Plasmid deletion formation between short direct repeats in Bacillus subtilis is stimulated by single-stranded rolling-circle replication intermediates

Summary The effects of the rolling-circle mode of replication and the generation of single-stranded DNA (ss DNA) on plasmid deletion formation between short direct repeats in Bacillus subtilis were studied. Deletion units consisting of direct repeats (9, 18, or 27 bp) that do or do not flank inverted repeats (300 bp) were introduced into various plasmid replicons that generate different amounts of ss DNA (from 0% to 40% of the total plasmid DNA). With ss DNA-generating rolling-circle-type plasmids, deletion frequencies between the direct repeats were 3- to 13-fold higher than in plasmids not generating ss DNA. When the direct repeats flanked inverted repeats the deletion frequencies in ss DNA-generating plasmids were increased by as much as 20- to 140-fold. These results support models for deletion formation based on template-switching errors during complementary strand synthesis of rolling-circle-type plasmids. The structural instability (deletion formation between short direct repeats) of the ss DNA-generating plasmid pTA1060 in B. subtilis was very low in the presence of a functional initiation site for complementary strand synthesis (minus origin). This observation suggests that it will be possible to develop stable host-vector cloning systems for B. subtilis.     

Mechanisms of deletion formation in Escherichia coli plasmids. II. Deletions mediated by short direct repeats.

Summary A set of plasmids containing 42, 21 and 13 bp direct repeats was used to analyze the effect of repeat length on the frequencies of deletion formation and the structure of the deleted derivatives of different recombination-deficient Escherichia coli strains. Agarose gel electrophoresis of plasmid DNA demonstrated that the formation of deletions in these plasmids was associated with dimerization of plasmid DNA. Restriction analysis of the dimers showed that deletions at short direct repeats arose non-conservatively, that is, the formation of a deletion in one monomeric plasmid unit was not associated with a duplication in the other. Mutations in the recA, recF, recJ and recO genes had no marked effect on either the frequencies of deletion formation or the structure of dimers. In contrast, recB recC mutations greatly increased the frequencies of deletion formation, 6-fold for 42 bp, and 115-fold for 21 by direct repeats. Conversion of DNA replication to the rolling circle mode in a recB recC strain, resulting in the formation of double-stranded ends, is suggested as the stimulatory effector.     

Recombination between repeats in Escherichia coli by a recA-independent, proximity-sensitive mechanism

We have examined the influence of proximity on the efficiency of recombination between repeated DNA sequences in Escherichia coli. Our experiments have employed a plasmid-based assay to detect deletions between direct repeats of 100 bp. The rate of deletion of the juxtaposed direct repeats was reasonably high at 6 × 10^–5 per cell. A comparison of recA+ and recA mutant strains showed that these deletion events are primarily the result of recA-independent recombination at these homologous sequences. Random restriction fragments of yeast or E. coli genomic DNA were used to separate the two repeats. Deletion rates decreased over two orders of magnitude with increasing separation of up to 7 kb. There was a surprisingly strong effect of even short sequence separations, with insertions of a few hundred base pairs exhibiting 10-fold reductions of deletion rates. No effect of recA on the efficiency of deletion was observed at any distance between repeats.     

A 36‐bp deletion in the alpha subunit of glutamate‐gated chloride channel contributes to abamectin resistance in Plutella xylostella

Diamondback moth (DBM), Plutella xylostella (L.) (Lepidoptera: Plutellidae), is one of the most destructive pests in Brassicaceae crops, such as Chinese cabbage (Brassica rapa L.). It is rapidly developing resistance to abamectin, the dominant insecticide utilized in controlling P. xylostella in China and other southeastern Asian countries. The target of abamectin, the alpha subunit of glutamate‐gated chloride channel (GluClα), is thought to be involved in the development of abamectin resistance in nematodes and insects. This study investigated variants of GluClα in both abamectin‐susceptible and resistant strains of P. xylostella. A comparison of the PxGluClα sequences revealed three variants, including a 63‐bp substitution, a 36‐bp deletion, and a 65‐bp insertion. The frequency of the 36‐bp deletion was much higher in the abamectin‐resistant strain compared to the susceptible strain, whereas the 63‐bp substitution and 65‐bp insertion showed no significant difference between the resistant and susceptible strains. The in vitro expression of PxGluClα (with or without the 36‐bp deletion) in Xenopus laevis (Daudin) oocytes indicated that PxGluClα with the 36‐bp deletion was less sensitive to both glutamate and abamectin compared to the wild‐type PxGluClα. These findings suggest that the variant 36‐bp deletion in PxGluClα may confer abamectin resistance in P. xylostella after continuous abamectin selection, providing new insights into the management of this pest and contributing to the development of new reagents for pest control.     

