Ongoing genome reduction in Mycobacterium ulcerans.Elucidation of the transmission, epidemiology, and evolution of Mycobacterium ulcerans, the causative agent of Buruli ulcer, is hampered by the striking lack of genetic diversity of this emerging pathogen emerging pathogen Public health Any pathogen that ↑ incidence of an epidemic outbreak Examples Cryptosporidium, E coli O157:H7, Hantavirus, multidrug resistant pneumococci, vancomycin-resistant enterococci. See Emergent disease. . However, by using a prototype plasmid-based microarray that covered 10% of the genome, we found multiple genomic DNA deletions among 30 M. ulcerans clinical isolates of diverse geographic origins. Many of the changes appear to have been mediated by insertion sequence insertion sequence n. Any of several discrete DNA sequences that repeat at various sites on a bacterial chromosome, on certain plasmids, and on bacteriophages and that can move from one site to another on the chromosome, to another plasmid in the same (IS) elements IS2404 and IS2606, which have high copy numbers. Classification of the deleted genes according to their biological functions supports the hypothesis that M. ulcerans has recently evolved from the generalist environmental M. marinum to become a niche-adapted specialist. The substantial genomic diversity, along with a prototype microarray that covered a small portion of the genome, suggests that a genome-wide microarray will make available a genetic fingerprinting genetic fingerprinting n. See DNA fingerprinting. method with the high resolution required for microepidemiologic studies. ********** The study of genetic diversity within bacterial species has provided information on aspects such as virulence (1,2), antimicrobial drug resistance (3), epidemiology, and microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. evolution (4-7). For mycobacteria mycobacteria members of the genus Mycobacterium. anonymous mycobacteria see opportunist (atypical) mycobacteria (below). nontubercular mycobacteria see opportunist (atypical) mycobacteria (below). such as Mycobacterium tuberculosis Mycobacterium tuberculosis n. Tubercic bacillus. Mycobacterium tuberculosis and M. ulcerans, low intraspecies in·tra·spe·cif·ic also in·tra·spe·cies adj. Arising or occurring within a species: intraspecific competition. Adj. 1. diversity limits the use of genetic fingerprinting techniques that are based on sequence diversity in selected genetic elements. For M. tuberculosis M. tuberculosis, n the bacterium responsible for tuberculosis, generally a respiratory infection in man; nonrespiratory tuberculosis is considered an indicator disease for AIDS. See also tuberculosis. , M. bovis, and the various bacillus Calmette-Guerin bacillus Cal·mette-Gué·rin n. Abbr. BCG An attenuated strain of tubercle bacillus grown in repeated cultures on medium containing bile and used in tuberculosis vaccines. Also called bacille Calmette-Guérin. daughter strains, genome-wide microarray analyses have identified large sequence polymorphisms (4,8-10). However, the complete genome sequence of an organism is required for the design of synthetic oligonucleotide or PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) product-based microarrays. When this information is not available, an alternative is a PCR product-based shotgun DNA microarray (11), which we developed further into a plasmid-based microarray. We used this method for the differential genomic analysis of M. ulcerans, a human pathogen for which the fully assembled and annotated genome sequence was not available at the time of the study. M. ulcerans is the causative agent of Buruli ulcer, an infectious disease Infectious disease A pathological condition spread among biological species. Infectious diseases, although varied in their effects, are always associated with viruses, bacteria, fungi, protozoa, multicellular parasites and aberrant proteins known as prions. characterized by chronic necrotizing necrotizing /nec·ro·tiz·ing/ (nek´ro-tiz?ing) causing necrosis. Necrotizing Causing the death of a specific area of tissue. Human bites frequently cause necrotizing infections. skin ulcers (12). Buruli ulcer is an emerging infectious disease An emerging infectious disease (EID) is an infectious disease whose incidence has increased in the past 20 years and threatens to increase in the near future. EIDs include diseases caused by a newly identified microorganism or newly identified strain of a known microorganism (e.g. found mostly in West African countries but also in tropical and subtropical sub·trop·i·cal adj. Of, relating to, or being the geographic areas adjacent to the Tropics. subtropical Adjective of the region lying between the tropics and temperate lands regions of Asia, the Western Pacific, and Latin America (13). Genetic analyses suggest recent divergence of M. ulcerans from M. marinum, a well-known fish pathogen that can cause limited granulomatous granulomatous /gran·u·lom·a·tous/ (-lom´ah-tus) containing granulomas. Granulomatous Resembling a tumor made of granular material. skin infections in humans (14). One of the hallmarks of the emergence of M. ulcerans as a more severe pathogen is the acquisition of a 174-kb plasmid that bears a cluster of genes necessary for the synthesis of the polyketide toxin mycolactone. This toxin appears largely responsible for the massive tissue destruction seen in Buruli ulcer (15). The epidemiology and mode of transmission of M. ulcerans disease are not fully understood, partly because no molecular typing method with sufficiently high resolution for microepidemiologic analyses is available. Standard molecular