Improved synthesis, antibacterial activity and potential carcinogenicity of 5-amino-1 ,2,4-thiadiazol-3(2H)-one.

This paper reports on the preparation of 5-amino-1,2,4-thiadiazol-3(2H)-one, a sulfur-containing analogue of cytosine with the -CH=CH- group between the positions 5 and 6 of the pyrimidine ring replaced by the divalent sulfur (-S-). Improved procedures for the preparation of thiobiuret, some of its methyl derivatives and 5-amino-1,2,4-thiadiazol-3(2H)-one are documented. Thiobiuret and its N-methyl derivatives were obtained by addition of hydrogen sulfide to the respective 1-cyanoureas. Subsequent oxidation of thiobiuret with hydrogen peroxide in alkaline medium produced 5-amino-1,2,4-thiadiazol-3(2H)-one. This substance was traced back converted to the starting thiobiuret by reaction with cysteine hydrochloride. Alkaline degradation of thiadiazol led to the formation of 1-cyanourea isolated as its silver salt. An investigation of the thiadiazol biological activities has shown that it inhibits the growth of E. coil by 10% at 8.5 microM concentrations, but exhibited no cytostatic activity in L1210, HeLa S3 and HL-60 cell lines. Potential carcinogenicity of the prepared compounds was determined by a DC polarographic method. While the values of the parameter of carcinogenicity for all intermediates indicate only marginal carcinogenic potential, the value of the parameter of carcinogenicity for the thiadiazole indicates possible carcinogenicity of this compound.

Cloning and expression of PARP-3 (Adprt3) and U3-55k, two genes closely linked on mouse chromosome 9.

Post-translational modification of nuclear proteins by poly(ADP-ribose) polymerase 1 (PARP-1) is involved in the regulation of DNA repair, cell death, and maintenance of genomic stability. Recently, several PARP-1 homologues have been identified constituting a family of poly(ADP-ribosyl)ating proteins. We cloned and sequenced the cDNAs of the mouse PARP-3 (Adprt3) gene encoding poly(ADP-ribose) polymerase 3 and of the closely linked U3-55k gene coding for the U3 small nucleolar ribonucleoprotein complex-associated 55-kilodalton protein. The two genes are located in a head-to-head orientation on mouse chromosome 9 and are linked by an approximately 1.5-kb putative bi-directional promoter region. This gene arrangement is conserved between mouse and human orthologues. Three alternative non-coding 5'-end exons were found in the mouse PARP-3 mRNA. The expression patterns of PARP-3, U3-55k, PARP-2, and PARP-1 genes were determined using Northern blot with mRNA from various adult mouse tissues and organs. PARP-3 expression was found to be regulated in a tissue-specific manner. The highest expression of PARP-3 was detected in the skeletal muscle, high to moderate levels were found in the lung, liver, kidney, ovary, spleen and heart, while thymus, small intestine and colon contained lower levels of the PARP-3 transcripts. Notably, PARP-3 expression was barely detectable in the whole brain and testis mRNA. In contrast to PARP-3, the other three genes showed ubiquitous expression with less variable mRNA levels. Interestingly, the mouse and human PARP-2 gene has recently been shown to be connected via a bi-directional promoter with the gene for the RNase P RNA subunit (Amé et al., J. Biol. Chem. 276: 11092-11099, 2001). As both the U3-55k protein and the RNase P RNA are involved in the processing of precursor RNAs of the protein-synthesizing machinery (pre-rRNA and pre-tRNA, respectively), it is tempting to hypothesize that expression of some members of the two groups of genes (i.e. PARP vs. protein-synthesizing machinery RNA-processing genes) may be coordinately regulated under certain physiological or pathological conditions and/or in some cell types.

Genetic determination of polyhydroxyalkanoate metabolism in Rhodobacter capsulatus SB1003.

A cluster of four genes was identified in the Rhodobacter capsulatus genome that is involved in PHA metabolism. These genes encode the PHA granule-associated protein (pha2), the regulator for granule formation (pha1), the PHA synthase (phaC) and the PHA depolymerase (orfX). Two other genes, namely those encoding beta-ketothiolase (phaA) and acetoacetyl-CoA reductase (phaB), are not linked to this cluster.

DicodonUse: the programme for dicodon bias visualization in prokaryotes.

The DicodonUse programme is aimed at a fast and simple assessment of genes present in prokaryotic nucleotide sequences. It identifies open reading frames that are not genes, and it distinguishes the genes that inherently belong to the genome in question from the genes that were inserted into the genome in the course of evolution. The programme is based on frequencies of dicodons used by the organism.