Molecular evolution of a mitochondrial<Emphasis Type="Italic"> polB</Emphasis> gene,encoding a family B DNA polymerase,towards the elimination from<Emphasis Type="Italic"> Agrocybe</Emphasis> mitochondrial genomes

Two genes ( Ac-polB O1and Ac-polB O2), each encoding a family B DNA polymerase, were characterized from the mitochondrial genome of the basidiomycete Agrocybe chaxingu. These two polB genes constitute orthologs of the potentially functional Aa-polB gene and its disrupted paralog Aa-polB P1, previously described in the closely related species A. aegerita. Unlike the case in Aa-polB, both gene copies in A. chaxingu are constituted by large but disrupted ORFs, which very probably encode nonfunctional enzymes: Ac-polB O1 has a deletion of 126 bp between the segments encoding the Exo II and Pol I domains and a 78-bp insertion between the Exo II and Exo III domains, whereas Ac-polB O2 has a large deletion of 1208 bp between the Exo II and Pol III domains and a deletion of 54-bp involving the 3 end of the gene. Hence, rearrangements in the Ac-polB ORFs appear to have led to their functional erosion in the mitochondrial genome in this species. Phylogenetic analysis has shown a close relationship between the mitochondrial polB genes and homologous genes carried by fungal linear plasmids, suggesting that they may have been acquired by the integration of linear plasmids into the mitochondrial genome.Communicated by P. J. Punt     

Structural plasmid instability in Bacillus subtilis: Effect of direct and inverted repeats

Summary Using precise excision as a model system, we have quantified the effect of direct repeats, inverted repeats and the size of the spacer between the repeats in the process of deletion formation in Bacillus subtilis. Both in the presence and absence of inverted repeats, the frequency of precise excision was strongly dependent on the direct repeat length. By increasing the direct repeat length from 9 bp to 18 and 27 bp, the precise excision frequency was raised by 3 and 4 orders of magnitude, respectively. In addition, irrespective of the direct repeat length, the presence of flanking inverted repeats enhanced the excision frequency by 3 orders of magnitude. Varying the inverted repeat length and the spacer size over a wide range did not significantly affect the excision frequencies. These results fit well into a model for deletion formation by slipped mispairing during replication of single-stranded plasmid DNA.     

Polymorphism in Nucleotide Sequence of Mitochondrial Intergenic Region in Scleractinian Coral (Galaxea fascicularis)

A region of 826 bp that is unlikely to code for a protein, ribosomal RNA, or transfer RNA was identified between the cytochrome b and NADH–ubiquinone oxidoreductase chain 2 loci in the mitochondrial DNA of the scleractinian reef coral Galaxea fascicularis. Nucleotide sequences were determined in a part (625 bp) of this intergenic region in 95 individuals collected at 9 sites in the Ryukyu Archipelago in southwestern Japan. A total of 8 haplotypes were found, and a deletion of 290 bp was found in 3 of them. Significant differences were found in frequencies of the haplotypes at 3 sampling sites. The presence or absence of the deletion was highly correlated with the hard or soft morphotype. The deletion was found in the majority of hard-type colonies, but in a small fraction of soft-type individuals.     

Asymmetric crossing over in the spontaneous formation of large deletions in the tonB-trp region of the Escherichia coli K-12 chromosome.

The chromosomal tonB gene of Escherichia coli was used as a target for the detection of spontaneous deletion mutations. The deletions were isolated in both recA ⁺ and recA ⁻ cells, and mutants carrying large deletions were identified because they also lacked part or all of the trp operon. The frequencies of tonB-trp deletion were 1.79 × 10⁻⁹ and 1.09 × 10⁻⁹ for recA ⁺ and recA ⁻ cells, respectively. We analyzed 12 deletions from recA ⁺ and 10 from recA ⁻ cells by cloning and direct sequencing. The deletions ranged in size from 5612 bp to 15142 bp for recA ⁺ and from 5428 bp to 13289 for recA ⁻ cells. Three deletions from recA ⁺ cells and five deletions from recA ⁻ cells were found to have occurred between short sequence repeats at the termini of the deletion, leaving one copy of the repeat in the mutant sequence. Seven deletions from recA ⁺ cells and three deletions from recA ⁻ cells did not have repeats at their termini; in these cases, the DNA sequences that are adjacent to the deletion termini in the wild-type are characterized by short (2–4 bp) repeats. From these results, a model is presented for the generation of deletion mutations which involves formation of an asymmetric crossover mediated by repeated sequences of 2- to 4-bp. Received: 14 September 1998 / Accepted: 22 December 1998     

