Mycolic Acid Pattern Research Articles

Bioorthogonal Monomycolate of Trehalose Disclosed the O-Mycoloylation of Mycoloyltransferases and Other Cell Envelope Proteins in C. glutamicum.

Protein mycoloylation is a recently identified unusual post-translational modification (PTM) exclusively observed in Mycobacteriales, an order of bacteria that includes several human pathogens. These bacteria possess a distinctive outer membrane, known as the mycomembrane, composed of very long-chain fatty acids called mycolic acids. It has been demonstrated that a few mycomembrane proteins undergo covalent modification with mycolic acids in the model organism Corynebacterium glutamicum through the action of mycoloyltransferase MytC. This PTM represents the first example of protein O-acylation in prokaryotes and also the first example of protein modification by mycolic acid. Many questions about the specificity of protein O-mycoloylation remain crucial for understanding its evolutionary significance in Mycobacteriales and its role in cell physiology. We have developed the first bioorthogonal mycolate donor featuring the natural mycolic acid pattern, enabling direct, unambiguous transfer of the lipid moiety to its acceptors and efficient metabolic labeling and enrichment of MytC protein substrates. Mass spectrometry analysis of the labeled proteins and comparative proteomic analysis of the cell envelope proteome between wild-type and ΔmytC strains identified an unbiased list of 21 proteins likely mycoloylated in the cell. The robustness of our approach is demonstrated by the successful biological validation of mycoloylation in 6 candidate proteins within wild-type cells, revealing the characteristic profile of proteins modified with natural mycolates. These findings provide interesting insights into the significance of this new lipidation pathway and pave the way for understanding their function, especially concerning the mycoloyltransferase family that includes the essential Antigen85 enzymes in Mycobacteria.

First access to a mycolic acid-based bioorthogonal reporter for the study of the mycomembrane and mycoloyltransferases in Corynebacteria.

In this study, we report the first synthesis of an alkyne-based trehalose monomycolate probe containing a β-hydroxylated fatty acid and an α-branched chain similar to those of the natural mycolic acid. We demonstrate its utility for the labeling of the mycomembrane of Corynebacteria as well as for the study of mycoloyltransferases.

Trehalose Polyphleates, External Cell Wall Lipids in Mycobacterium abscessus, Are Associated with the Formation of Clumps with Cording Morphology, Which Have Been Associated with Virulence.

Mycobacterium abscessus is a reemerging pathogen that causes pulmonary diseases similar to tuberculosis, which is caused by Mycobacterium tuberculosis. When grown in agar medium, M. abscessus strains generate rough (R) or smooth colonies (S). R morphotypes are more virulent than S morphotypes. In searching for the virulence factors responsible for this difference, R morphotypes have been found to form large aggregates (clumps) that, after being phagocytozed, result in macrophage death. Furthermore, the aggregates released to the extracellular space by damaged macrophages grow, forming unphagocytosable structures that resemble cords. In contrast, bacilli of the S morphotype, which do not form aggregates, do not damage macrophages after phagocytosis and do not form cords. Cording has also been related to the virulence of M. tuberculosis. In this species, the presence of mycolic acids and surface-exposed cell wall lipids has been correlated with the formation of cords. The objective of this work was to study the roles of the surface-exposed cell wall lipids and mycolic acids in the formation of cords in M. abscessus. A comparative study of the pattern and structure of mycolic acids was performed on R (cording) and S (non-cording) morphotypes derived from the same parent strains, and no differences were observed between morphotypes. Furthermore, cords formed by R morphotypes were disrupted with petroleum ether (PE), and the extracted lipids were analyzed by thin layer chromatography, nuclear magnetic resonance spectroscopy and mass spectrometry. Substantial amounts of trehalose polyphleates (TPP) were recovered as major lipids from PE extracts, and images obtained by transmission electron microscopy suggested that these lipids are localized to the external surfaces of cords and R bacilli. The structure of M. abscessus TPP was revealed to be similar to those previously described in Mycobacterium smegmatis. Although the exact role of TPP is unknown, our results demonstrated that TPP are not toxic by themselves and have a function in the formation of clumps and cords in M. abscessus, thus playing an important role in the pathogenesis of this species.

Mycobacterium celeriflavum sp. nov., a rapidly growing scotochromogenic bacterium isolated from clinical specimens.

Six strains of a rapidly growing scotochromogenic mycobacterium were isolated from pulmonary specimens of independent patients. Biochemical and cultural tests were not suitable for their identification. The mycolic acid pattern analysed by HPLC was different from that of any other mycobacterium. Genotypic characterization, targeting seven housekeeping genes, revealed the presence of microheterogeneity in all of them. Different species were more closely related to the test strains in various regions: the type strain of Mycobacterium moriokaense showed 99.0 % 16S rRNA gene sequence similarity, and 91.5-96.5 % similarity for the remaining six regions. The whole genome sequences of the proposed type strain and that of M. moriokaense presented an average nucleotide identity (ANI) of 82.9 %. Phylogenetic analysis produced poorly robust trees in most genes with the exception of rpoB and sodA where Mycobacterium flavescens and Mycobacterium novocastrense were the closest species. This phylogenetic relatedness was confirmed by the tree inferred from five concatenated genes, which was very robust. The polyphasic characterization of the test strains, supported by the ANI value, demonstrates that they belong to a previously unreported species, for which the name Mycobacterium celeriflavum sp. nov. is proposed. The type strain is AFPC-000207(T) ( = DSM 46765(T) = JCM 18439(T)).

