Combined Magnetic Resonance Imaging and Photodynamic Therapy Using Polyfunctionalised Nanoparticles Bearing Robust Gadolinium Surface Units.

A robust dithiocarbamate tether allows novel gadolinium units based on DOTAGA (q=1) to be attached to the surface of gold nanoparticles (2.6-4.1 nm diameter) along with functional units offering biocompatibility, targeting and photodynamic therapy.

Protein folding in Escherichia coli: the chaperonin GroE and its substrates.

A brief summary of the role of DnaK and GroE chaperones in protein folding precedes a discussion of the role of GroE in Escherichia coli. We consider its obligate substrates, the 8 that are both obligate and essential, and the prospects for constructing a mutant that could survive without it. Structural features of GroE-dependent polypeptides are also considered.

Large-scale modelling as a route to multiple surface comparisons of the CCP module family.

Numerous mammalian proteins are constructed from a limited repertoire of module-types. Proteins belonging to the regulators of complement activation family--crucial for ensuring a complement-mediated immune response is targeted against infectious agents--are composed solely of complement control protein (CCP) modules. In the current study, CCP module sequences were grouped to allow selection of the most appropriate experimentally determined structures to serve as templates in an automated large-scale structure modelling procedure.

Why is carbonic anhydrase essential to Escherichia coli?

The can (previously yadF) gene of Escherichia coli encodes a beta-class carbonic anhydrase (CA), an enzyme which interconverts CO(2) and bicarbonate. Various essential metabolic processes require either CO(2) or bicarbonate and, although carbon dioxide and bicarbonate spontaneously equilibrate in solution, the low concentration of CO(2) in air and its rapid diffusion from the cell mean that insufficient bicarbonate is spontaneously made in vivo to meet metabolic and biosynthetic needs. We calculate that demand for bicarbonate is 10(3)- to 10(4)-fold greater than would be provided by uncatalyzed intracellular hydration and that enzymatic conversion of CO(2) to bicarbonate is therefore necessary for growth.

A unifold, mesofold, and superfold model of protein fold use.

As more and more protein structures are determined, there is increasing interest in the question of how many different folds have been used in biology. The history of the rate of discovery of new folds and the distribution of sequence families among known folds provide a means of estimating the underlying distribution of fold use. Previous models exploiting these data have led to rather different conclusions on the total number of folds.