typing methods such as multilocus sequence typing Multilocus sequence typing (MLST) is a technique in molecular biology for the typing of multiple loci. The procedure characterizes isolates of bacterial species using the DNA sequences of internal fragments of multiple (usually seven) housekeeping genes. , restriction fragment length polymorphism restriction fragment length polymorphism n. Abbr. RFLP Intraspecies variations in the length of DNA fragments generated by the action of restriction enzymes and caused by mutations that alter the sites at which these enzymes act, changing , and fingerprinting using variable number of tandem repeats have shown an apparent lack of genetic diversity of M. ulcerans within individual geographic regions, which is indicative of a clonal population structure. The genotyping technique that has shown the highest discriminatory power so far is based on the use of outward-directed primers specific for the insertion sequence (IS) IS2404, in combination with an oligonucleotide that targets a repeated GC-rich motif (16). Application of this method determined the resolution of 10 different M. ulcerans genotypes, which correspond to the geographic origin of the isolates. However, this level of resolution is not sufficient for microepidemiologic analyses. We hypothesized that, as for M. tuberculosis (17), deletional and insertional events mediated by repetitive sequence elements are a major mechanism for genomic variation in M. ulcerans. To test this hypothesis, we developed a plasmid-based microarray and analyzed genomic DNA from 30 M. ulcerans isolates of diverse origins. Materials and Methods Plasmid-Based DNA Microarray From a shotgun clone library of strain Agy99, 352 Escherichia coli Escherichia coli (ĕsh'ərĭk`ēə kō`lī), common bacterium that normally inhabits the intestinal tracts of humans and animals, but can cause infection in other parts of the body, especially the urinary tract. plasmids (pCDNA2.1, Invitrogen, Basel, Switzerland) were randomly selected. Each plasmid contained an M. ulcerans DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. fragment of [approximately equal to] 2.3-2.7 kb. Given a genome size of 5,806 kb (18), this set of plasmid inserts represents a theoretical genome coverage of [approximately equal to] 10%. Plasmid DNA was prepared by using a Biomek 2000 Workstation (Beckman Coulter, Krefeld, Germany) and dissolved at a concentration of 150 ng/[micro]L in 3x SSC SSC Secondary School Certificate SSC Standard Systems Center (USAF) SSC State Services Commission (New Zealand) SSC Swedish Space Corporation SSC Salem State College (Massachusetts) (20x SSC stock solution is 3 M sodium chloride sodium chloride, NaCl, common salt. Properties Sodium chloride is readily soluble in water and insoluble or only slightly soluble in most other liquids. It forms small, transparent, colorless to white cubic crystals. , 0.2 M sodium citrate, pH 7.0). The DNA samples were loaded on a piezo-dispensing head that contained 24 channels and spotted onto glass slides coated with poly-L-lysine (Superfrost Plus, Menzel, Braunschweig, Germany) by using a Topspot spotter (Biofluidix, Freiburg, Germany). Slides were incubated at 4[degrees]C overnight and rehydrated under 50%-60% humidity for 1 h at room temperature. The spots resulting from a volume of [approximately equal to] 1 nL had an average diameter of 270 [micro]m and were 500 [micro]m apart from each other. The microarray layout displayed 2 identical fields--for hybridization hybridization /hy·brid·iza·tion/ (hi?brid-i-za´shun) 1. crossbreeding; the act or process of producing hybrids. 2. molecular hybridization 3. with 2 different probes--that consisted of 2 replicates each, both of which contained 32 controls and 352 plasmids. Biotinylation of M. ulcerans Genomic DNA Fragments M. ulcerans clinical isolates used in this study are listed in Figure 1. Bacterial pellets of about 60 mg (wet weight) were heat inactivated inactivated rendered inactive; the activity is destroyed. inactivated viruses treated so that they are no longer able to produce evidence of growth or damaging effect on tissue. for 1 h at 95[degrees]C in 500 [micro]L extraction buffer (50 mmol/L Tris-HCl, 25 mmol/L EDTA EDTA: see chelating agents. , 5% monosodium glutamate monosodium glutamate: see glutamic acid. monosodium glutamate (MSG) White crystalline substance, a sodium salt of the amino acid glutamic acid. MSG is used to intensify the natural flavour of meats and vegetables. ) and sequentially treated with lysozyme lysozyme: see immunity. Lysozyme An enyme that was first identified and named by Alexander Fleming, who recognized its bacteriolytic properties. (2 h, 37[degrees]C, 17 M lysozyme) and proteinase proteinase /pro·tein·ase/ (pro´ten-as?) endopeptidase. pro·tein·ase n. A protease that begins the hydrolytic breakdown of proteins usually by splitting them into polypeptide chains. K (overnight, 45[degrees]C, 0.3 M proteinase K in proteinase K buffer: 1 mmol/L Tris-HCl, 5 mmol/L EDTA, 0.05% sodium dodecyl sulfate Sodium dodecyl sulfate (or sulphate) (SDS or NaDS) (C12H25NaO4S),is an anionic surfactant that is used in household products such as toothpastes, shampoos, shaving foams and bubble baths for its thickening effect and its ability to [SDS 1. (company) SDS - Scientific Data Systems. 2. (tool) SDS - Schema Definition Set. ], pH 7.8). After digestion the samples were subjected to bead beater beat·er n. 1. One that beats, especially a device for beating: a carpet beater. 