Mycobacterium hippocampi sp. nov., a rapidly growing scotochromogenic species isolated from a seahorse with tail rot.

A Gram-positive, aerobic, non-motile, non-sporulating, acid-fast, and rod-shaped bacterium (BFLP-6(T)), previously isolated from a seahorse (Hippocampus guttulatus) with tail rot, was studied using a polyphasic taxonomic approach. Growth occurred at 15-35 °C (optimum 25 °C), at pH 5.0-10.0 (optimum pH 7.0) and at NaCl concentrations between 0 and 6 % (w/v). The G+C content of DNA was 66.7 mol%. The predominant fatty acids were C(18:1) ω9c, C(16:0) and C(16:1) ω6c. A mycolic acid pattern of alpha-mycolates and keto-mycolates was detected. Analysis of concatenated sequences (16S rRNA, rpoB, ssrA and tuf genes), and chemotaxonomic and phenotypic features indicated that strain BFLP-6(T) represents a novel species within the genus Mycobacterium, for which the name Mycobacterium hippocampi sp. nov. is proposed. The type strain is BFLP-6(T) (=DSM 45391(T) =LMG 25372(T)).

Extraction and Purification of Mycobacterial Mycolic Acids

Mycolic acids are major long-chain fatty acids, containing up to 80-90 carbon atoms that represent essential components of the mycobacterial cell wall (Pawelczyk and Kremer, 2014). Each mycobacterial species possesses a specific mycolic acid profile characterized by various chemical modifications that decorate the lipid. Mycolic acids play a critical role in the architecture and impermeability of the cell envelope, hence the natural resistance of mycobacteria to most antibiotic treatments. They are also key determinants of virulence in pathogenic species, including Mycobacterium tuberculosis (M. tuberculosis), the causative agent of tuberculosis. In addition, they are known as the primary target of several first-line and second-line antitubercular drugs. Thus, the unique enzymes involved in the mycolic acid biosynthetic pathway represent an attractive reservoir of targets for future chemotherapy whose developments are particularly warranted in the context of multi-drug-resistant and extensively-drug-resistant strains of M. tuberculosis. Herein, we describe a protocol to extract the mycolic acids from mycobacteria. Purification of the various subspecies may be particularly useful for subsequent structural studies involving mass spectrometry or NMR. The qualitative and quantitative biochemical characterization of the mycolic acid pattern by thin layer chromatography can be used to address how drugs alter mycolic acid biosynthesis (Alahari et al., 2007, Hartkoorn et al., 2012), to study the phenotypes of genetically modified mutants affected in this metabolic pathway (Bhatt et al., 2007) or to unravel new mycolic acid regulatory mechanisms (Vilcheze et al., 2014). The same protocol can be applied to all mycobacteria, including environmental and pathogenic species.

Characterization of a novel variant of Mycobacterium chimaera

In this study, nonchromogenic mycobacteria were isolated from pulmonary samples of three patients in the Netherlands. All isolates had identical, unique 16S rRNA gene and 16S-23S ITS sequences, which were closely related to those of Mycobacterium chimaera and Mycobacterium marseillense. The biochemical features of the isolates differed slightly from those of M. chimaera, suggesting that the isolates may represent a possible separate species within the Mycobacterium avium complex (MAC). However, the cell-wall mycolic acid pattern, analysed by HPLC, and the partial sequences of the hsp65 and rpoB genes were identical to those of M. chimaera. We concluded that the isolates represent a novel variant of M. chimaera. The results of this analysis have led us to question the currently used methods of species definition for members of the genus Mycobacterium, which are based largely on 16S rRNA or rpoB gene sequencing. Definitions based on a single genetic target are likely to be insufficient. Genetic divergence, especially in the MAC, yields strains that cannot be confidently assigned to a specific species based on the analysis of a single genetic target.

Lung Infection Caused by Mycobacterium riyadhense Confused with Mycobacterium tuberculosis: The First Case in Korea

A slowly growing, non-chromogenic mycobacterial strain was isolated from sputum and bronchial lavage fluid samples of a patient presenting with productive cough, blood-tinged sputum, low-grade fever, and weakness. A positive acid-fast bacilli sputum smear result prompted the initiation of an anti-tuberculosis regimen. Multiplex real-time PCR showed a negative result for Mycobacterium tuberculosis complex and a positive result for nontuberculous mycobacteria. The DNA chip test confirmed this organism as a member of the genus Mycobacterium, but could not specify the species. Interestingly, the mycolic acid patterns obtained by HPLC nearly overlapped with those of M. simulans. The sequences of the Mycobacterium 16S rRNA gene and 16S-23S internal transcribed spacer region were unique and were found to have 100% similarity with those of M. riyadhense. After a review of the literature, we report this case as the first Korean case of M. riyadhense lung infection.

