The interferon-induced double-stranded RNA-activated protein kinase PKR will phosphorylate serine, threonine, or tyrosine at residue 51 in eukaryotic initiation factor 2alpha.

The family of eukaryotic initiation factor 2alpha (eIF2alpha) protein kinases plays an important role in regulating cellular protein synthesis under stress conditions. The mammalian kinases PKR and HRI and the yeast kinase GCN2 specifically phosphorylate Ser-51 on the alpha subunit of the translation initiation factor eIF2. By using an in vivo assay in yeast, the substrate specificity of these three eIF2alpha kinases was examined by substituting Ser-51 in eIF2alpha with Thr or Tyr. In yeast, phosphorylation of eIF2 inhibits general translation but derepresses translation of the GCN4 mRNA. All three kinases phosphorylated Thr in place of Ser-51 and were able to regulate general and GCN4-specific translation. In addition, both PKR and HRI were found to phosphorylate eIF2alpha-S51Y and stimulate GCN4 expression. Isoelectric focusing analysis of eIF2alpha followed by detection using anti-eIF2alpha and anti-phosphotyrosine-specific antibodies demonstrated that PKR and HRI phosphorylated eIF2alpha-S51Y on Tyr in vivo. These results provide new insights into the substrate recognition properties of the eIF2alpha kinases, and they are intriguing considering the potential for alternate substrates for PKR in cellular signaling and growth control pathways.

Physical map and set of overlapping cosmid clones representing the genome of the archaeon Halobacterium sp. GRB.

We have constructed a complete, five-enzyme restriction map of the genome of the archaeon Halobacterium sp. GRB, based on a set of 84 overlapping cosmid clones. Fewer than 30 kbp, in three gaps, remain uncloned. The genome consists of five replicons: a chromosome (2038 kbp) and four plasmids (305, 90, 37, and 1.8 kbp). The genome of Halobacterium sp. GRB is similar in style to other halobacterial genomes by being partitioned among multiple replicons and by being mosaic in terms of nucleotide composition. It is unlike other halobacterial genomes, however, in lacking multicopy families of insertion sequences.

Transcriptionally active regions in the genome of the archaebacterium Haloferax volcanii.

Transcriptionally active regions of the Haloferax volcanii genome were mapped by hybridization of radiolabeled cDNA to Southern blots of our minimal set of overlapping cosmid clones covering 96% of the 4.1-Mbp genome. Transcription during exponential growth occurred in nearly every region of the 2,920-kbp chromosome. Large parts of the 690- and the 86-kbp plasmids were transcribed, but the 440-kbp plasmid showed little expression. Transcription after a 40-min heat shock at 65 degrees C was generally reduced, apart from a small set of strongly expressed loci all situated on the chromosome.