Similar integration but different stability of Alus and LINEs in the human genome.

Alus and LINEs (LINE1) are widespread classes of repeats that are very unevenly distributed in the human genome. The majority of GC-poor LINEs reside in the GC-poor isochores whereas GC-rich Alus are mostly present in GC-rich isochores. The discovery that LINES and Alus share similar target site duplication and a common AT-rich insertion site specificity raised the question as to why these two families of repeats show such a different distribution in the genome. This problem was investigated here by studying the isochore distributions of subfamilies of LINES and Alus characterized by different degrees of divergence from the consensus sequences, and of Alus, LINEs and pseudogenes located on chromosomes 21 and 22. Young Alus are more frequent in the GC-poor part of the genome than old Alus. This suggests that the gradual accumulation of Alus in GC-rich isochores has occurred because of their higher stability in compositionally matching chromosomal regions. Densities of Alus and LINEs increase and decrease, respectively, with increasing GC levels, except for the telomeric regions of the analyzed chromosomes. In addition to LINEs, processed pseudogenes are also more frequent in GC-poor isochores. Finally, the present results on Alu and LINE stability/exclusion predict significant losses of Alu DNA from the GC-poor isochores during evolution, a phenomenon apparently due to negative selection against sequences that differ from the isochore composition.

The Rhodobacter capsulatus genome.

The genome of Rhodobacter capsulatus has been completely sequenced. It consists of a single chromosome containing 3.5 Mb and a circular plasmid of 134 kb. This effort, started in 1992, began with a fine-structure restriction map of an overlapping set of cosmids that covered the genome. Cosmid sequencing led to a gapped genome that was filled by primer walking on the chromosome and by using lambda clones. Methods had to be developed to handle strong stops in the high GC (68%) inserts. Annotation was done with the ERGO system at Integrated Genomics, as was the reconstruction of the cell's metabolism. It was possible to recognize 3709 orfs of which functional assignments could be made with high confidence to 2392 (65%). Unusual features include the presence of numerous cryptic phage genomes embedded in the chromosome.

Molecular cloning and expression of the human and mouse homologues of the Drosophila dachshund gene.

Recent genetic analysis of the Drosophila dachshund (dac) gene has established that dac encodes a novel nuclear protein that is involved in both eye and leg development. In the Drosophila eye, dac expression appears to be controlled by the product of the eyeless/Pax6 gene. In order to analyze the Pax6 pathway in vertebrates we have isolated and characterized the cDNA and genomic clones corresponding to the human and mouse homologues of Drosophila dac. A full-length human cDNA encoding dachshund (DACH) encodes the 706 amino acids protein with predicted molecular weight of 73 kDa. A 109 amino acid domain located at the N-terminus of the DACH showed significant sequence and secondary structure homologies to the ski/sno oncogene products. Northern blot analysis found human DACH predominantly in adult kidney, heart, and placenta, with less expression detected in the brain, lung, skeletal muscle and pancreas. A panel of human cell lines was studied and most notably a large proportion of neuroblastomas expressed DACH mRNA. Mouse Dach encodes a protein of 751 amino acids with predicted molecular weight of 78 kDa that is 95% identical to the human DACH. RNase protection analysis showed the highest Dach mRNA expression in the adult mouse kidney and lung, whereas lower expression was detected in the brain and testis. RT/PCR analysis readily detected Dach mRNA in the adult mouse cornea and retina. Dach mRNA expression in the mouse E11.5 embryo was observed primarily in the fore and hind limbs, as well as in the somites.

DNA binding and transactivating properties of the paired and homeobox protein Pax4.

Transcription factors Pax-4 and Pax-6 are known to be key regulators of pancreatic cell differentiation and development. We report on the cloning of a mouse Pax-4 gene, which contains 10 exons, spanning a 4. 7-kbp region. The gene-targeting experiments revealed that Pax-4 and Pax-6 cannot substitute for each other in tissue with overlapping expression of both genes. We identified DNA-binding specificities of Pax-4 paired domain and paired-type homeodomain. Despite the different Pax-4 amino acid residues in positions responsible for Pax-6 paired-domain specificity, the DNA-binding specificities of Pax-4 and Pax-6 are similar. The Pax-4 homeodomain was shown to preferentially dimerize on DNA sequences consisting of an inverted TAAT motif, separated by 4-nucleotide spacing. The Pax-4 transactivation domain was localized within its C-terminal region, which transactivated GAL-based reporter 2.5-fold less than the C-terminal region of Pax-6. We believe that Pax-4 can act as a Pax-6 "repressor," due to the competition for binding sites and lower transactivation potential of Pax-4.