2. A person who drives wild game from under cover for a hunter. treatment (Mikro-Dismembrator, Braun Biotech International, Berlin, Germany) with 300 [micro]L of 0.1-mm zirconia beads (BioSpec Products, Bartlesville, OK, USA) for 7 min at 3,000 rpm. DNA was extracted from the supernatants by phenol-chloroform (Fluka, Buchs, Switzerland) extraction and ethanol precipitation. Seven micrograms of M. ulcerans genomic DNA was digested with 3 U of Sau3A1 (New England Biolabs New England Biolabs (NEB) produces and supplies reagents for the life science industry. NEB offers a large selection of recombinant and native enzymes for genomic research. It also offers products in the areas related to proteomics and drug discovery. , Hitchin, UK) for 2 h at 37[degrees]C and biotinylated according to Pollack et al. (19) using a BioPrime kit (Gibco/BRL, Gaithersburg, MD, USA). The biotinylated DNA was purified by using a Microcone YM30 filter (Amicon/Millipore, Bedford, MA, USA), and its concentration was measured by optical density at 260 nm (GeneQuant spectrophotometer spectrophotometer, instrument for measuring and comparing the intensities of common spectral lines in the spectra of two different sources of light. See photometry; spectroscope; spectrum. , Cambridge, UK). [FIGURE 1 OMITTED] Hybridization of Microarray Slides Five micrograms of biotinylated DNA was mixed with 30 [micro]g human Cot-1 DNA (Roche Applied Science, Indianapolis, IN, USA) and 100 [micro]g yeast tRNA (Gibco/BRL). The hybridization mix was concentrated with a Speed Vac Concentrator System (Eppendorf, Basel, Switzerland), resolved in 3x SSC, 0.3% SDS, denatured de·na·ture tr.v. de·na·tured, de·na·tur·ing, de·na·tures 1. To change the nature or natural qualities of. 2. for 3 min at 95[degrees]C, and incubated for 30 min at 37[degrees]C before hybridization. Microarray slides were cleaned with a nitrogen flow, exposed to UV light in a Stratalinker 2400 (Stratagene, La Jolla, CA, USA) at 650x 100 [micro]J, and heated for 5 min to 95[degrees]C before application of 13 [micro]L of the hybridization mix on each array field. Hybridization occurred for 20 h at 65[degrees]C in a hydration hydration /hy·dra·tion/ (hi-dra´shun) the absorption of or combination with water. hy·dra·tion n. 1. The addition of water to a chemical molecule without hydrolysis. 2. chamber. Hybridized slides were washed once with 2x SSC, 0.03% SDS for 5 min at 65[degrees]C, twice with 1x SSC for 5 min at room temperature, and finally with 0.2x SSC for 5 min at room temperature. The coloration step was performed with 2 mL staining solution containing 50% caseine, 1 x maleic acid maleic acid (məlē`ĭk): see fumaric acid. buffer (Roche Applied Science), and 2 [micro]g Streptavidin Cy3 Fluorolink (Amersham, Piscataway, NJ, USA) for 30 min at room temperature, followed by additional washings for 5 min with lx TBS (0.15 M sodium chloride, 0.02 M Tris, pH 7.5) as well as 0.1 x TBS and drying with a nitrogen flow. DNA of all 30 M. ulcerans strains was processed under identical conditions and hybridized at least twice, which yielded 4 sets of data for each strain. Human Cot-1 DNA and plasmid DNA without insert as well as a hybridization mix without DNA served as negative controls for hybridization. A 500-bp [beta]-lactamase gene fragment and Cy3-1abeled random oligonucleotides (Microsynth, Balgach, Switzerland) were used as positive controls and for estimation of the amount of spotted DNA. Microarray Scanning and Data Evaluation Images of the microarrays were acquired by using a laser microarray scanner (GenePix 4100A, Axon axon: see nervous system; synapse. Instruments Inc., Foster City, CA, USA) with an excitation wave excitation wave n. An electrical wave that propagates along a muscle fiber just before its contraction. length of 532 nm, an emission wavelength of 570 nm, and standardized measurement parameters. The resulting image was analyzed by the software GenePix Pro 4.1 (Axon Instruments Inc.), which enabled assignments of mean intensity values used for data interpretation. To select spots to be included in the analysis of genomic diversity of M. ulcerans strains, replicates of 10 hybridizations were performed by using M. ulcerans Agy99 genomic DNA. All spots that showed a signal lower than twice that given by the negative control plasmid without insert were rejected, as were all spots for which coefficient of variation Coefficient of Variation A measure of investment risk that defines risk as the standard deviation per unit of expected return. was >30%. Further analysis used 232 spots that had an average signal above the threshold and sufficient signal stability. For each plasmid, we calculated the average signal value, standard deviation, and coefficient of variation and assessed a signal ratio in comparison with the reference strain. Outlier outlier /out·li·er/ (out´li-er) an observation so distant from the central mass of the data that it noticeably influences results. outlier an extremely high or low value lying beyond the range of the bulk of the data. spots with a ratio higher than U2 (U2 = upper quartile Quartile A statistical term describing a division of observations into four defined intervals based upon the values of the data and how they compare to the entire set of observations. Notes: Each quartile contains 25% of the total observations. + 3 x interquartile) were identified through a box-plot analysis. Characterization of Large Sequence Polymorphisms Microarray data that indicated the presence of a deletion were verified by PCR analysis, which used primer pairs that spanned the insertion sequences of the respective plasmids, the flanking regions, or both. The 5' and 3' limits of the confirmed genomic deletions with respect to the genome of strain Agy99 were