Making sense of chromatin states

Researchers find new pieces in the puzzle of genome regulation.     

Making sense of microarrays

A report on the 'Critical Assessment of Microarray Data Analysis' (CAMDA 2000) meeting, Durham, North Carolina, USA, December 18-19,2000.     

Making sense of cilia and flagella

Data reported at an international meeting on the sensory and motile functions of cilia, including the primary cilium found on most cells in the human body, have thrust this organelle to the forefront of studies on the cell biology of human disease.     

Making sense of lung-cancer gene-expression profiles

A report on the Critical Assessment of Microarray Data Analysis (CAMDA'03) meeting and competition, Durham, USA, 12-14 November 2003.     

Making sense of mimic in translation termination

The mechanism of translation termination has long been a puzzle. Recent crystallographic evidence suggests that the eukaryotic release factor (eRF1), the bacterial release factor (RF2) and the ribosome recycling factor (RRF) all mimic a tRNA structure, whereas biochemical and genetic evidence supports the idea of a tripeptide 'anticodon' in bacterial release factors RF1 and RF2. However, the suggested structural mimicry of RF2 is not in agreement with the tripeptide 'anticodon' hypothesis and, furthermore, recently determined structures using cryo-electron microscopy show that, when bound to the ribosome, RF2 has a conformation that is distinct from the RF2 crystal structure. In addition, hydroxyl-radical probings of RRF on the ribosome are not in agreement with the simple idea that RRF mimics tRNA in the ribosome A-site. All of this evidence seriously questions the simple concept of structural mimicry between proteins and RNA and, thus, leaves only functional mimicry of protein factors of translation to be investigated.     

Making sense of glycosphingolipids in epithelial polarity

A potential role for glycosphingolipids and lipid rafts in apical sorting was initially met with enthusiasm, but genetic analysis has since provided little support for it. A report now establishes that glycosphingolipids mediate apical sorting, and specifically help maintain apicobasal polarity in Caenorhabditis elegans.