The structure of the chloroplast genome in members of the genus Asparagus

 In a previous study we constructed a physical map of the chloroplast DNA (ctDNA) of garden asparagus (Asparagus officinalis L. cv ‘Mary Washington 500W’; Lee et al. 1996). In the present study we have constructed and compared HindIII and XhoI restriction maps of the ctDNAs of eight species of Asparagus: namely, A. officinalis, A. schoberioides, A. cochinchinensis, A. plumosus, A. falcatus, A. sprengeri, A. virgatus and A. asparagoides. The ctDNA of A. officinalis has 32 and 23 sites that are recognized by HindIII and XhoI, respectively. Taking the physical map of the ctDNA of A. officinalis as a standard, we found that the ctDNAs of A. falcatus, A. sprengeri, and A. asparagoides each had one additional HindIII site and lacked one XhoI site. We also detected two relatively large deletions of nucleotides in the ctDNA from A. cochinchinensis by sequencing analysis. Both of these deletions were located in a non-coding region between the ndhC and trnV genes and were 95 bp and 347 bp in length, respectively. The regions around the deletions exhibited strong homology, and short direct-repeat sequences were detected at the borders of the deletions, an indication that these deletions were the result of intramolecular recombination mediated by the direct repeats. Received: 16 June 1997 / Accepted: 17 July 1997     

Spontaneous deletion formation within the beta-galactosidase gene of Lactobacillus bulgaricus

To investigate the genetic stability of the dairy organism Lactobacillus bulgaricus, we have analyzed 107 spontaneous mutations of the beta-galactosidase gene of this organism. Ten of these mutations were DNA rearrangements giving rise to different deletions, located predominantly within a small hot spot area. The DNA sequences of the different deletion junctions have been determined. The analysis showed that the deletions can be divided into two classes, depending on the presence of short direct-repeat sequences at the deletion endpoints and on the length of the deleted sequences. Possible mechanisms of these deletion formations and the involvement of inverted-repeat sequences that may enhance slipped DNA mispairing are discussed.     

Beta chloroplast genomes: analysis of Fraction I protein and chloroplast DNA variation

Summary The interrelationships of Beta chloroplast genomes have been investigated on the basis of the analysis of Fraction I protein and chloroplast (ct) DNA. Three groups of the chloroplast genomes could be demonstrated by the difference in isoelectric points of the large subunit of Fraction I protein. Restriction enzyme analysis revealed inter- and intra-specific variations among the ctDNAs, which enabled us to detect seven distinct ctDNA types. In Vulgares and Corollinae species, the observed differences were physically mapped taking advantage of the restriction fragment map available for sugar beet (B. vulgaris) ctDNA. The DNA variations were found to result either from gains or losses of restriction sites or from small deletions/ insertions, and most of them were located in the large single-copy region of the genome. Moreover, the ctDNAs from Patellares species are more diverged from those of other Beta taxa. Our results also indicate that there is a close correlation between the chloroplast genome diversity and the accepted taxonomic classification of the species included in this survey.     

Common evolutionary origin of the central portions of the Ri TL-DNA of Agrobacterium rhizogenes and the Ti T-DNAs of Agrobacterium tumefaciens

Analysis of published sequences for Ri TL-DNA (root-inducing left-hand transferred DNA) of Agrobacterium rhizogenes revealed several unsuspected structural features. First, Ri TL-DNA genes are redundant. Using redundancy as a criterion, three regions (left, middle and right) were discerned. The left one, ORFs (open reading frames) 1–7, contains no detectable redundancy. In the middle region a highly diverged gene family was detected in ORFs 8, 11, 12, 13 and 14. The right region contains an apparently recent duplication (ORF 15 =18+17). We interpret the phenomenon of redundancy, particularly in the central region that encodes the transformed phenotype, to be an adaptation that ensures function in a variety of host species. Comparison of Ri TL-DNA and Ti T-DNAs from Agrobacterium tumefaciens revealed common structures, unpredicted by previous nucleic acid hybridization studies. Ri TL-DNA ORF 8 is a diverged Ti T-DNA tms1. Both Agrobacterium genes consist of a member of the diverged gene family detected in the central part of the Ri TL-DNA, but fused to a sequence similar to iaaM of Pseudomonas savastonoi. Other members of this gene family were found scattered throughout Ti T-DNA. We argue that the central region of Ri and the part of Ti T-DNA including ORFs 5–10 evolved from a common ancestor. We present the hypothesis that the gene family encodes functions that alter developmental plasticity in higher plants.     