determined by PCR analysis, which used multiple sets of primers complementary to flanking genomic regions. PCR analyses that bridged the genomic breakpoints were performed by using a long-range PCR polymerase mix (Fermentas, St Leon-Rot, Germany) according to the manufacturer's description. PCR products were cloned into pGEM-T (Catalys AG, Promega, Wallisellen, Switzerland) and sequenced using an ABI Abi (ā`bī) [short for Abijah], in the Bible, King Hezekiah's mother. (Application Binary Interface) A specification for a specific hardware platform combined with the operating system. PRISM 310 genetic sequence analyzer (Perkin-Elmer, Waltham, MA, USA). Results Comparative Genomic Hybridization of M. ulcerans Isolates We constructed a microarray based on a random selection of 232 Escherichia coli plasmids obtained from a shotgun sequence library of the M. ulcerans isolate Agy99 from Ghana. Genomic DNA hybridization signal intensities from 30 M. ulcerans clinical isolates of worldwide distribution (Figure 2) were compared with those obtained with strain Agy99. Box-plot analysis (Figure 3) identified plasmids that yielded outlier signals with respect to strain Agy99. For 19 of 20 plasmids, PCR analysis confirmed an association of the outlier signal with a genomic deletion. Only 1 low hybridization signal represented a false-positive result (p 188 from strain 940511, Cote d'Ivoire; Figure 3). The number of confirmed outlier plasmids per isolate ranged from zero for most African isolates to 9 for isolates from Suriname and French Guiana (Figure 1). [FIGURES 2-3 OMITTED] Of the 19 plasmid inserts that yielded confirmed outlier signals, 3 (pl 11, p299, and p341) contained sequences from the virulence plasmid pMUM001 of M. ulcerans. Of the 16 plasmids derived from the M. ulcerans chromosome, some contained fragments that overlapped the same region (Figure 4). Hybridizing regions were almost identical for p60 and p61. Both plasmids yielded outlier values with the isolates from Suriname and French Guiana. A cluster of overlapping inserts was observed for p88, p153, and p360; these produced outlier values for both of the Mexican isolates. The same pattern was seen with p124 and p291, which have inserts that are located in close proximity to each other in the genome (Figure 3). These results from related inserts demonstrated the reproducibility of the differential hybridization analysis. Because the inserts p60-p61, p88-p153-p360, and p124-p291 were part of the same deletion in regions of difference (RDs) 4, 5, and 8, respectively; (Figure 4), altogether 12 chromosomal RDs were identified. [FIGURE 4 OMITTED] Characterization of Genomic RDs The 5' and 3' limits of the genomic deletions with respect to the genome of strain Agy99 were determined by PCR analysis that used multiple sets of primers complementary to plasmid inserts and to flanking genomic regions. The size of the deletions ranged from 1.8 kb to 53.1 kb (Table). In 3 of the 12 RDs (RD3, 9, and 12), 2 distinct types of overlapping deletions (designated A and B) were observed, leading to a total of 15 large deletions. The overlapping deletions shared neither common 5' nor 3' end sequences. The strains from Australia had a 3.5-kb deletion in RD3; strains from Suriname and French Guiana had a slightly larger (3.8-kb) deletion. The isolates from Suriname and French Guiana had a larger (25.4-kb) deletion in RD9 than the isolates from Japan and China (17.7 kb). The largest deletion (53.1 kb) was designated RD 12A and was observed in strains from Japan and China. Isolates from Suriname and French Guiana had a significantly smaller deletion in RD12 (35.2 kb). The 19.7-kb deletion 6 was found in isolates from 2 different regions (Mexico and Japan/China, respectively). All other deletions were observed in 2 isolates from the same region (Table). To assess whether polymorphisms undetected by the microarray analysis would frequently occur in the identified RDs, we performed a detailed PCR analysis in all 30 M. ulcerans strains included in this study for 2 randomly selected RDs (RD5 and 12). We used 4 distinct primer pairs to span the insert sequence plus 5' and 3' flanking sequence stretches. For RD12, the PCR analysis confirmed the presence of a deletion in the 4 strains that had outlier signals in the microarray analysis, but no evidence for deletional polymorphism was obtained in the other strains. For RD5, PCR analysis confirmed the presence of a deletion in the 2 Mexican strains that had outlier signals (not shown). In addition, this PCR analysis identified the presence of an insertion in strains from Japan, China, Suriname, and French Guiana. The sequence of this 765-bp DNA insert was identical for all 4 strains. Its G+C content was 64%, and BLAST searches showed 98% identity with a sequence stretch of the M. marinum genome (www.sanger.ac.uk/cgi-bin/blast/submitblast/m_marinum) but no significant homology with sequences in the National Center for Biotechnology Information The National Center for Biotechnology Information (NCBI) is part of the United States National Library of Medicine (NLM), a branch of the National Institutes of Health. The NCBI is located in Bethesda, Maryland and was founded in 1988. BLAST databases (www.ncbi.nlm.nih.gov/blast). Association of Deletions with Insertions Of the 15 identified genome rearrangement events, 1 (deletion 3A observed in 2 Australian isolates) was found to be a deletion, with the genomic sequences flanking the 5' and 3' borders of the 3,451-bp deletion being directly joined (Figure 5). Analysis of the other 14 deletions showed that the loss of DNA in a given strain with respect to the genome