ESCRT ubiquitin-binding domains function cooperatively during MVB cargo sorting.

Ubiquitin (Ub) sorting receptors facilitate the targeting of ubiquitinated membrane proteins into multivesicular bodies (MVBs). Ub-binding domains (UBDs) have been described in several endosomal sorting complexes required for transport (ESCRT). Using available structural information, we have investigated the role of the multiple UBDs within ESCRTs during MVB cargo selection.

Intraneural perineurioma of the radial nerve visualized by 3.0 Tesla MRI.

A progressive radial neuropathy of unknown etiology despite 1.5T magnetic resonance imaging (MRI) and surgical exploration was identified as an intraneural perineurioma by a localized Tinel's sign, an enlarged radial nerve at the spiral groove by 3.0T MRI, and a fascicular biopsy.

Isothermal DNA amplification coupled with DNA nanosphere-based colorimetric detection.

We present a simple, rapid method for detecting short DNA sequences that combines a novel isothermal amplification method (EXPAR) with visual, colorimetric readout based on aggregation of DNA-functionalized gold nanospheres. The reaction is initiated by a trigger oligonucleotide, synthetic in nature for this proof-of-principle study, which is exponentially amplified at 55 degrees C and converted to a universal reporter oligonucleotide capable of bridging two sets of DNA-functionalized gold nanospheres. This reaction provides >10(6)-fold amplification/conversion in under 5 min.

Crystal structure of the bromide-bound D85S mutant of bacteriorhodopsin: principles of ion pumping.

We report the crystal structure of a bromide-bound form of the D85S mutant of bacteriorhodopsin, bR(D85S), a protein that uses light energy rather than ATP to pump halide ions across the cell membrane. Comparison of the structure of the halide-bound and halide-free states reveals that both displacements of individual side-chain positions and concerted helical movements occur on the extracellular side of the protein. Analysis of these structural changes reveals how this ion pump first facilitates ion uptake deep within the cell membrane and then prevents the backward escape of ions later in the pumping cycle.

Crystallization of membrane proteins from media composed of connected-bilayer gels.

The use of hydrated-lipid gels in which the bilayer is an infinitely periodic (or at least continuous), three-dimensional structure offers a relatively new approach for the crystallization of membrane proteins. While excellent crystals of the Halobacterial rhodopsins have been obtained with such media, success remains poor in extending their use to other membrane proteins. Experience with crystallization of bacteriorhodopsin has led us to recognize a number of improvements that can be made in the use of such hydrated-gel media, which may now prove to be of general value for the crystallization of other membrane proteins.