Multiple replication origins of the archaeon Halobacterium species NRC-1

The genomic sequence of the halophilic archaeon Halobacterium NRC-1 has been analyzed by the Z curve method. The Z curve is a three-dimensional curve that uniquely represents a given DNA sequence. Based on the known behaviors of the Z curves for the archaea whose replication origins have been identified, the analysis of the Z curve for the genome of Halobacterium NRC-1 strongly suggests that the large genome has two replication origins, oriC1 (921,863-922,014) and oriC2 (1,806,444-1,807,229), which are located at two sharp peaks of the Z curve. These two regions are next to the cdc6 genes and contain multiple copies of stretches of G and C, i.e., ggggtgggg and ccccacccc, which may also be regarded as direct and inverted repeats. Based on the above analysis, a model of replication of Halobacterium NRC-1 with two replication origins and two termini has been proposed. The experimental confirmation of this model would constitute the first example of multiple replication origins of archaea, which will finally provide much insight into the understanding of replication mechanisms of eukaryotic organisms, including human. In addition, the potential multiple replication origins of the archaeon Sulfolobus solfataricus are suggested by the analysis based on the Z curve method.     

Single replication origin of the archaeon Methanosarcina mazei revealed by the Z curve method

The genomic sequence of the archaeon Methanosarcina mazei has been analyzed by the Z curve method. The Z curve is a three-dimensional curve that uniquely represents the given DNA sequence. The three-dimensional Z curve and its x and y components for the genome of M. mazei show a sharp peak and relatively broad peak, respectively. The cdc6 gene is located exactly at the position of the sharp peak. Based on the known behavior of the Z curves for the archaea whose replication origins have been identified, we hypothesize that the replication origin and termination sites correspond to the positions of the sharp peak and broad peak, respectively. We have located an intergenic region that is between the cdc6 gene (MM1314) and the gene for an adjacent protein (MM1315), which shows strong characteristics of the known replication origins. This region is highly rich in AT and contains multiple copies of consecutive repeats. Our results strongly suggest that the single replication origin of M. mazei is situated at the intergenic region between the cdc6 gene and the gene for the adjacent protein, from 1,564,657 to 1,566,241 bp of the genome.     

Biochemical analysis of a DNA replication origin in the archaeon Aeropyrum pernix

We have characterised the interaction of the Aeropyrum pernix origin recognition complex proteins (ORC1 and ORC2) with DNA using DNase I footprinting. Each protein binds upstream of its respective gene. However, ORC1 protein alone interacts more tightly with an additional region containing multiple origin recognition box (ORB) sites that we show to be a replication origin. At this origin, there are four ORB elements disposed either side of an A+T-rich region. An ORC1 protein dimer binds at each of these ORB sites. Once all four ORB sites have bound ORC1 protein, there is a transition to a higher-order assembly with a defined alteration in topology and superhelicity. Furthermore, after this transition, the A+T-rich region becomes sensitive to digestion by DNase I and P1 nuclease, revealing that the transition promotes distortion of the DNA in this region, presumably as a prelude to loading of MCM helicase.     

De novo origin of new genes with introns in Plasmodium vivax

The origin of new genes is critical for organisms adapting to new niches. Here, we present evidence for a recent de novo origin of at least 13 protein-coding genes in the genome of Plasmodium vivax. Although recently de novo originated genes have often been suggested to be initially intronless, five of the genes identified in our analysis contain introns in their coding regions. Further investigations revealed that these introns likely evolved from previously intergenic regions together with the coding sequences. We discuss the potential mechanisms for intron formation in these genes and propose that intronization be considered in the formation of de novo originated genes.     

CAG repeat length in an infertile male population of Irish origin

The androgen receptor (AR) gene, located on the X chromosome, is an important regulator of human spermatogenesis. In the past decade, the link between the CAG polyglutamine tract, situated on exon one of the AR gene, and reduced spermatogenesis has become a controversial one. Alterations in the length of the CAG polyglutamine tract have been associated with prostate cancer at a reduced intrinsic length and neuromuscular diseases at a CAG repeat length of 40. Minimal intermediate increases have been linked with depressed spermatogenesis in infertile males. Asian and Australian groups have published an association between increased CAG repeat length and reduced spermatogenesis while many European studies have found no such association. The aim of this study was to document the association between increased CAG repeat length and reduced spermatogenesis in a group of Irish infertile males and controls known to have fathered at least one child. The study employed the ABI 377 DNA sequencer to size the CAG repeat region of exon one of the AR gene in each group. Statistical analysis revealed no actual link between the length of the CAG tract and a reduction of spermatogenesis in a cohort of infertile patients (n = 66) of Irish ethnic origin when compared to a fertile control group (n = 77) (p = 0.599).     