of Agy99 was associated with the insertion of substituting sequences of varying sizes unrelated to the deleted regions. As an example, the larger (3,784-bp) deletion 3B found in the isolates from Suriname and French Guiana was associated with the insertion of an unrelated DNA fragment, which comprised the 1,368 bp of IS2404 (20) plus an additional DNA stretch of 163 bp (Figure 5). For most of the other deletions, 1 of the 2 highly abundant insertion sequence elements (IS2404 or IS2606) was situated in either the genomic sequences that flanked the deletion or that were in the deleted parts or in the substituting sequence stretches (as for deletion 3B). [FIGURE 5 OMITTED] Analysis of Coding Sequences and Pseudogenes in the Deleted DNA Sequences The 15 deletions identified contained 52 pseudogenes and 185 predicted protein-coding sequences (CDSs), which represent 5.7% of the annotated 4,143 CDSs in the genome of the M. ulcerans strain Agy99 (18). The number of deleted CDSs and pseudogenes ranged from 2 (RD4) to 50 (RD8 and 12A) and averaged 18.6 per deletion (Table). CDSs were classified into 11 functional categories (17). When compared with the gene composition of the entire Agy99 genome, the following functional categories were overrepresented o·ver·rep·re·sent·ed adj. Represented in excessive or disproportionately large numbers: "Some groups, and most notably some races, may be overrepresented and others may be underrepresented" among the 185 deleted CDSs: insertion sequences, unique hypothetical genes, and predicted proteins involved in detoxification Detoxification Definition Detoxification is one of the more widely used treatments and concepts in alternative medicine. It is based on the principle that illnesses can be caused by the accumulation of toxic substances (toxins) in the body. (Figure 6). Also overrepresented was the deletion of the 52 pseudogenes that contain frame shift mutations and premature stop codons or that are disrupted by an insertion sequence. In contrast, genes involved in intermediary metabolism, information pathways, and cell wall/cell processes were underrepresented un·der·rep·re·sent·ed adj. Insufficiently or inadequately represented: the underrepresented minority groups, ignored by the government. among the deleted CDSs (Figure 6). Of the 185 deleted functional CDSs, 89 had orthologs with >50% amino acid sequence identity to proteins from the M. tuberculosis H37Rv genome. A tendency for gene categories to cluster within the RDs was found. RD2 comprises 2 PPE PPE (Brit) n abbr (Univ) (= philosophy, politics, and economics) → Studiengang bestehend aus Philosophie, Politologie und Volkswirtschaft PPE n abbr (BRIT ) (SCOL genes: RDs 1, 12A, and 12B are predominantly CDSs involved in lipid metabolism, and RDs 9A and 11 include mainly transcriptional regulators. However, overall M. ulcerans lineages from distinct geographic origin (Africa, Australia, Asia, South America, Mexico) did not differ markedly in the categories of deleted genes. RD8 (deleted in the Mexican strains) is particularly interesting because it contains a cluster of proteins of the mammalian cell entry mce3 operon and associated regulators thereof. The transcriptional repressor repressor: see nucleic acid. , Mce3R, is considered to be an essential gene required for growth of M. tuberculosis (21). In addition, RD8 comprises a collection of CDSs of almost every functional category (online Appendix Table, available from www.cdc. gov/EID/content/13/7/1008-appT.htm). The spectrum of RD8-associated CDSs involved in detoxification included the multidrug transport protein mmr, the epoxide hydrolase EphB, the thiol thiol: see mercaptan. peroxidase peroxidase /per·ox·i·dase/ (per-ok´si-das) any of a group of iron-porphyrin enzymes that catalyze the oxidation of some organic substrates in the presence of hydrogen peroxide. per·ox·i·dase n. Tpx, and the alkyl alkyl /al·kyl/ (al´k'l) the monovalent radical formed when an aliphatic hydrocarbon loses one hydrogen atom. al·kyl n. hydroperoxide reductase reductase /re·duc·tase/ (-tas) a term used in the names of some of the oxidoreductases, usually specifically those catalyzing reactions important solely for reduction of a metabolite. C protein AhpC. [FIGURE 6 OMITTED] Although CDSs involved in intermediary metabolism were underrepresented among the deleted genes, 21 (42%) of deleted CDSs of this category were dehydrogenases (such as acyl-CoA short-chain alcohol, saccharopine, and aldehyde dehydrogenases), which are central enzymes in anaerobic anaerobic /an·aer·o·bic/ (an?ah-ro´bik) 1. lacking molecular oxygen. 2. growing, living, or occurring in the absence of molecular oxygen; pertaining to an anaerobe. metabolism (22) and important for survival in poorly oxygenated environments such as soil (23). In addition, other genes associated with anaerobic respiration, such as nitroreductases and electron transfer proteins, were found among the deleted CDSs. Discussion We describe the use of a plasmid-based DNA microarray for identifying large deletional and insertional genomic polymorphisms in a collection of 30 M. ulcerans strains of geographically diverse origin. A set of plasmids randomly selected from an E. coli shotgun library of M. ulcerans genomic DNA was spotted on microarray slides. This is a newly developed technology, highly suitable for situations in which the complete genome sequence of a microorganism microorganism /mi·cro·or·gan·ism/ (-or´gah-nizm) a microscopic organism; those of medical interest include bacteria, fungi, and protozoa. is not available. The prototype array used comprised 232 plasmids that yielded a reproducible