Examination of the stability of austenitic steels in lithium at 600degC

Translated from Russian (Fiz. Khim. Obrab. Mater. 1988 v. 22(3) p. 70-73)Available from British Library Document Supply Centre- DSC:9023.19(VR-Trans--4078)T / BLDSC - British Library Document Supply CentreSIGLEGBUnited Kingdo

Hydrodynamic model of the variation of the shape of the surface in treatment of a rotating cylinder with the electron beam

Translated from Russian (Fiz. Khim. Obrab. Mater. 1994 (1) p. 15-21)Available from British Library Document Supply Centre-DSC:9023.190(10404)T / BLDSC - British Library Document Supply CentreSIGLEGBUnited Kingdo

The Two ADF-H Domains of Twinfilin Play Functionally Distinct Roles in Interactions with Actin Monomers

Twinfilin is a ubiquitous and abundant actin monomer–binding protein that is composed of two ADF-H domains. To elucidate the role of twinfilin in actin dynamics, we examined the interactions of mouse twinfilin and its isolated ADF-H domains with G-actin. Wild-type twinfilin binds ADP-G-actin with higher affinity (K(D) = 0.05 μM) than ATP-G-actin (K(D) = 0.47 μM) under physiological ionic conditions and forms a relatively stable (k(off) = 1.8 s(−1)) complex with ADP-G-actin. Data from native PAGE and size exclusion chromatography coupled with light scattering suggest that twinfilin competes with ADF/cofilin for the high-affinity binding site on actin monomers, although at higher concentrations, twinfilin, cofilin, and actin may also form a ternary complex. By systematic deletion analysis, we show that the actin-binding activity is located entirely in the two ADF-H domains of twinfilin. Individually, these domains compete for the same binding site on actin, but the C-terminal ADF-H domain, which has >10-fold higher affinity for ADP-G-actin, is almost entirely responsible for the ability of twinfilin to increase the amount of monomeric actin in cosedimentation assays. Isolated ADF-H domains associate with ADP-G-actin with rapid second-order kinetics, whereas the association of wild-type twinfilin with G-actin exhibits kinetics consistent with a two-step binding process. These data suggest that the association with an actin monomer induces a first-order conformational change within the twinfilin molecule. On the basis of these results, we propose a kinetic model for the role of twinfilin in actin dynamics and its possible function in cells