Isolation of a repeated DNA sequence from Bordetella pertussis

A repeated DNA sequence in the genome of Bordetella pertussis has been demonstrated. At least 20 copies of this sequence could be observed in either BamHI or EcoRI restriction enzyme digests of chromosomal DNA; fragments carrying the repeated DNA sequence ranged in size from about 1.5 to 20 kbp. The repeated DNA sequence was cloned from two separate regions of the B. pertussis genome, as shown by restriction enzyme site maps of the two clones and by hybridization studies. A small number of differences in the pattern of hybridization of the repeated DNA sequence to chromosomal DNA from several strains of B. pertussis was observed. No repeated DNA sequences were observed in one strain each of B. parapertussis and B. bronchiseptica, and there was no hybridization of B. pertussis DNA to Escherichia coli chromosomal DNA. The repeated DNA sequence was subcloned on a 2.54 kbp BamHI fragment from one of the two original clones. Restriction enzyme digests and hybridization studies showed that the repeated DNA sequence was about 1 kbp in size and had a single, internal ClaI site.     

Complete genome sequence of Bordetella pertussis CS, a Chinese pertussis vaccine strain

Bordetella pertussis is the causative agent of pertussis. Here, we report the genome sequence of Bordetella pertussis strain CS, isolated from an infant patient in Beijing and widely used as a vaccine strain for production of an acellular pertussis vaccine in China.     

Nucleotide sequence and characterization of a new insertion element, IS240, from Bacillus thuringiensis israelensis

The nucleotide sequence of two repeated sequences (RS) in opposite orientations flanking the 125-kDa toxin gene of Bacillus thuringiensis israelensis (C. Bourgouin et al., J. Bacteriol. 170, 3575-3583, 1988) is reported in this paper. The analysis of these sequences indicates that these two RS display characteristic features of bacterial insertion sequences (IS) and are therefore referred to as IS240. IS240 B is 865 bp long and has two perfect terminal-inverted repeats of 16 bp; IS240 A is 99% identical to IS240 B. A long open reading frame encoding a polypeptide of 235 amino acids spans almost the entire sequence of both IS240 elements. Both the sequence of the inverted repeats and the putative transposases are homologous to IS26 of Proteus vulgaris, IS15-delta of Salmonella panama, IS431 of Staphylococcus aureus, and ISS1 of Streptococcus lactis.     

Analysis of the chromosomal location of two copies of a Bordetella pertussis insertion sequence

IS481v1 and IS481v2 are two copies of a Bordetella pertussis insertion sequence element. We have shown that IS481v1 is located within 3 kbp of the start of the adenylate cyclase gene whilst IS481v2 is immediately adjacent to the end of the agglutinogen 2 gene and provides the stop codon for that gene. In addition, IS481v1 and IS481v2 were present at these two specific sites in nine strains of B. pertussis, including two Phase IV strains which expressed neither adenylate cyclase nor agglutinogen 2 and three Phase I strains which did not express agglutinogen 2. The loss of expression in these strains is not the result of DNA rearrangements at the sites of IS481v1 or IS481v2.     

Characterization of IS1001, an insertion sequence element of Bordetella parapertussis.

By analysis of repetitive DNA in Bordetella parapertussis, an insertion sequence element, designated IS1001, was identified. Sequence analysis revealed that IS1001 comprised 1,306 bp and contained inverted repeats at its termini. Furthermore, several open reading frames that may code for transposition functions were identified. The largest open reading frame coded for a protein comprising 406 amino acid residues and showed homology to TnpA, which is encoded by an insertion sequence element (IS1096) found in Mycobacterium smegmatis. Examination of flanking sequences revealed that insertion of IS1001 occurs preferentially in stretches of T's or A's and results in a duplication of target sequences of 6 to 8 bases. IS1001 was found in about 20 copies in 10 B. parapertussis strains analyzed. No restriction fragment length polymorphism was observed in B. parapertussis when IS1001 was used as a probe. An insertion sequence element similar or identical to IS1001 was found in B. bronchiseptica strains isolated from pigs and a rabbit. In these strains, about five copies of the IS1001-like element were present at different positions in the bacterial chromosome. Neither B. pertussis nor B. bronchiseptica strains isolated from humans and dogs contained an IS1001-like element. Therefore, IS1001 may be used as a specific probe for the detection of B. parapertussis in human clinical samples.     