and stable signal. Plasmids contained M. ulcerans genomic DNA fragments of 2.3-2.7 kb, thus reaching a theoretical genome coverage of 10%. Despite this incomplete coverage, 12 chromosomal and 3 virulence plasmid-associated RDs were identified. Fifteen distinct deletions of 1.8-53.1 kb were found and characterized in detail by sequence analysis within the 12 genomic RDs. The deletions identified were found in >1 M. ulcerans isolate, which demonstrates that they do not reflect events that occur during in vitro cultivation of individual isolates. The diversity of deletions within some genomic regions implies recombination recombination, process of "shuffling" of genes by which new combinations can be generated. In recombination through sexual reproduction, the offspring's complete set of genes differs from that of either parent, being rather a combination of genes from both parents. hot spots or a selective advantage for loss of particular sequence stretches. Recombination events between adjacent copies of IS6110 in M. tuberculosis and IS100 in Yersinia pestis have been shown to promote the deletion of intervening DNA segments (9,23-26). Close association of RDs with the high copy number elements IS2404 and IS2606 of M. ulcerans indicates that these are involved in insertional and deletional events. Although genome coverage with the prototype microarray used here was low, several geographic types of M. ulcerans could be differentiated. The largest group comprised all the African isolates (from Ghana, Benin, Cote d'Ivoire, Democratic Republic of Congo, Angola, and Togo), the isolates from Papua New Guinea Papua New Guinea (păp`  ə, –y , and some of the
Australian isolates. A second group comprised the Australian strains
5142 and 5147, and a third group included the South American strains
(from Suriname and French Guiana). The Mexican isolates represented a
fourth; the Asian isolates (from Japan and China), a fifth subgroup. An
extended analysis of insertions and deletions is expected to eventually
give insight into the phylogenetic phy·lo·ge·net·icadj. 1. Of or relating to phylogeny or phylogenetics. 2. Relating to or based on evolutionary development or history. relationship between M. marinum and different lineages of M. ulcerans. Moreover, the use of a microarray that covers the whole genome may lead to the development of a genomic fingerprinting method, which is urgently needed for microepidemiologic studies that aim to characterize transmission pathways and environmental reservoirs of M. ulcerans. The 15 distinct genomic deletions that we identified affected 6.2% of the M. ulcerans Agy99 genome, or 5.7% of the annotated CDSs and pseudogenes. When a whole-genome microarray was used to compare genomic DNA of 100 M. tuberculosis isolates, 5.5% of the genes were found to be affected (2 7). When one considers the limited genome coverage of the M. ulcerans prototype array used here, findings demonstrate a remarkably high degree of insertional and deletional diversity in M. ulcerans. In contrast, single nucleotide polymorphisms are rare (14). Comparative genomic studies have shown that M. ulcerans recently evolved from the ubiquitous, fast-growing environmental bacterium M. marinum (www.sanger. ac.uk/projects/m_marinum) by lateral gene transfer and reductive re·duc·tive adj. 1. Of or relating to reduction. 2. Relating to, being an instance of, or exhibiting reductionism. 3. Relating to or being an instance of reductivism. evolution (18). Our comparative genomic hybridization analysis of a worldwide collection of M. ulcerans strains indicates that the downsizing (1) Converting mainframe and mini-based systems to client/server LANs. (2) To reduce equipment and associated costs by switching to a less-expensive system. (jargon) downsizing of the genome from 6.6 Mb (M. marinum) to 5.8 Mb (M. ulcerans Agy99) is an ongoing process. Further genome reduction appears to be driving genetic diversification of M. ulcerans. Studies of other groups of microorganisms indicate that genome reduction is usually associated with adaptation to a more stable environment. An example is M. leprae, which has eliminated >2,000 genes upon adaptation to its human host (28). To which ecologic niche(s) in the environment or in host organisms M. ulcerans is adapting remains to be investigated. Among the deleted CDSs are 11 members of the mammalian cell entry mce3 operon, which are regarded as virulence determinants in other mycobacteria. In M. tuberculosis the mce operons have been shown to code for genes important for entry and survival of the pathogen in mammalian cells (29,30). The 4 mce operons of M. tuberculosis have homologs among other mycobacteria. In particular, the mce3 operon has been found in M. avium and M. smegmatis; its deletion in M. bovis has been also documented (31). The 12.7-kb region that codes for the mce3 operon is located near the 3' end of the RD2 element (32) that is present in M. bovis but absent in some strains of M. bovis BCG BCG bacille Calmette-Guérin. BCG abbr. 1. bacillus Calmette-Guérin 2. ballistocardiogram BCG, n.pr See bacille Calmette-Guórin. , which suggests the potential instability of this region. A mouse model of intradermal intradermal /in·tra·der·mal/ (-der´mal) 1. within the dermis. 