Comparative Genomics Reveals Long, Evolutionarily Conserved, Low-Complexity Islands in Yeast Proteins

Eukaryotic proteomes abound in low-complexity sequences, including tandem repeats and regions with significantly biased amino acid compositions. We assessed the functional importance of compositionally biased sequences in the yeast proteome using an evolutionary analysis of 2838 orthologous open reading frame (ORF) families from three Saccharomyces species (S. cerevisiae, S. bayanus, and S. paradoxus). Sequence conservation was measured by the amino acid sequence variability and by the ratio of nonsynonymous-to-synonymous nucleotide substitutions (K _a /K _s ) between pairs of orthologous ORFs. A total of 1033 ORF families contained one or more long (at least 45 residues), low-complexity islands as defined by a measure based on the Shannon information index. Low-complexity islands were generally less conserved than ORFs as a whole; on average they were 50% more variable in amino acid sequences and 50% higher in K _a /K _s ratios. Fast-evolving low-complexity sequences outnumbered conserved low-complexity sequences by a ratio of 10 to 1. Sequence differences between orthologous ORFs fit well to a selectively neutral Poisson model of sequence divergence. We therefore used the Poisson model to identify conserved low-complexity sequences. ORFs containing the 33 most conserved low-complexity sequences were overrepresented by those encoding nucleic acid binding proteins, cytoskeleton components, and intracellular transporters. While a few conserved low-complexity islands were known functional domains (e.g., DNA/RNA-binding domains), most were uncharacterized. We discuss how comparative genomics of closely related species can be employed further to distinguish functionally important, shorter, low-complexity sequences from the vast majority of such sequences likely maintained by neutral processes. [Reviewing Editor: Dr. Stuart Newfeld]     

The virB operon of Agrobacterium tumefaciens pTiC58 encodes 11 open reading frames

Summary Agrobacterium tumefaciens genetically transforms plant cells by transferring a copy of its T-DNA to the plant where it is integrated and stably maintained. In the presence of wounded plant cells this process is activated and mediated by the products of the vir genes which are grouped into six distinct loci. The largest is the virB locus spanning 9.5 kb. Transposon mutagenesis studies have shown that virB gene products are required for virulence but their functions remain largely unknown. To provide information relevant to understanding the function of VirB polypeptides, the nucleotide sequence of the virB operon from a nopaline plasmid, pTiC58, is presented here. Eleven open reading frames (ORFs) are predicted from this sequence. The predicted sizes of 10 of the 11 VirB polypeptides are verified by specific expression in Escherichia coli. Only the product of the smallest ORF potentially encoding a 5.8 kDa polypeptide has not been detected. The initiation of translation of five virB ORFs occurs at codons that overlap the termination codons of the ORF immediately upstream; thus, translational coupling may be an important mechanism for efficient translation of the large virB polycistronic mRNA. Based on hydropathy plot analysis nine of the virB ORFs encode proteins that may interact with membranes; these data support the earlier hypothesis (Engstromm et al. 1987) that virB gene products may form a membrane pore or channel to mediate exit of the T-DNA copy (T-strands) from Agrobacterium into the plant cell. A comparison of the two published octopine virB sequences with the nopaline sequence presented here is made.     

Mutational analysis of the repeated open reading frames, ORFs 63 and 70 and ORFs 64 and 69, of varicella-zoster virus

Varicella-zoster virus (VZV) open reading frame 63 (ORF63), located between nucleotides 110581 and 111417 in the internal repeat region, encodes a nuclear phosphoprotein which is homologous to herpes simplex virus type 1 (HSV-1) ICP22 and is duplicated in the terminal repeat region as ORF70 (nucleotides 118480 to 119316). We evaluated the role of ORFs 63 and 70 in VZV replication, using recombinant VZV cosmids and PCR-based mutagenesis to make single and dual deletions of these ORFs. VZV was recovered within 8 to 10 days when cosmids with single deletions were transfected into melanoma cells along with the three intact VZV cosmids. In contrast, VZV was not detected in transfections carried out with a dual deletion cosmid. Infectious virus was recovered when ORF63 was cloned into a nonnative AvrII site in this cosmid, confirming that failure to generate virus was due to the dual ORF63/70 deletion and that replication required at least one gene copy. This requirement may be related to our observation that ORF63 interacts directly with ORF62, the major immediate-early transactivating protein of VZV. ORF64 is located within the inverted repeat region between nucleotides 111565 and 112107; it has some homology to the HSV-1 Us10 gene and is duplicated as ORF69 (nucleotides 117790 to 118332). ORF64 and ORF69 were deleted individually or simultaneously using the VZV cosmid system. Single deletions of ORF64 or ORF69 yielded viral plaques with the same kinetics and morphology as viruses generated with the parental cosmids. The dual deletion of ORF64 and ORF69 was associated with an abnormal plaque phenotype characterized by very large, multinucleated syncytia. Finally, all of the deletion mutants that yielded recombinants retained infectivity for human T cells in vitro and replicated efficiently in human skin in the SCIDhu mouse model of VZV pathogenesis.     

