Photobleaching reveals complex effects of inhibitors on transcribing RNA polymerase II in living cells.

RNA polymerase II transcribes most eukaryotic genes. Photobleaching studies have revealed that living Chinese hamster ovary cells expressing the catalytic subunit of the polymerase tagged with the green fluorescent protein contain a large rapidly exchanging pool of enzyme, plus a smaller engaged fraction; genetic complementation shows this tagged polymerase to be fully functional. We investigated how transcriptional inhibitors--some of which are used therapeutically--affect the engaged fraction in living cells using fluorescence loss in photobleaching; all were used at concentrations that have reversible effects.

Specialized transcription factories.

We have previously suggested a model for the eukaryotic genome based on the structure of the bacterial nucleoid where active RNA polymerases cluster to loop the intervening DNA. This organization of polymerases into clusters--which we call transcription 'factories'--has important consequences. For example, in the nucleus of a HeLa cell the concentration of soluble RNA polymerase II is approximately 1 mM, but the local concentration in a factory is 1000-fold higher.

Functional characterization of a promoter region in the human MEN1 tumor suppressor gene.

Our previous studies on the human MEN1 (multiple endocrine neoplasia type 1) gene revealed heterogeneity of MEN1 2.8 kb transcripts related to variation in their 5' UTR only. Six distinct exons 1 (e1A-e1F) were isolated that suggested the existence of multiple but not already identified transcriptional start sites (TSS) and of a complex transcriptional control.

Transcription regulation of the multiple endocrine neoplasia type 1 gene in human and mouse.

Multiple endocrine neoplasia type I (MEN1) is an autosomal dominant tumor syndrome, with the presence of tumors in parathyroid, pancreatic, and anterior pituitary. The tumor suppressor gene MEN1, located on chromosome 11q13, encodes a 610 amino acid, 68-kDa protein, menin. Menin is conserved among species but has no similarity with any known protein.