2. intracutaneous. in·tra·der·mal adj. Within or between the layers of the skin. infection has recently shown that M. ulcerans is initially captured by phagocytes (33). In vitro studies suggest that the M. ulcerans intracellular stage is transient because phagocytic cells enter apoptosis-mediated cell death within 1 day. It will be interesting to investigate whether the mce3 operon plays a role during the transient invasion of host cells by M. ulcerans. Overrepresentation of proteins involved in detoxification processes among the deleted CDSs indicates adaptation to a more stable environment. Deletion of many dehydrogenases thought to be involved in anaerobic respiration and of anaerobic respiratory enzymes and tranporters may give a hint that this niche is not anaerobic. At least in highly disease-endemic areas, M. ulcerans' long-term persistence in chronic wounds and shedding into the environment may be relevant for the propagation of this species. Whether M. ulcerans is primarily adapting to persist in a specialized environmental habitat, in arthropod arthropod Any member of the largest phylum, Arthropoda, in the animal kingdom. Arthropoda consists of more than one million known invertebrate species in four subphyla: Uniramia (five classes, including insects), Chelicerata (three classes, including arachnids and horseshoe hosts (34), or in chronic wounds of mammalian hosts remains to be determined. Acknowledgments We thank Adriana Ille for her technical assistance and Laura Gosoniu for her help in the statistical analysis, and we acknowledge the use of the BuruList web server (http://genopole.pasteur. fr/mulc/burulist.html) and M. marinum Blast server (www.sanger. ac.uk/cgi-bin/blast/submitblast/m_marinum). This work was financed in part by the Stanley-Thomas-Johnson Foundation. M.K. was supported by a fellowship of the Deutsche Forschungsgemeinschaft (grant no. KA 1842/1-1). References (1.) Hinchliffe S J, Isherwood KE, Stabler RA, Prentice MB, Rakin A, Nichols RA, et al. Application ofDNA microarrays to study the evolutionary genomics of Yersiniapestis and Yersinia pseudotuberculosis. Genome Res. 2003;13:2018-29. (2.) Perna NT, Plunkett G III, Burland V, Mau B, Glasner JD, Rose DJ, et al. Genome sequence of enterohaemorrhagic Escherichia coli 0157: H7. Nature. 2001;409:529-33. (3.) Kuroda M, Ohta T, Uchiyama I, Baba T, Yuzawa H, Kobayashi I, et al. Whole genome sequencing of meticillin-resistant Staphylococcus aureus. Lancet. 2001;357:1225-40. (4.) Behr MA, Wilson MA, Gill WP, Salamon H, Schoolnik GK, Rane S, et al. Comparative genomics of BCG vaccines by whole-genome DNA microarray. Science. 1999;284:1520-3. (5.) Colwell RR. Infectious disease and environment: cholera as a paradigm for waterborne disease. Int Microbiol. 2004;7:285-9. (6.) Hausdorff WP, Feikin DR, Klugman KP. Epidemiological differences among pneumococcal pneumococcal /pneu·mo·coc·cal/ (-kok´al) pertaining to or caused by pneumococci. serotypes. Lancet Infect Dis. 2005;5: 83 93. (7.) Perez-Perez GI, Rothenbacher D, Brenner H. Epidemiology of Helicobaeter pylori infection. Helicobacter. 2004;9(Suppl 1): 1-6. (8.) Cole ST. Comparative and functional genomics of the Mycobacterium tuberculosis complex. Microbiology. 2002; 148:2919-28. (9.) Fleischmann RD, Alland D, Eisen JA, Carpenter L, White O, Peterson J, et al. Whole-genome comparison of Mycobacterium tuberculosis clinical and laboratory strains. J Bacteriol. 2002; 184:5479-90. (10.) Gordon SV, Brosch R, Billault A, Gamier T, Eiglmeier K, Cole ST. Identification of variable regions in the genomes of tubercle tubercle (t `bərkyl') [Lat.,=little swelling], small, usually solid, nodule or prominence. bacilli bacilli /ba·cil·li/ (bah-sil´i) plural of bacillus. bacilli see bacillus. using bacterial artificial chromosome A bacterial artificial chromosome (BAC) is a DNA construct, based on a fertility plasmid (or F-plasmid), used for transforming and cloning in bacteria, usually E. coli. arrays. Mol Microbiol. 1999;32:643-55. (11.) Rathod PK, Ganesan K, Hayward RE, Bozdech Z, DeRisi JL. DNA microarrays for malaria. Trends Parasitol. 2002; 18:39-45. (12.) Asiedu K, Scherpbier R, Raviglione M. Buruli ulcer. Mycobacterium ulcerans infection. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. : World Health Organization, Global Buruli Ulcer Initiative; 2000. (13.) Johnson PD, Stinear T, Small PL, Pluschke G, Merritt RW, Portaels F, et al. Buruli ulcer (M. ulcerans infection): new insights, new hope for disease control. PLoS Med. 2005;2:e108. Erratum [Latin, Error.] The term used in the Latin formula for the assignment of mistakes made in a case. After reviewing a case, if a judge decides that there was no error, he or she indicates so by replying, "In nollo est erratum in PLoS Med. 2005;2:e173. (14.) Stinear TP, Jenkin GA, Johnson PD, Davies JK. Comparative genetic analysis of Mycobacterium ulcerans and Mycobacterium marinum reveals evidence of recent divergence. J Bacteriol. 2000;182: 6322-30. (15.) Stinear TP, Mve-Obiang A, Small PL, Frigui W, Pryor MJ, Brosch R, et al. Giant plasmid-encoded polyketide synthases produce the macrolide toxin of Mycobacterium ulcerans. Proc Natl Acad Sci U S A. 2004;101:1345-9. (16.) Ablordey A, Kotlowski R, Swings J, Portaels F. PCR amplification with primers based on IS2404 and GC-rich repeated sequence reveals polymorphism in Mycobacterium ulcerans. J Clin Microbiol. 2005;43:448-51. (17.) Brosch R, Pym AS, Gordon SV, Cole ST. The evolution of mycobacterial mycobacterial emanating from or pertaining to mycobacterium. mycobacterial granuloma may be caused by Mycobacterium tuberculosis (see cutaneous tuberculosis), M. pathogenicity: clues from comparative genomics. Trends Microbiol. 2001;9:452-8. (18.) Stinear TP, Seemann T, Pidot S, Frigui W, Reysset G, Gamier T, et al. Reductive evolution and niche adaptation inferred from the genome of Mycobacterium ulcerans, the causative agent of Buruli ulcer. Genome Res. 2007; 17:192-200. Epub 2007 Jan 8. (19.) Pollack JR, Perou CM, Alizadeh AA, Eisen MB, Pergamenschikov A, Williams CF, et al. Genome-wide analysis of DNA copy-number changes using cDNA microarrays. Nat Genet genet: see civet. . 