Cloning and characterization of a rat-specific repetitive DNA sequence

A 2.1-kb EcoRI fragment of rat DNA has been cloned and sequenced. This fragment contained a repetitive element which was highly specific for rat DNA and widely dispersed throughout the rat genome. The repetitive element is homologous to a sequence found in the 3' end of the rat LINE family. Because of its high degree of species specificity and its heterodisperse distribution, this sequence provided a useful marker for rat DNA in DNA transfection experiments into mouse host cells.     

Nucleotide sequence of a highly repetitive component of rat DNA.

A highly repetitive component of rat DNA which could not yet be enriched by density gradient centrifugation was isolated with the help of the restriction nuclease Sau3AI. This nuclease converted the bulk of the DNA to small fragments and left a repetitive DNA component as large fragments which were subsequently purified by gel filtration and electrophoresis. This DNA component which was termed rat satellite DNA I is composed of tandemly repeated 370 bp blocks. According to sequence analysis the 370 bp repeats consist of alternating 92 and 93 bp units with homologous but not identical sequences. Methylation of CpG residues was correlated to the rate of cleavage by restriction nucleases. Significant homologies exist between the sequences of rat satellite DNA I and satellite DNAs of several other organisms. The divergence of the sequence of rat satellite DNA I was discussed with respect to evolutionary considerations.     

Cloning and characterization of a centromere-specific repetitive DNA element from Sorghum bicolor

 A 823-bp Sau3AI fragment (pSau3A10) was subcloned from a sorghum bacterial artificial chromosome (BAC) clone, 13I16, that contains DNA sequences specific to the centromeres of grass species. Sequence analysis showed that pSau3A10 consists of six copies of an approximately 137-bp monomer. The six monomers were organized into three dimers. The monomers within the dimers shared 62–72% homology and the dimers were 79–82% homologous with each other. Fluorescence in situ hybridization (FISH) analysis indicated that the Sau3A10 family is present only in the centromeres of sorghum chromosomes. Sequencing, Southern hybridization, and Fiber-FISH analyses indicated that the Sau3A10 family is tandemly arranged and is present in uninterrupted stretches of up to at least 81 kb of DNA. Slot-blot analysis estimated that the Sau3A10 family constitutes 1.6–1.9% of the sorghum genome. The long stretches of Sau3A10 sequences were interrupted by other centromeric DNA elements. Southern analysis indicated that the Sau3A10 sequence is one of the most abundant DNA families located in sorghum centromeres and is conserved only in closely related sorghum species. Methylation experiments indicated that the cytosine of the CG sites in sorghum centromeric regions is generally methylated. The structure and organization of the Sau3A10 family shared similarities with centromeric DNA repeats in other eukaryotic species. It is suggested that the Sau3A10 family is probably an important part of sorghum centromeres. Received: 11 November 1997 / Accepted: 17 November 1997     

Nucleotide sequence of a repetitive element isolated from Leptospira interrogans serovar hardjo type hardjo-bovis.

A repetitive element from the genome of Leptospira interrogans serovar hardjo type hardjo-bovis ('L. hardjo-bovis') was identified, cloned and sequenced. Similar sequences were shown by hybridization to be encoded by a further eight of 32 other leptospiral serovars tested. An undefined number of repetitive elements were located in the L. hardjo-bovis genome; sequence degeneracy of the elements was observed and no significant open reading frames were identified within the AT-rich (60%) 1467 bp repetitive element. The termini encoded a GC-rich 8 bp repeat motif and two variants showed rearrangements centred on these motifs. The nucleotide sequences of the chromosomal regions flanking the repetitive elements were determined but showed no similarities, with one exception which had a GAAC repeat directly adjacent to both termini. Similar hybridization patterns were shown by Southern transfers of L. hardjo-bovis total genomic digests probed with the repetitive element. Oligonucleotide primer pairs designed from sequences internal to the repetitive element and adjacent chromosomal regions were used in polymerase chain reaction experiments. With one primer pair all L. hardjo-bovis isolates, but no other serovar, gave identical amplified products. Evidence that the repetitive element may have derived from an acquired insertion sequence that is now inactive and chromosomally fixed is discussed.     