Identification of replication origins in the genome of the methanogenic archaeon,<Emphasis Type="Italic"> Methanocaldococcus jannaschii</Emphasis>

Methanocaldococcus jannaschii has been notorious as an archaeon in which the replication origins are difficult to identify. Although extensive efforts have been exerted on this issue, the locations of replication origins still remain elusive 7 years after the publication of its complete genome sequence in 1996. Ambiguous results were obtained in identifying the replication origins of M. jannaschii based on all theoretical and experimental approaches. In the genome of M. jannaschii, we found that an ORF (MJ0774), annotated as a hypothetical protein, is a homologue of the Cdc6 protein. The position of the gene is at a global minimum of the x component of the Z curve, i.e., RY disparity curve, which has been used to identify replication origins in other Archaea. In addition, an intergenic region (694,540–695,226 bp) that is between the cdc6 gene and an adjacent ORF shows almost all the characteristics of known replication origins, i.e., it is highly rich in AT composition (80%) and contains multiple copies of repeat elements and AT stretches. Therefore, these lines of evidence strongly suggest that the identified region is a replication origin, which is designated as oriC1. The analysis of the y component of the Z curve, i.e., MK disparity curve, suggests the presence of another replication origin corresponding to one of the peaks in the MK disparity curve at around 1,388 kb of the genome.Communicated by G. Antranikian     

DNA replication initiation by 6-DMAP treatment in maturing oocytes and dividing embryos from marine invertebrates

6-dimethylaminopurine (6-DMAP), a potent protein kinase inhibitor, drives most cells into an interphasic stage. Experiments were undertaken with oocytes from three marine invertebrate species, i.e., Mytilus edulis, Spisula solidissima, and Strongylocentrotus droebachiensis, wherein oocytes were arrested at different phases of meiosis. 6-DMAP induced a continuous DNA synthesis in meiotic cells, whereas it allowed a single round of DNA replication in treated mitotic cells, regardless of species considered. The effects of 6-DMAP were accompanied in all cases by rephosphorylation on tyrosine of the p34^cdc2 homolog, the M-phase promoting factor (MPF) catalytic subunit. The fact that 6-DMAP overcomes the inhibitory control of replication during meiosis suggests that this process depends upon protein phosphorylation, while DNA synthesis regulation in mitotic cells relies on 6-DMAP-insensitive events. © 1996 Wiley-Liss, Inc.     

Mapping an origin of DNA replication at a single-copy locus in exponentially proliferating mammalian cells.

A general method for determining the physical location of an origin of bidirectional DNA replication has been developed recently and shown to be capable of correctly identifying the simian virus 40 origin of replication (L. Vassilev and E. M. Johnson, Nucleic Acids Res. 17:7693-7705, 1989). The advantage of this method over others previously reported is that it avoids the use of metabolic inhibitors, the requirement for cell synchronization, and the need for multiple copies of the origin sequence. Application of this method to exponentially growing Chinese hamster ovary cells containing the nonamplified, single-copy dihydrofolate reductase gene locus revealed that DNA replication begins bidirectionally in an initiation zone approximately 2.5 kilobases long centered about 17 kilobases downstream of the DHFR gene, coinciding with previously described early replicating sequences. These results demonstrate the utility of this mapping protocol for identifying cellular origins of replication and suggest that the same cellular origin is used in both the normal and the amplified DHFR locus.     

Mitochondrial tRNAs as light strand replication origins: Similarity between anticodon loops and the loop of the light strand replication origin predicts initiation of DNA replication

Stem-loop hairpins formed by mitochondrial light strand replication origins (OL) and by heavy strand DNA coding for tRNAs that form OL-like structures initiate mitochondrial replication. The loops are recognized by one of the two active sites of the vertebrate mitochondrial gamma polymerase, which are homologuous to the active sites of class II amino-acyl tRNA synthetases. Therefore, the polymerase site recognizing the OL loop could recognize tRNA anticodon loops and sequence similarity between anticodon and OL loops should predict initiation of DNA replication at tRNAs. Strengths of genome-wide deamination gradients starting at tRNA genes estimate extents by which replication starts at that tRNA. Deaminations (A→G and C→T) occur proportionally to time spent single stranded by heavy strand DNA during mitochondrial light strand replication. Results show that deamination gradients starting at tRNAs are proportional to sequence similarity between OL and tRNA loops: most for anticodon-, least D-, intermediate for TψC-loops, paralleling tRNA synthetase recognition interactions with these tRNA loops. Structural and sequence similarities with regular OLs predict OL function, loop similarity is dominant in most tRNAs. Analyses of sequence similarity and structure independently substantiate that DNA sequences coding for mitochondrial tRNAs sometimes function as alternative OLs. Pathogenic mutations in anticodon loops increase similarity with the human OL loop, non-pathogenic polymorphisms do not. Similarity/homology alignment hypotheses are experimentally testable in this system.     