Molecular phylogeny of phi29-like phages and their evolutionary relatedness to other protein-primed replicating phages and other phages hosted by gram-positive bacteria.

The phi29-like phage genus of Podoviridae family contains phages B103, BS32, GA-1, M2, Nf, phi15, phi29, and PZA that all infect Bacillus subtilis. They have very similar morphology and their genomes consist of linear double-stranded DNA of approximately 20 kb. The nucleotide sequences of individual genomes or their parts determined thus far show that these phages evolved from a common ancestor. A terminal protein (TP) that is covalently bound to the DNA 5'-end primes DNA replication of these phages. The same mechanism of DNA replication is used by the Cp-1 related phages (also members of the Podoviridae family) and by the phage PRD1 (member of the Tectoviridae family). Based on the complete or partial genomic sequence data of these phages it was possible to analyze the evolutionary relationship within the phi29-like phage genus as well as to other protein-primed replicating phages. Noncoding regions containing origins of replication were used in the analysis, as well as amino acid sequences of DNA polymerases, and with the phi29-like phages also amino acid sequences of the terminal proteins and of the gene 17 protein product, an accessory component of bacteriophage DNA replicating machinery. Included in the analysis are also results of a comparison of these phage DNAs with the prophages present in the Bacillus subtilis genome. Based on this complex analysis we define and describe in more detail the evolutionary branches of phi29-like phages, one branch consisting of phages BS32, phi15, phi29, and PZA, the second branch composed of phages B103, M2, and Nf, and the third branch having phage GA-1 as its sole member. In addition, amino acid sequences of holins, proteins involved in phage lysis were used to extend the evolutionary study to other phages infecting Gram-positive bacteria. The analysis based on the amino acid sequences of holins showed several weak points in present bacteriophage classification.

The human cystathionine beta-synthase (CBS) gene: complete sequence, alternative splicing, and polymorphisms.

Cystathionine beta-synthase [CBS; l-serine hydro-lyase (adding homocysteine), EC 4.2.1.22] catalyzes the first committed step of transsulfuration and is the enzyme deficient in classical homocystinuria. In this report, we describe the molecular cloning and the complete nucleotide sequence of the human CBS gene. We report a total of 28,046 nucleotides of sequence, which, in addition to the CBS gene, contains approximately 5 kb of the 5' flanking region. The human CBS gene contains 23 exons ranging from 42 to 209 bp. The 5' UTR is formed by 1 of 5 alternatively used exons and 1 invariably present exon, while the 3' UTR is encoded by exons 16 and 17. We also describe the identification of two alternatively used promoter regions that are GC rich (approximately 80%) and contain numerous putative binding sites for Sp1, Ap1, Ap2, and c-myb, but lack the classical TATA box. The CBS locus contains an unusually high number of Alu repeats, which may predispose this gene to deleterious rearrangements. Additionally, we report on a number of DNA sequence repeats that are polymorphic in North American and European Caucasians.

Identification and tissue distribution of human cystathionine beta-synthase mRNA isoforms.

Cystathionine beta-synthase (CBS) catalyzes the irreversible, serine-dependent conversion of homocysteine to cystathionine via a transsulfuration pathway. CBS deficiency not only is the leading cause of homocystinuria, an inherited genetic disorder, but may contribute to cardiovascular disease as well. We isolated three new isoforms of human CBS mRNA from a human liver cDNA library. We designate these CBS mRNAs as CBS 3, CBS 4, and CBS 5, and the CBS mRNAs reported previously by Kraus et al. (1993) (Hum. Mol. Genet. 2, 1933-1938) and Kruger and Cox (1994) (Proc. Natl. Acad. Sci. USA 91, 6614-6618) as CBS 1 and CBS 2, respectively. Sequence analyses show that the only difference among the five CBS mRNAs is at the beginning of the 5'-untranslated region. Tissue distribution studies reveal that liver and pancreas have the highest amounts of CBS mRNAs. CBS mRNA is present in all regions of the brain tested. We also report the differential distribution of CBS mRNA isoforms in tissues, showing that pancreas contains all five CBS isoforms and the liver has four CBS mRNA isoforms, CBS 1-4. The kidney contains only CBS 1 and CBS 2. In human fetal tissues, CBS 2 is present in the liver and kidney. PCR-based quantitative analyses of CBS mRNA isoforms in human liver demonstrate that CBS 1 and CBS 2 are the major species, with CBS 2 being more abundant, while CBS 3-5 are the minor species. Furthermore, results from our human liver cDNA screening and primer extension experiments show that each of the five CBS transcripts begins with a different exon, suggesting that CBS gene transcription might be regulated by more than one promoter.