Insertion and deletion mutations in the repA4 region of the IncFII plasmid NR1 cause unstable inheritance.

Mutants of IncFII plasmid NR1 that have transposons inserted in the repA4 open reading frame (ORF) are not inherited stably. The repA4 ORF is located immediately downstream from the replication origin (ori). The repA4 coding region contains inverted-repeat sequences that are homologous to the terC inverted repeats located in the replication terminus of the Escherichia coli chromosome. The site of initiation of leading-strand synthesis for replication of NR1 is also located in repA4 near its 3' end. Transposon insertions between ori and the right-hand terC repeat resulted in plasmid instability, whereas transposon insertions farther downstream did not. Derivatives that contained a 35-bp frameshift insertion in the repA4 ORF were all stable, even when the frameshift was located very near the 5' end of the coding region. This finding indicates that repA4 does not specify a protein product that is essential for plasmid stability. Examination of mutants having a nest of deletions with endpoints in or near repA4 indicated that the 3' end of the repA4 coding region and the site of leading-strand initiation could be deleted without appreciable effect on plasmid stability. Deletion of the pemI and pemK genes, located farther downstream from repA4 and reported to affect plasmid stability, also had no detectable effect. In contrast, mutants from which the right-hand terC repeat, or both right- and left-hand repeats, had been deleted were unstable. None of the insertion or deletion mutations in or near repA4 affected plasmid copy number. Alteration of the terC repeats by site-directed mutagenesis had little effect on plasmid stability. Plasmid stability was not affected by a fus mutation known to inactivate the termination function. Therefore, it appears that the overall integrity of the repA4 region is more important for stable maintenance of plasmid NR1 than are any of the individual known features found in this region.     

A widespread occurrence of extra open reading frames in plant Ty3/gypsy retrotransposons

Long terminal repeat (LTR) retrotransposons make up substantial parts of most higher plant genomes where they accumulate due to their replicative mode of transposition. Although the transposition is facilitated by proteins encoded within the gag-pol region which is common to all autonomous elements, some LTR retrotransposons were found to potentially carry an additional protein coding capacity represented by extra open reading frames located upstream or downstream of gag-pol. In this study, we performed a comprehensive in silico survey and comparative analysis of these extra open reading frames (ORFs) in the group of Ty3/gypsy LTR retrotransposons as the first step towards our understanding of their origin and function. We found that extra ORFs occur in all three major lineages of plant Ty3/gypsy elements, being the most frequent in the Tat lineage where most (77?%) of identified elements contained extra ORFs. This lineage was also characterized by the highest diversity of extra ORF arrangement (position and orientation) within the elements. On the other hand, all of these ORFs could be classified into only two broad groups based on their mutual similarities or the presence of short conserved motifs in their inferred protein sequences. In the Athila lineage, the extra ORFs were confined to the element 3' regions but they displayed much higher sequence diversity compared to those found in Tat. In the lineage of Chromoviruses the extra ORFs were relatively rare, occurring only in 5' regions of a group of elements present in a single plant family (Poaceae). In all three lineages, most extra ORFs lacked sequence similarities to characterized gene sequences or functional protein domains, except for two Athila-like elements with similarities to LOGL4 gene and part of the Chromoviruses extra ORFs that displayed partial similarity to histone H3 gene. Thus, in these cases the extra ORFs most likely originated by transduction or recombination of cellular gene sequences. In addition, the protein domain which is otherwise associated with DNA transposons have been detected in part of the Tat-like extra ORFs, pointing to their origin from an insertion event of a mobile element.     

SED1 polymorphism within the genus Saccharomyces

The SED1 gene is characterised by abundant length and sequence polymorphisms within the species Saccharomyces cerevisiae, due to the expansion and contraction of minisatellite-like sequences located within the ORF. A survey of the SED1 ORFs of 26 yeasts ascribed to the species S. cerevisiae, S. bayanus, S. pastorianus, S. paradoxus, S. cariocanus, S. kudriavzevii and S. mikatae revealed SED1 gene length and sequence variations between the species of the genus. Moreover, results obtained by Neighbour-Joining analysis of a dataset comprising the partial predicted amino acid sequences of SED1 ORFs agreed with the phylogenetic relationships of the seven species. Thus, the SED1 gene may represent a further molecular target for the identification of Saccharomyces isolates.     