Purification and characterization of a calmodulin-sensitive adenylate cyclase from Bordetella pertussis

Bordetella pertussis, the bacterium responsible for whooping cough, releases a soluble, calmodulin-sensitive adenylate cyclase into its culture medium. B. pertussis mutants deficient in this enzyme are avirulent, indicating that the adenylate cyclase contributes to the pathogenesis of the disease. It has been proposed that B. pertussis adenylate cyclase may enter animal cells and increase intracellular adenosine cyclic 3',5'-phosphate (cAMP) levels. We have purified the enzyme extensively from culture medium using anion-exchange chromatography in the presence and absence of calmodulin and gel filtration chromatography. The enzyme was purified 1600-fold to a specific activity of 608 mumol of cAMP min-1 mg-1 and was free of islet activating protein. The molecular weight of the enzyme was 43 400 in the absence of calmodulin and 54 200 in the presence of calmodulin. The Km of the bacterial enzyme for adenosine 5'-triphosphate was 2.0 mM, whereas the Km of the calmodulin-sensitive adenylate cyclase from bovine brain was 0.07 mM. Although the enzyme was not purified to homogeneity, its turnover number of 27 000 min-1 is the highest documented for any adenylate cyclase preparation.     

Nucleotide sequence of a highly repetitive element isolated fromOpsariichthys uncirostris (Osteichthyes)

A highly repetitive DNA element has been isolated fromOpsariichthys uncirostris. It contains several oligo-dA tracts and potential regions for the secondary structures.     

Purification and characterization of two transcribed repetitive DNA fractions from the pigeon genome

Two fractions of the repeats belonging to intermediate frequency repetitive DNA were isolated from the total pigeon nuclear DNA fragmented to about 450 nucleotides. One fraction was designated as rare repeats (repetition frequency about 35 per haploid genome) and another termed as moderate repeats (repetition frequency about 2500 per haploid genome). The rare repeats, which constitute about 7% of the total DNA, include at least 75% of the repetitive DNA sequences transcribed into the high molecular fraction (>45S) of HnRNA in erythroid cells. These repeats have properties compatible with the characteristics of the class of low frequency interspersed DNA found in genomes of many other Metazoan species. The moderate repeats contribute only about 10–20% of the total repetitive DNA copies present in >45S HnRNA and differ from the rare repeats in some other properties. — The possible role of the rare repeats in the genome is discussed.     

Nucleotide sequence of a major satellite DNA element isolated from a saltwater fishSillago japonica

A member of satellite repetitive DNA was isolated and sequenced from a saltwater fishSillago japonica (Percoidei). This sequence consists of several oligo-dA/dT tracts and two inverted repeats which resemble each other. Dot blot hybridization analysis using a satellite DNA clone pSJ2 among the species in the suborder Percoidei revealed that the pSJ2 sequence was amplified at least after the family Sillaginidae had been derived.     

Nucleotide sequence and genome organization of bacteriophage S13 DNA

The complete sequence of bacteriophage S13 DNA has been determined. The molecule has 5386 nucleotides and differs from φX174 by 87 transitions and 24 transversions. All the proteins, A, A^*, B, C, D, E, F, G, H, J and K found in φX174 are also present in S13. Due to changes in the H/A intergenic region of S 13, the start of an additional protein. A′, has been identified. Genes F and H coding for the capsid and spike proteins, respectively, are the least conserved in comparison to φX174. Many of the silent changes, as well as some amino acid changes, are found in the same nucleotide sequence positions in phage G4, confirming the interrelationship between the three phages.