1999;23:41-6. (20.) Stinear TP, Pryor MJ, Porter JL, Cole ST. Functional analysis and annotation of the virulence plasmid pMUM001 from Mycobacterium ulcerans. Microbiology. 2005; 151:683-92. (21.) Sassetti CM, Boyd DH, Rubin EJ. Genes required for mycobacterial growth defined by high density mutagenesis mutagenesis /mu·ta·gen·e·sis/ (mu?tah-jen´e-sis) 1. the production of change. 2. the induction of genetic mutation. mu·ta·gen·e·sis n. pl. . Mol Microbiol. 2003;48:77-84. (22.) Murugasu-Oei B, Tay A, Dick T. Upregulation of stress response genes and ABC ABC in full American Broadcasting Co. Major U.S. television network. It began when the expanding national radio network NBC split into the separate Red and Blue networks in 1928. transporters in anaerobic stationary-phase Mycobacterium smegmatis. Mol Gen Genet. 1999;262:677-82. (23.) Kato-Maeda M, Rhee JT, Gingeras TR, Salamon H, Drenkow J, Smittipat N, et al. Comparing genomes within the species Mycobacterium tuberculosis. Genome Res. 2001;11:547-54. (24.) Brosch R, Gordon SV, Pym A, Eiglmeier K, Gamier T, Cole ST. Comparative genomics of the mycobacteria. Int J Med Microbiol. 2000;290:143-52. (25.) Deng W, Burland V, Plunkett G III, Boutin A, Mayhew GF, Liss P, et al. Genome sequence of Yersinia pestis KIM. J Baeteriol. 2002; 184:4601-11. (26.) Ho TB, Robertson BD, Taylor GM, Shaw RJ, Young DB. Comparison of Mycobacterium tuberculosis genomes reveals frequent deletions in a 20 kb variable region in clinical isolates. Yeast. 2000;17:272 82. (27.) Tsolaki AG, Hirsh AE, DeRiemer K, Enciso JA, Wong MZ, Hannan M, et al. Functional and evolutionary genomics of Mycobacterium tuberculosis: insights from genomic deletions in 100 strains. Proc Natl Acad Sci U S A. 2004;101:4865-70. (28.) Cole ST, Eiglmeier K, Parkhill J, James KD, Thomson NR, Wheeler PR, et al. Massive gene decay in the leprosy bacillus. Nature. 2001;409:1007-11. (29.) Armda S, Bomfim G, Knights R, Huima-Byron T, Riley LW. Cloning of an M. tuberculosis DNA fragment associated with entry and survival inside cells. Science. 1993;261:1454-7. (30.) Cole ST, Brosch R, Parkhill J, Gamier T, Churcher C, Harris D, et al. Deciphering the biology of Mycobacterium tuberculosis from the complete genome sequence. Nature. 1998;393:537-44. (31.) Haile Y, Caugant DA, Bjune G, Wiker HG. Myeobacterium tuberculosis mammalian cell entry operon (mce) homologs in mycobacterium mycobacterium Any of the rod-shaped bacteria that make up the genus Mycobacterium. The two most important species cause tuberculosis and leprosy in humans; another species causes tuberculosis in both cattle and humans. other than tuberculosis (MOTT MOTT mycobacteria other than tuberculosis. MOTT Mycobacteria other than M tuberculosis An acronym for non-TB mycobacteria–eg, M avium-intracellulare complex, M chelonei, M kansasii, M malmoense, M xenopi ). FEMS Immunol Med Microbiol. 2002;33:125-32. (32.) Mahairas GG, Sabo PJ, Hickey MJ, Singh DC, Stover CK. Molecular analysis of genetic differences between Mycobacterium bovis BCG and virulent M. bovis. J Bacteriol. 1996;178:1274-82. (33.) Coutanceau E, Marsollier L, Brosch R, Perret E, Goossens P, Tanguy M, et al. Modulation of the host immune response by a transient intracellular stage of Mycobacterium ulcerans: the contribution of endogenous myeolactone toxin. Cell Microbiol. 2005;7:1187-96. (34.) Marsollier L, Robert R, Aubry J, Saint Andre JP, Kouakou H, Legras P, et al. Aquatic insects as a vector for Mycobacterium ulcerans. Appl Environ Microbiol. 2002;68:4623-8. Simona Rondini, * (1) Michael Kaser, * (1) Timothy Stinear, ([dagger]) (2) Michel Tessier, ([double dagger]) Cyrill Mangold, ([double dagger]) Gregor Dernick, ([double dagger]) Martin Naegeli, * Francoise Portaels, ([section]) Ulrich Certa, ([double dagger]) and Gerd Pluschke * * Swiss Tropical Institute The Swiss Tropical Institute (STI, also known as Institut Tropical Suisse and Schweizerisches Tropeninstitut) is an Associated Institute of the University of Basel. It was founded in 1943 by Professor Rudolf Geigy as a public organization, with support from the Swiss Federal , Basel, Switzerland; ([dagger]) Institut Pasteur, Paris, France; ([double dagger]) F. Hoffmann-La Roche Ltd., Basel, Switzerland; and ([section]) Institute of Tropical Medicine, Antwerp, Belgium (1) These authors contributed equally to this work. (2) Current affiliation: Monash University, Melbourne, Victoria, Australia Dr Rondini is a microbiologist at the Swiss Tropical Institute, Basel, Switzerland. Her interests focus on the molecular microbiology of M. ulcerans. Address for correspondence: Gerd Pluschke, Swiss Tropical Institute, Socinstr 57, CH 4002 Basel, Switzerland; email: gerd.pluschke@unibas.ch
Table. Features of the 15 distinct deletions identified in
Mycobacterium ulcerans isolates *
Deletion
RD no. Plasmid no. Origin
1 1 p8 SU/FG
2 2 p34 SU/FG
3 3A p58 AU1/AU2
3B p58 SU/FG
4 4 p60, p61 SU/FG
5 5 p88, p153, p360 ME1/ME2
6 6 p92 JP/CH/ME1/ME2
7 7 p100 SU/FG
8 8 p124, p291 ME1/ME2
9 9A p144 JP/CH
9B p144 SU/FG
10 10 p170 ME1/ME2
11 11 p305 JP/CH
12 12A p315 JP/CH
12B p315 SU/FG
Size of No. CDSs and
RD deletion, kb pseudogenes
1 11.10 14
2 6.6-6.8 4
3 3.50 5
3.80 6
4 1.8-2.4 2
5 27.1-27.4 23
6 19.70 24
7 15.30 13
8 52.8-53.1 50
9 18.10 15
25.40 20
10 8.2-8.7 10
11 4.60 7
12 53.10 50
35.4-35.5 32
* RD, region of difference; CDSs, coding sequences; SU, Suriname;
FG, French Guiana; AU, Australia; ME, Mexico; JP, Japan; CH, China.
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