Mus81-Eme1 are essential components of a Holliday junction resolvase.

Mus81, a fission yeast protein related to the XPF subunit of ERCC1-XPF nucleotide excision repair endonuclease, is essential for meiosis and important for coping with stalled replication forks. These processes require resolution of X-shaped DNA structures known as Holliday junctions. We report that Mus81 and an associated protein Eme1 are components of an endonuclease that resolves Holliday junctions into linear duplex products. Mus81 and Eme1 are required during meiosis at a late step of meiotic recombination. The mus81 meiotic defect is rescued by expression of a bacterial Holliday junction resolvase. These findings constitute strong evidence that Mus81 and Eme1 are subunits of a nuclear Holliday junction resolvase.     

Superresolution imaging reveals structural features of EB1 in microtubule plus-end tracking

Visualization of specific molecules and their interactions in real time and space is essential to delineate how cellular dynamics and the signaling circuit are orchestrated. Spatial regulation of conformational dynamics and structural plasticity of protein interactions is required to rewire signaling circuitry in response to extracellular cues. We introduce a method for optically imaging intracellular protein interactions at nanometer spatial resolution in live cells, using photoactivatable complementary fluorescent (PACF) proteins. Subsets of complementary fluorescent protein molecules were activated, localized, and then bleached; this was followed by the assembly of superresolution images from aggregate position of sum interactive molecules. Using PACF, we obtained precise localization of dynamic microtubule plus-end hub protein EB1 dimers and their distinct distributions at the leading edges and in the cell bodies of migrating cells. We further delineated the structure–function relationship of EB1 by generating EB1-PACF dimers (EB1^wt:EB1^wt, EB1^wt:EB1^mt, and EB1^mt:EB1^mt) and imaging their precise localizations in culture cells. Surprisingly, our analyses revealed critical role of a previously uncharacterized EB1 linker region in tracking microtubule plus ends in live cells. Thus PACF provides a unique approach to delineating spatial dynamics of homo- or heterodimerized proteins at the nanometer scale and establishes a platform to report the precise regulation of protein interactions in space and time in live cells.     

The fall and rise of the Oblong woodsia in Britain

Summary

The vegetation of a small spoil heap at Jerah mine near Stirling was classified as species-rich acid grassland, an open barren-soil community with a high frequency of the moss Pohlia nutans, and a group which showed intermediate characteristics. Copper was present in the soil in potentially toxic concentrations and when the vegetation data were ordinated the axes showed highly significant correlations with soil copper and loss-on-ignition. The results suggest that copper is a major determinant of the spoil-heap vegetation, and contrast sharply with those reported for the Burn of Sorrow mine, a site with many superficial similarities.     

Overcoming the constraints of long range radio telemetry from animals: getting more useful data from smaller packages

Many species carry out their most interesting activities wherethey cannot readily be observed or monitored. Marine mammalsare extreme among this group, accomplishing their most astoundingactivities both distant from land and deep in the sea. Collection,storage and transmission of data about these activities areconstrained by the energy requirements and size of the recordingloggers and transmitters. The more bits of information collected,stored and transmitted, the more battery is required and thelarger the tag must be. We therefore need to be selective aboutthe information we collect, while maintaining detail and fidelity.To accomplish this in the study of marine mammals, we have designed"intelligent" data logger/transmitters that provide context-drivendata compression, data relay, and automated data base storage.We later combine these data with remotely sensed environmentalinformation and other oceanographic data sets to recreate theenvironmental context for the animal's activity, and we displaythe combined data using computer animation techniques. In thisway, the system can provide near real time "observation" ofanimal behavior and physiology from the remotest parts of theglobe.