Bacteriophage B103: complete DNA sequence of its genome and relationship to other Bacillus phages.

The genome of Bacillus subtilis bacteriophage B103 consists of double-stranded linear DNA 18,630 bp long. The DNA was sequenced, and the sequence was compared with DNA sequences of closely related phages, namely the members of the phage phi29 family. Among them, phage Nf was shown to be the most closely related to B103. Comparisons of several open reading frames (ORFs) among the family members helped to identify genes 1 and 5. A cluster of ORFs between genes 16 and 17 contains two ORFs with partial homology with two phi29 ORFs located in the same region. There are three more ORFs in this region of B103 with good ribosome binding sites (RBS) and optimal codon usage that are not homologous to any of the phi29 ORFs. The function of these five ORFs remains unexplained. It was shown that major promoters characterized in phi29 are retained in B103. Where many substitutions occur in the vicinity of a promoter, at least the -10 and -35 boxes are conserved.

Sequence of a 189-kb segment of the chromosome of Rhodobacter capsulatus SB1003.

Cosmids from the 1A3-1A10 region of the complete miniset were individually subcloned by using the vector M13 mp18. Sequences of each cosmid were assembled from about 400 DNA fragments generated from the ends of these phage subclones and merged into one 189-kb contig. About 160 ORFs identified by the CodonUse program were subjected to similarity searches. The biological functions of 80 ORFs could be assigned reliably by using the WIT and Magpie genome investigation tools. Eighty percent of these recognizable ORFs were organized in functional clusters, which simplified assignment decisions and increased the strength of the predictions. A set of 26 genes for cobalamin biosynthesis, genes for polyhydroxyalkanoic acid metabolism, DNA replication and recombination, and DNA gyrase were among those identified. Most of the ORFs lacking significant similarity with reference databases also were grouped. There are two large clusters of these ORFs, one located between 45 and 67 kb of the map, and the other between 150 and 183 kb. Nine of the loosely identified ORFs (of 15) of the first of these clusters match ORFs from phages or transposons. The other cluster also has four ORFs of possible phage origin.

DNA sequencing and analysis of 130 kb from yeast chromosome XV.

We have determined the nucleotide sequence of 129,524 bases of yeast (Saccharomyces cerevisiae) chromosome XV. Sequence analysis revealed the presence of 59 non-overlapping open reading frames (ORFs) of length > 300 bp, three tRNA genes, four delta elements and one Ty-element. Among the 21 previously known yeast genes (36% of all ORFs in this fragment) were nucleoporin (NUP1), ras protein (RAS1), RNA polymerase III (RPC1) and elongation factor 2 (EF2). Further, 31 ORFs (53% of the total) were found to be homologous to known protein or DNA sequences, or sequence patterns. For seven ORFs (11% of the total) no homology was found. Among the most interesting protein identification in this DNA fragment are an inositol polyphosphatase, the second gene of this type found in yeast (homologous to the human OCRL gene involved in Lowe's syndrome), a new ADP ribosylation factor of the arf6 subfamily, the first protein containing three C2 domains, and an ORF similar to a Bacillus subtilis cell-cycle related protein. For each ORF detailed sequence analysis was carried out, with a full consideration of its biological function and pointing out key regions of interest for further functional analysis.

Sequence analysis of the bovine herpesvirus type 1 genes homologous to the DNA polymerase (UL30), the major DNA-binding protein (UL29) and ICP18.5 assembly protein (UL28) genes of herpes simplex virus.

The nucleotide sequence of a 10.5 kb region (map position 0.332 to 0.410) of bovine herpesvirus type 1 (BHV-1) was determined. This region contained three open reading frames (ORFs) homologous to herpes simplex virus DNA polymerase catalytic subunit (DNApol, UL30), major DNA-binding protein (MDBP, UL29) and ICP18.5 assembly protein (ICP18.5, UL28). The BHV-1 DNApol. MDBP and ICP18.5 ORFs were 1246, 1203 and 826 amino acids long with a calculated molecular mass of 134.2 kDa, 124.4 kDa and 86.9 kDa, respectively. They showed a high homology with alphaherpesvirus homologs despite large differences in the G + C content of the UL30-UL28 segment ranging from 44.4% for varicella zoster virus to 71.5% for BHV-1. Particularly well conserved among Alphaherpesvirinae are the putative functional domains of the DNApol and MDBP proteins which are discussed. Phylogenetic analysis revealed that BHV-1 clustered in the Varicellovirus genus with the animal D-type viruses. In this group, the BHV-1 position was shown to vary according to the investigated genes. Indeed, pseudorabies virus clustered with BHV-1 in the DNApol tree but with equine herpesvirus 1 in the ICP18.5 tree.