Evolutionary dynamics of introns and their open reading frames in the U7 region of the mitochondrial rnl gene in species of Ceratocystis

The mtDNA rnl-U7 region has been examined for the presence of introns in selected species of the genus Ceratocystis. Comparative sequence analysis identified group I and group II introns encoding single and double motif LAGLIDADG open reading frames (ORFs) at the following positions L1671, L1787, and L1923. In addition downstream of the rnl-U7 region group I introns were detected at positions L1971 and L2231, and a group II intron at L2059. A GIY-YIG type ORF was located within one mL1923 LAGLIDADG type ORF and a degenerated GIY-YIG ORF fused to a nad2 gene fragment was found in association with the mL1971 group I intron. The diversity of composite elements that appear to be sporadically distributed among closely related species of Ceratocystis illustrates the potential for homing endonucleases and their associated introns to invade new sites. Phylogenetic analysis showed that single motif LADGLIDADG ORFs related to the mL1923 ORFs have invaded the L1787 group II intron and the L1671 group I intron. Phylogenetic analysis of intron encoded single and double motif LAGLIDADG ORFs also showed that these ORFs transferred four times from group I into group II B1 type introns.     

Bacillus anthracis pXO1 Plasmid Sequence Conservation among Closely Related Bacterial Species

The complete sequencing and annotation of the 181.7-kb Bacillus anthracis virulence plasmid pXO1 predicted 143 genes but could only assign putative functions to 45. Hybridization assays, PCR amplification, and DNA sequencing were used to determine whether pXO1 open reading frame (ORF) sequences were present in other bacilli and more distantly related bacterial genera. Eighteen Bacillus species isolates and four other bacterial species were tested for the presence of 106 pXO1 ORFs. Three ORFs were conserved in most of the bacteria tested. Many of the pXO1 ORFs were detected in closely related Bacillus species, and some were detected only in B. anthracis isolates. Three isolates, Bacillus cereus D-17, B. cereus 43881, and Bacillus thuringiensis 33679, contained sequences that were similar to more than one-half of the pXO1 ORF sequences examined. The majority of the DNA fragments that were amplified by PCR from these organisms had DNA sequences between 80 and 98% similar to that of pXO1. Pulsed-field gel electrophoresis revealed large potential plasmids present in both B. cereus 43881 (341 kb) and B. thuringiensis ATCC 33679 (327 kb) that hybridized with a DNA probe composed of six pXO1 ORFs.     

Regulation of a transport operon promoter in Salmonella typhimurium: identification of sites essential for nitrogen regulation

Summary The promoter of nitrogen-regulated transport, argTr, has been mutationally altered in order to determine the features that are essential for its response to nitrogen availability. Deletions of all sequences upstream of position-44 or downstream of position +2 had no effect no nitrogen regulation of argTr. These deletions define a small region of 44 bp where all necessary features for nitrogen regulation are located. This region includes for nitrogen regulation are located. This region includes sequences highly homologous to the nif consensus promoter. Alteration of this particular sequence caused drastic changes in the response to changes of nitrogen availability, thus indicating that they are directly involved in regulation. This implies that the NtrC protein must also act within this small region of the promoter. The data are discussed in terms of current-hypotheses concerning nitrogen regulation. In addition, we have shown 1. that carbon regulation at this promoter must occur at a site upstream from the nitrogen promoter; 2. that nifA can replace ntrC in the regulation of argTr.     

Minimal and contributing sequence determinants of the cis-acting locus of transfer (clt) of streptomycete plasmid pIJ101 occur within an intrinsically curved plasmid region

Efficient interbacterial transfer of streptomycete plasmid pIJ101 requires the pIJ101 tra gene, as well as a cis-acting plasmid function known as clt. Here we show that the minimal pIJ101 clt locus consists of a sequence no greater than 54 bp in size that includes essential inverted-repeat and direct-repeat sequences and is located in close proximity to the 3' end of the korB regulatory gene. Evidence that sequences extending beyond the minimal locus and into the korB open reading frame influence clt transfer function and demonstration that clt-korB sequences are intrinsically curved raise the possibility that higher-order structuring of DNA and protein within this plasmid region may be an inherent feature of efficient pIJ101 transfer.