Conformational Flexibility of Poly(ethylenimine) and Its Derivatives

On page 225, in Eqs. [3]-[5] and in the accompanying expressions for Ͱ, K ex should be replaced with 1/K ex . Also on page 225, [CL] 0 , [CL] 2 0 , and [CL] 3 0 should be replaced with Ϫ[CL] 0 , Ϫ[CL] 2 0 , and Ϫ[CL] 3 0 , respectively, in the expressions of Ͱ. This erratum is Article No. BH981086.

## Abstract The structural flexibility of creatine kinase has been investigated with the covalent hydrophobic probe 2‐[4′‐(2″‐iodoacetamido) phenyl] aminonaphthalene‐6‐sulfonic acid (IAANS) which reacts at vastly different rates with the two subunits to give a protein conjugate with fluorescence ch

Theoretical calculations by the combined empirical force-field (EFF)-extended Huckel molecular orbital (EHMO) approach confirm that octalene and benzo-lcl-octalene present a-bond fixation with a common single bond between the cyclooctatetraene and cyclooctatriene fragments, whereas the structure of

Three molecules of 5-(bromoacetyl)salicylate ( 1) complexed to uranyl (UO 2/ 2 ) ion were crosslinked with branchy poly(ethylenimine) (PEI) in DMSO by alkylation of amino groups of PEI with 1, leading to the formation of UO 2 (Sal) U 3 PEI. Upon demetalation of UO 2 (Sal) U 3 PEI with HCl, apo(Sal)

Titration curves were obtained for poly(ethylenimine) (PEI), lauryl-containing PEI, and poly(allylamine) (PAA). Since each polymer contains more than 1000 amino groups, the \(\mathrm{p} K_{\mathrm{a}}\) values of individual amino groups are needed for rigorous analysis of the titration curves. Inste