Identification and nucleotide sequence analysis of a cryptic plasmid,pRM21, from Rhodothermus marinus

Here we report the identification and nucleotide sequence analysis of pRM21, a plasmid isolated from the thermophilic eubacterium Rhodothermus marinus. pRM21 consists of 2935 bp, has a G+C content of 58.2% and one major open reading frame whose deduced product shows significant similarities to RepA proteins from several plasmids, the highest being to the RepA of pSa from Escherichia coli. A region with the characteristics of iteron-containing replicons, three 19 bp repeats, DnaA boxes, an A+T rich region and GATC sequences, was identified. Of 40 additional R. marinus strains screened for plasmids, six (15%) were found to harbour plasmids with the same size and restriction pattern as pRM21.     

Protein detection using proximity-dependent DNA ligation assays

The advent of in vitro DNA amplification has enabled rapid acquisition of genomic information. We present here an analogous technique for protein detection, in which the coordinated and proximal binding of a target protein by two DNA aptamers promotes ligation of oligonucleotides linked to each aptamer affinity probe. The ligation of two such proximity probes gives rise to an amplifiable DNA sequence that reflects the identity and amount of the target protein. This proximity ligation assay detects zeptomole (40 x 10(-21) mol) amounts of the cytokine platelet-derived growth factor (PDGF) without washes or separations, and the mechanism can be generalized to other forms of protein analysis.     

Patterns of MiRNA Expression in Arctic Charr Development

Micro-RNAs (miRNAs) are now recognized as a major class of developmental regulators. Sequences of many miRNAs are highly conserved, yet they often exhibit temporal and spatial heterogeneity in expression among species and have been proposed as an important reservoir for adaptive evolution and divergence. With this in mind we studied miRNA expression during embryonic development of offspring from two contrasting morphs of the highly polymorphic salmonid Arctic charr (Salvelinus alpinus), a small benthic morph from Lake Thingvallavatn (SB) and an aquaculture stock (AC). These morphs differ extensively in morphology and adult body size. We established offspring groups of the two morphs and sampled at several time points during development. Four time points (3 embryonic and one just before first feeding) were selected for high-throughput small-RNA sequencing. We identified a total of 326 conserved and 427 novel miRNA candidates in Arctic charr, of which 51 conserved and 6 novel miRNA candidates were differentially expressed among developmental stages. Furthermore, 53 known and 19 novel miRNAs showed significantly different levels of expression in the two contrasting morphs. Hierarchical clustering of the 53 conserved miRNAs revealed that the expression differences are confined to the embryonic stages, where miRNAs such as sal-miR-130, 30, 451, 133, 26 and 199a were highly expressed in AC, whereas sal-miR-146, 183, 206 and 196a were highly expressed in SB embryos. The majority of these miRNAs have previously been found to be involved in key developmental processes in other species such as development of brain and sensory epithelia, skeletogenesis and myogenesis. Four of the novel miRNA candidates were only detected in either AC or SB. miRNA candidates identified in this study will be combined with available mRNA expression data to identify potential targets and involvement in developmental regulation.     

X-ray crystal structure of Vibrio alkaline phosphatase with the non-competitive inhibitor cyclohexylamine

BackgroundPara-nitrophenyl phosphate, the common substrate for alkaline phosphatase (AP), is available as a cyclohexylamine salt. Here, we report that cyclohexylamine is a non-competitive inhibitor of APs.MethodsCyclohexylamine inhibited four different APs. Co-crystallization with the cold-active Vibrio AP (VAP) was performed and the structure solved.ResultsInhibition of VAP fitted a non-competitive kinetic model (K_m unchanged, V_max reduced) with IC₅₀ 45.3 mM at the pH optimum 9.8, not sensitive to 0.5 M NaCl, and IC₅₀ 27.9 mM at pH 8.0, where the addition of 0.5 M NaCl altered the inhibition to the level observed at pH 9.8. APs from E. coli and calf intestines were less sensitive to cyclohexylamine, whereas an Antarctic bacterial AP was similar to VAP in this respect. X-ray crystallography at 2.3 Å showed two binding sites, one in the active site channel and another at the surface close to dimer interface. Antarctic bacterial AP and VAP have Trp274 in common in their active-sites, that takes part in binding cyclohexylamine. VAP variants W274A, W274K, and W274H gave IC₅₀ values of 179 mM, 188 mM and 187 mM, respectively, at pH 9.8.ConclusionsThe binding of cyclohexylamine in locations at the dimeric interface and/or in the active site of APs may delay product release or reduce the rate of catalytic step(s) involving conformational changes and intersubunit communications.General significanceCyclohexylamine is a common chemical in industries and used as a counterion in substrates for alkaline phosphatase, a clinically important and common enzyme in the biosphere.     

Cloning and Sequence Analysis of the hemB Gene of Rhodothermus marinus

A Rhodothermus marinus gene, hemB, coding for 5-aminolevulinic acid (ALA) dehydratase (ALAD) has been cloned and sequenced. The reading frame of the hemB gene is 1020 base pairs encoding a protein of 340 amino acids with a calculated molecular mass of 37.4 kDa. The amino acid sequence shows homology with eubacterial and eukaryotic ALA dehydratases. A putative metal-binding site of the protein shows strongest homology with corresponding sites from plant ALA dehydratases that require Mg²⁺ for activity. It differs with respect to only one amino acid out of 20 from a corresponding site in pea ALAD. Received: 1 March 1999 / Accepted: 7 April 1999