Gene contents in a 31-kb segment at the left genome end of bovine herpesvirus-1.

We report the nucleotide sequence of a 31-kb segment at the left genome end of bovine herpesvirus-1 (BHV-1) and show that it comprises 19 different open reading frames (ORFs), including seven which have been described previously (circ, dUTPase, UL49.5, alpha TIF, VP8, glycoprotein C, and ribonucleotide reductase small subunit). The new sequence resulted in a correction at the C-terminus of glycoprotein C. All 19 ORFs exhibited strong amino acid sequence homology to the gene products of other alphaherpesviruses. The BHV-1 ORFs were arranged colinearly with the prototype sequence of herpes simplex virus 1 (HSV-1) in the range of the UL54 to UL37 genes. No BHV-1 homologs of the HSV-1 UL56, UL55, and UL45 genes were identified. The BHV-1 circ gene was the only gene without a HSV-1 counterpart. The additional ORFs 1 and 2 found at the left genome end of equine herpesvirus-1 (EHV-1) were absent in BHV-1. Among the newly sequenced BHV-1 ORFs are homologs of ICP27 (UL54), glycoprotein K (UL53), helicase-primase (UL52), DNA polymerase accessory protein (UL42), ribonucleotide reductase large subunit (UL39), and several virion proteins (UL49, UL46, UL43, UL41, UL38, UL37), most of which are strongly conserved in all herpesviruses. The possible functions of the proteins encoded within the sequenced region are assessed and features found are discussed.

Sequencing and analysis of 51 kb on the right arm of chromosome XV from Saccharomyces cerevisiae reveals 30 open reading frames.

We have sequenced a region of 51 kb of the right arm from chromosome XV of Saccharomyces cerevisiae. The sequence contains 30 open reading frames (ORFs) of more than 100 amino acid residues. Thirteen new genes have been identified. Thirteen ORFs correspond to known yeast genes. One delta element and one tRNA gene were identified. Upstream of the RPO31 gene, encoding the largest subunit of RNA polymerase III, lies a Abf1p binding site. The nucleotide sequence data reported in this paper are available in the EMBL, GenBank and DDBJ nucleotide sequence databases under the Accession Number X90518.

A method for preparing M13 or pUC libraries for sequencing DNA with high G + C or A + T contents.

A simple method is described to generate M13 or pUC libraries from DNA with a very high G + C or A + T content. The G + C-rich DNA is partially digested with HinPI or HpaII restriction enzymes and cloned into the vector linearized in its multiple cloning site with AccI. The A + T-rich DNA is partially digested with TspI and cloned into the EcoRI-linearized vector. These libraries are suitable for large-scale DNA sequencing.

Nucleotide sequence analysis of a 30-kb region of the bovine herpesvirus 1 genome which exhibits a colinear gene arrangement with the UL21 to UL4 genes of herpes simplex virus.

We report the nucleotide sequence of the 19-kb HindIII fragment B of bovine herpesvirus 1 (BHV-1) DNA and adjacent parts of the HindIII A and L fragments, which together span a still completely uncharted 30-kb region located between the glycoprotein H gene and the right end of the unique long segment. The analysis revealed 17 complete open reading frames (ORFs) and 2 ORFs that were interrupted by potential splice donor and acceptor sites. All of these ORFs exhibited strong amino acid sequence homology to the gene products of other alphaherpesviruses. The BHV-1 ORFs were arranged colinearly with the prototype sequence of herpes simplex virus 1 in the range of the UL21 to UL4 genes. Colinearity was also observed with the genes of betaherpesviruses and gamma herpesviruses, although not all ORFs exhibited clear sequence homology. The possible functions of the proteins encoded within the sequenced region are assessed and features found are discussed. Unexpected findings include the following: high amino acid sequence conservation among alphaherpesviruses despite large differences in G + C content, ranging from 45% for varicella zoster virus to 72% for BHV-1; high similarity with other UL20 proteins at the predicted structural level in spite of relatively low amino acid homology; and a 2-kb open reading frame overlapping UL19 in the opposite sense and exhibiting high amino acid similarity to the same area of pseudorabies virus.