Mapping of an origin of DNA replication near the transcriptional promoter of the human HPRT gene

A quantitative PCR method was used to map a functional origin of DNA replication in the hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene in normal human fibroblasts. This PCR method measures the abundance of specific sequences in short fragments of newly replicated DNA from logarithmically growing cells. Quantitative measurements rely on synthetic molecules (competitors) that amplify with the same primer sets as the target molecules, but generate products of different sizes. This method was first utilized to determine the position of the replication origin near the lamin B2 gene (Giacca et al. [1994] Proc. Natl. Acad. Sci. U S A. 91:7119-7123). In the present study, primer sets were tested along a 16-kb region near exon 1 of the HPRT gene. The most abundant fragment was found to be located in the first intron of HPRT, just downstream of the promoter and exon 1 of the gene, and approximately 3.5 kb upstream of a previously reported autonomously replicating sequence (Sykes et al. [1988] Mol. Gen. Genet. 212:301-309).     

The origin of a break in arrhenius plots of membrane processes

The break in Arrhenius plots of membrane permeation rates or protein activities is interpreted as a consequence of the inherent energy-entropy compensation at the lipid phase transition. An experimental result in support of this interpretation is presented.     

Components of the sex pheromone of the currant pug moth, Eupithecia assimilata, a re-emergent hop pest in UK

After an absence of 50 years, the currant pug moth, Eupithecia assimilata Doubleday (Lepidoptera: Geometridae), has reappeared as an important pest of hops, Humulus lupulus L. (Cannabaceae), in the UK. Pheromone gland extracts from virgin female E. assimilata moths were shown to contain (3Z,6Z)‐cis‐9,10‐epoxyheneicosadiene (3Z,6Z‐cis‐9,10‐epoxy‐21:H) by gas chromatography linked to mass spectrometry. (3Z,6Z,9Z)‐heneicosatriene (3Z,6Z,9Z‐21:H) was also found as a minor component in one of two extracts. In field experiments, significant numbers of male E. assimilata moths were caught in traps baited with the (9S,10R)‐enantiomer of 3Z,6Z‐cis‐9,10‐epoxy‐21:H but not in those baited with the (9R,10S)‐enantiomer or racemic mixture. Addition of 3Z,6Z,9Z‐21:H at the ratio present in gland extracts greatly reduced the attractiveness of the epoxydiene.     

Mapping of genes on the linear chromosome of the bacterium Borrelia burgdorferi: Possible locations for its origin of replication

Molecular clones of Borrelia burgdorferi, aetiologic agent of Lyme borreliosis, were isolated and analysed by DNA sequence determination. This procedure yielded B. burgdorferi homologues of gidA, gyrB, gyrA, ftsA and ftsZ. The genes were located on the physical map of the B. burgdorferi linear chromosome. Also mapped were the genes fla and p60 while dnaA was mapped using a heterologous probe. gyrA and gyrB were found to be in tandem and were mapped, along with dnaA at the centre of the chromosome. gidA was located close to the left hand extremity of the chromosome. Because gyrB, dnaA and gidA are normally located within 50 kb of the origin of replication (oriC), we propose two possible sites for oriC in the B. burgdorferi linear chromosome.     

Identification of Endogenously Phosphorylated KSP Sites in the High-Molecular-Weight Rat Neurofilament Protein

Abstract: The high-molecular-weight neurofilament protein (NF-H) is highly phosphorylated in vivo, with estimates as high as 16–51 mol of P_i/mol of protein. Most of the phosphorylation sites are thought to be located on Ser residues in multiple KSP repeats, in the carboxy-terminal tail region of the molecule. Because the extent and site-specific patterns of tail domain phosphorylation are believed to modulate neurofilament structure and function, it becomes essential to identify the endogenous sites of phosphorylation. In this study, we have used selective proteolytic cleavage procedures, P_i determinations, microsequencing, and mass-spectral analysis to determine the endogenously phosphorylated sites in the NF-H tail isolated from rat spinal cord. Twenty Ser residues in NF-H carboxy-terminal tail were analyzed; nine of these, all located in KSP repeats, were phosphorylated. No detectable phosphorylation could be identified in any of the 11 "non-KSP" Ser residues that were examined. KSPXKX, KSPXXX, and KSPXXK motifs were found to be phosphorylated. In addition, a 27-kDa KSP-rich domain, containing 43 virtually uninterrupted KSPXXX repeats, was isolated from the tail domain and found to contain between 30 and 35 mol of P_i/mol of protein. This domain appeared to be highly resistant to endoproteinase Glu-C digestion, although it contains a large number of glutamate residues. It could be proteolyzed, however, after dephosphorylation. This suggests that phosphorylation of the tail domain may contribute to neurofilament stability in vivo. A neuronal-derived protein kinase that specifically phosphorylates only KSPXKX motifs in neurofilaments has been reported. The presence of extensively phosphorylated KSPXXX repeats in NF-H in vivo suggests the existence of yet another, unidentified kinase(s) with specificity for KSPXXX motifs.