shifts and
binding energies. Experimental scattering cross-sections as well as phase shifts calculated on the basis of
different pseudopotential models are used as an input for the Beth-Uhlenbeck formula. By including Pauli
blocking and screening in the phase shift calculation, we generalize the cluster-virial expansion in order to
cover also near solid density plasmas. We present results for the electron-atom contribution to the virial
expansion and the corresponding equation of state, i.e. pressure, composition, and chemical potential as a
function of density and temperature. These results are compared with semiempirical approaches to the thermodynamics
of partially ionized plasmas. Avoiding any ill-founded input quantities, the Beth-Uhlenbeck
second virial coefficient for the electron-atom interaction represents a benchmark for other, semiempirical
approaches.
2.
Alonso-Ron C, de la Peña P, Miranda P, Domínguez P, Barros F.
- Biophysical Journal , 2008
Gating kinetics and underlying thermodynamic properties of human ether-a-go-go-related gene (HERG) K(+) channels expressed in Xenopus oocytes were studied using protocols able to yield true steady-state kinetic parameters. Channel mutants lacking the initial 16 residues of the amino terminus before ...
Gating kinetics and underlying thermodynamic properties of human ether-a-go-go-related gene (HERG) K(+) channels expressed in Xenopus oocytes were studied using protocols able to yield true steady-state kinetic parameters. Channel mutants lacking the initial 16 residues of the amino terminus before the conserved eag/PAS region showed significant positive shifts in activation voltage dependence associated with a reduction of z(g) values and a less negative DeltaG(o), indicating a deletion-induced displacement of the equilibrium toward the closed state. Conversely, a negative shift and an increased DeltaG(o), indicative of closed-state destabilization, were observed in channels lacking the amino-terminal proximal domain. Furthermore, accelerated activation and deactivation kinetics were observed in these constructs when differences in driving force were considered, suggesting that the presence of distal and proximal amino-terminal segments contributes in wild-type channels to specific chemical interactions that raise the energy barrier for activation. Steady-state characteristics of some single point mutants in the intracellular loop linking S4 and S5 helices revealed a striking parallelism between the effects of these mutations and those of the amino-terminal modifications. Our data indicate that in addition to the recognized influence of the initial amino-terminus region on HERG deactivation, this cytoplasmic region also affects activation behavior. The data also suggest that not only a slow movement of the voltage sensor itself but also delaying its functional coupling to the activation gate by some cytoplasmic structures possibly acting on the S4-S5 loop may contribute to the atypically slow gating of HERG.