Measurement data on domestic hot water consumption and related energy use in hotels, nursing homes and apartment buildings in Norway.

The data article describes detailed measurements of domestic hot water (DHW) consumption in 12 Norwegian buildings. Included in this study are 4 hotels, 4 nursing homes, and 4 apartment buildings in the greater Oslo region. Flow and temperature measurements were performed on the DHW production system in each building's heating plant, for a duration of at least 6 weeks.

The human tRNA(m(2)(2)G(26))dimethyltransferase: functional expression and characterization of a cloned hTRM1 gene.

This paper presents the first example of a complete gene sequence coding for and expressing a biologically functional human tRNA methyltransferase: the hTRM1 gene product tRNA(m(2)(2)G)dimethyltransferase. We isolated a human cDNA (1980 bp) made from placental mRNA coding for the full-length (659 amino acids) human TRM1 polypeptide. The sequence was fairly similar to Saccharomyces cerevisiae Trm1p, to Caenorhabditis elegans TRM1p and to open reading frames (ORFs) found in mouse and a plant (Arabidopsis thaliana) DNA.

Caenorhabditis elegans ZC376.5 encodes a tRNA (m2/2G(26))dimethyltransferance in which (246)arginine is important for the enzyme activity.

It has been estimated that eukaryotes carry more than 50 genes for tRNA modifying enzymes. Of the few so far identified most come from yeast, a lower eukaryote. In Saccharomyces cerevisiae, the TRM1 gene is a nuclear gene encoding the tRNA(m2/ 2G(26))dimethyltransferase, which catalyses the formation of the N2, N2-dimethylguanosine at position 26 in tRNA.

Point and deletion mutations eliminate one or both methyl group transfers catalysed by the yeast TRM1 encoded tRNA (m22G26)dimethyltransferase.

Guanosine at position 26 in eukaryotic tRNAs is usually modified to N2 , N2 -dimethylguanosine (m22G26). In Saccharomyces cerevisiae , this reaction is catalysed by the TRM1 encoded tRNA (m22G26)dimethyltransferase. As a prerequisite for future studies, the yeast TRM1 gene was expressed in Escherichia coli and the His-tagged Trm1 protein (rTrm1p) was extensively purified.

Enzymatic formation of modified nucleosides in tRNA: dependence on tRNA architecture.

Information is still quite limited concerning the structural requirements in tRNA molecules for their post-transcriptional maturation by base and ribose modification enzymes. To address this question, we have chosen as the model system yeast tRNAAsp that has a known three-dimensional structure and the in vivo modifying machinery of the Xenopus laevis oocyte able to act on microinjected tRNA precursors. We have systematically compared the modification pattern of wild-type tRNAAsp with that of a series of structural mutants (21 altogether) altered at single or multiple positions in the D-, T-and the anticodon branch, as well as in the variable region.