Deletions/insertions, short inverted repeats, sequences resembling att-lambda, and frame shift mutated open reading frames are involved in chloroplast DNA differences in the genus Oenothera subsection Munzia

Summary A restriction fragment length mutation has been mapped in the large single copy region of the chloroplast DNA from two Munzi-Oenothera species. Fragments containing the deletion/insertion were cloned, further analysed by additional restriction enzymes, and sequenced. A deleted/inserted 136 bp sequence was identified upstream of the 5 end of a tRNA-Leu (UAA) gene and presumably is located in the spacer between this gene and a tRNA-Thr (UGU) gene. The endpoints of the 136 bp sequence are covered by short inverted repeats. Complementary inverted repeats are present in the middle of the deleted/inserted sequence. The repeats are part of sequences resembling the lambda chromosomal attachment site (att-lambda) which is essential for site specific recombination in the lambda/ Escherichia coli system. Possible interactions of the repeats during the deletion/insertion process are discussed. The spacer also contains a 1 bp deletion/insertion within an open reading frame (ORF). Due to this frame shift mutation the ORF sizes are quite different between the two Oenothera species.     

Three distinct regulatory elements comprise the upstream promoter region of the nopaline synthase gene

Summary Fine deletion mutants were generated in the upstream control region of the nopaline synthase (nos) promoter to define the position and role of upstream regulatory elements. The results indicated that the 8 bp sequence (CAGAAACC) at -106/-113 and its inverted repeat (GGTTTCTG) at -140/-147 are important for promoter function. The downstream element appears more important than the upstream element since deletion of the former reduced promoter activity more significantly than deletion of the latter. Deletion of the element alone, however, did not abolish promoter function, whereas, deletion of the 10 bp potential Z-DNA-forming (Z) element located between the repeat elements nullified promoter activity. Therefore, it appears that the Z element is an essential upstream regulator and the repeated elements are upstream modulators of the nos promoter. These elements are functionally distinct since alteration of stereospecificity or insertion of short oligonucleotides between the elements did not significantly influence promoter activity. These regulatory elements were unable to function from 200 bp upstream of the CCAAT-TATA box region.     

Mucopolysaccharidosis type IVA: common double deletion in the N-acetylgalactosamine-6-sulfatase gene (GALNS)

Mucopolysaccharidosis IVA (MPS IVA) is an autosomal recessive disorder caused by a deficiency in N-acetylgalactosamine-6-sulfatase (GALNS). We found two separate deletions of nearly 8.0 and 6.0 kb in the GALNS gene, including some exons. There are Alu repetitive elements near the breakpoints of the 8.0-kb deletion, and this deletion resulted from an Alu—Alu recombination. The other 6.0-kb deletion involved illegitimate recombinational events between incomplete short direct repeats of 8 bp at deletion breakpoints. The same rearrangement has been observed in a heteroallelic state in four unrelated patients. This is the first documentation of a common double deletion a gene that is not a member of a gene cluster.     

INDEL variation in the regulatory region of the major flowering time gene LanFTc1 is associated with vernalization response and flowering time in narrow‐leafed lupin (Lupinus angustifolius L.)

Narrow‐leafed lupin (Lupinus angustifolius L.) cultivation was transformed by 2 dominant vernalization‐insensitive, early flowering time loci known as Ku and Julius (Jul), which allowed expansion into shorter season environments. However, reliance on these loci has limited genetic and phenotypic diversity for environmental adaptation in cultivated lupin. We recently predicted that a 1,423‐bp deletion in the cis‐regulatory region of LanFTc1, a FLOWERING LOCUS T (FT) homologue, derepressed expression of LanFTc1 and was the underlying cause of the Ku phenotype. Here, we surveyed diverse germplasm for LanFTc1 cis‐regulatory variation and identified 2 further deletions of 1,208 and 5,162 bp in the 5' regulatory region, which overlap the 1,423‐bp deletion. Additionally, we confirmed that no other polymorphisms were perfectly associated with vernalization responsiveness. Phenotyping and gene expression analyses revealed that Jul accessions possessed the 5,162‐bp deletion and that the Jul and Ku deletions were equally capable of removing vernalization requirement and up‐regulating gene expression. The 1,208‐bp deletion was associated with intermediate phenology, vernalization responsiveness, and gene expression and therefore may be useful for expanding agronomic adaptation of lupin. This insertion/deletion series may also help resolve how the vernalization response is mediated at the molecular level in legumes.     

A unique deletion in pBR322 DNA caused by insertion of poly(dA) · poly(dT)

A unique deletion covering around 43% of the pBR322 genome was found after attempting to insert 100 or 200 bp poly(dA) · poly(dT) into the EcoRV site of pBR322 DNA. This result was not observed if an equivalent size heterologous DNA or a larger poly(dA) · poly(dT) fragment of 10–20,000 bp was introduced at the same site. DNA sequencing analysis at the junctions suggests that a specific intramolecular pairing may be involved in the formation of this deletion mutant.     

High-density oligonucleotide array with sub-kilobase resolution reveals breakpoint information of submicroscopic deletions in nevoid basal cell carcinoma syndrome

Small submicroscopic genomic deletions and duplications constitute up to 15% of all mutations underlying human monogenic diseases. In this study, we used newly designed high-resolution oligonucleotide microarrays with a median distance between the probes of 776 bp (average probe interval 2,271 bp) to detect gene deletions in nevoid basal cell carcinoma syndrome (NBCCS) patients. NBCCS, also called Gorlin syndrome, is characterized by developmental defects and tumorigenesis such as medulloblastomas and basal cell carcinomas, caused by mutations of the human patched-1 (PTCH1) gene. Two out of three deletions could not be detected by a conventional chromosomal analysis. A submicroscopic deletion as small as 165 kb was detected affecting only PTCH1, whereas the other two deletions were much larger (5 and 11 Mb). We demonstrated not only the exact number of genes involved in the deletion but also rapidly determined the junction sequences after pinpointing the breakpoint regions in all individuals analyzed. This report of an array-based determination of junction sequences of long deletions circumvented a labor-intensive analysis such as Southern blotting or FISH. Alu-mediated recombination in one case and non-homologous end joining in the other two were probably implicated in the generation of deletions. This method will contribute to the understanding of molecular pathogenesis of gene deletions as well as rapid genetic testing. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Molecular aspects of genetic instability of an artificial 68 bp perfect palindrome in Escherichia coli

Summary An artificial 68 bp perfect palindrome carried on a plasmid (pAS807) is genetically unstable. An increase in the population of cells harbouring palindrome-deleted pAS807 derivatives (pAS807-) is observed as the number of cell generations increases. The calculated frequency of palindrome excision events per cell generation and per plasmid replication round in Escherichia coli is 0.95x10^-4. Sequence analysis of eight independent isolates of palindrome-deleted molecules, reveals two symmetrical deletion types (three of type I and five of type II). The two types of pAS807- molecules retain 19 bp of the original sequence of the 68 bp palindrome but differ in the content of the central 3 bp. The generation of the two deletion types is best explained by formation of intermediate cruciform structures. Following the fate of the palindrome in various bacterial mutants, we find that the excision events depend on functional polA1, polA(ex1), lig, texA343(recC343) and texA344(recB344) gene products. However, recB21 recC22 mutations do not affect palindrome excision.     

Geographic Origins of Korean and Chinese Kimchi Determined by Multiple Elements

By use of the promoter probe transposon Tn5-B21, two promoter fragments were isolated. One promoter (822 bp) (GC=63.5%) isolated from P. putida loses all of its promoter activity by exo-nuclease or restriction enzyme deletion. Another promoter (264 bp) (GC=49.2%) isolated from P. fluorescens could be shortened to 154 bp by exonuclease deletion without any effect on its promoter activity in several Pseudomonas species.     

Genetic differentiation between two sympatric morphs of the blind Iran cave barb Iranocypris typhlops

The phylogenetic relationship between two sympatric morphotypes of the Iran cave barb Iranocypris typhlops, and Garra rufa, was investigated by sequencing the cytochrome c oxidase I (coI) region (788 bp) providing the first molecular evidence of their phylogeny. Consistent with their morphological differences, the mean genetic distance between the two forms of I. typhlops was significantly higher than generally reported for intraspecific divergence in freshwater fishes. They were phylogenetically closer to G. rufa than to any other species.