Cyclopropanation of α-mycolic acids is not required for cording in Mycobacterium brumae and Mycobacterium fallax

The capacity to form microscopic cords (cording) of Mycobacterium species has been related to their virulence. The compounds responsible for cording are unknown, but a recent study has shown that cording could be related to the fine structure of α-mycolic acids. This investigation attributes the need for a proximal cyclopropane in α-mycolic acids for cording in Mycobacterium tuberculosis and Mycobacterium bovis BCG and proposes cyclopropanases as good targets for new chemotherapeutic agents. As other Mycobacterium species in addition to M. tuberculosis and M. bovis form microscopic cords, it would be of major interest to know whether the relationship between proximal cyclopropanation of α-mycolic acids and cording could be extended to non-tuberculous mycobacteria. In this study, we have examined the correlation between the cording and cyclopropanation of α-mycolic acids in two species, Mycobacterium brumae and Mycobacterium fallax. Scanning electron microscopy images showed, for the first time to our knowledge, the fine structure of microscopic cords of M. brumae and M. fallax, confirming that these two species form true cords. Furthermore, NMR analysis performed on the same cording cultures corroborates the absence of cyclopropane rings in their α-mycolic acids. Therefore, we can conclude that the correlation between cording and cyclopropanation of α-mycolic acids cannot be extended to all mycobacteria. As M. brumae and M. fallax grow rapidly and have a simple pattern of mycolic acids (only α-unsaturated mycolic acids), we propose these two species as suitable models for the study of the role of mycolic acids in cording.

Revisited mycolic acid pattern of Mycobacterium confluentis using thin-layer chromatography

The profile of mycolic acids from Mycobacterium confluentis has not been adequately published. However, the definition of the composition of mycolic acids is a critical element for describing new mycobacterial species. Thus, an erroneously published profile can lead to confusing citations. The aim of this article is to make the protocols clear, by using thin layer chromatography as a tool, for defining the discrete pattern of mycolic acids of any newly reported mycobacterial species. By using this method, and corroborated using nuclear magnetic resonance analysis, we demonstrated that M. confluentis contains α-mycolates (type I) and epoxymycolates (type V mycolic acids).

Misdiagnosis of Mycobacterium brumae Infection

We read with interest the paper “Catheter-Related Bloodstream Infection Caused by Mycobacterium brumae” by Lee and colleagues (4) because we had described this species in 1993 and no other isolates had been reported from this first description (5). So we contacted the corresponding author, Dr. Han, who gently sent us the M. brumae strain causing the bloodstream infection (MDA0695 strain). In order to confirm the identification of the MDA0695 strain, we performed a total of 24 biochemical tests and growing characteristics by following standard procedures (8). In vitro antibiotic susceptibility was performed in Middlebrook 7H10 agar by the proportion method (8). The M. brumae type strain and the MDA0695 strain were in disagreement in the following eight phenotypic characteristics: colony pigmentation (Fig. 1), growth at 42°C, growth in the presence of 5% NaCl, nitrate reductase (2 h), arylsulfatase (3 days), iron uptake, use of inositol as a sole carbon source, and sensitivity to streptomycin (4 μg/ml) (Table 1). Fig. 1. The MDA0695 strain displays yellow colonies that are very different from the nonpigmented colonies of the M. brumae type strain (CIP103465). Colonies of the M. brumae type strain (A) and the MDA0695 strain (B) on Middlebrook 7H10 medium. Table 1. Properties of the M. brumae type strain and the MDA0695 strain For mycolic acid analyses, the two strains were grown on Middlebrook 7H10 agar at 30°C for 2 weeks. Mycolic acids were liberated by saponification, methylated with diazomethane, and analyzed by thin-layer chromatography as previously described (2). All the M. brumae strains contain only α-mycolates (5); nevertheless, the MDA0695 strain showed small amounts of α-mycolates and large amounts of dicarboxymycolates with their corresponding long-chain alcohols. The pattern of mycolic acids is widely used in taxonomy and identification of mycobacterial species. With few exceptions (1, 6), all the strains that belong to the same species share the same pattern of mycolic acids. So a different pattern of mycolic acids must arouse suspicions on whether the strains compared really belong to the same species. The sequencing of the 16S rRNA gene was performed with PCR amplicons (7) and analyzed using EditSeq and MegAlign software (DNAStar). By comparing the species-specific hypervariable regions A (39 bp) and B (45 bp) of the 16S rRNA gene (3), we found mismatches in 5 and 3 nucleotides, respectively. The MDA0695 isolate showed only 85% and 93% similarity for both regions with the M. brumae type strain (GenBank/EMBL/DDBJ accession number {type:entrez-nucleotide,attrs:{text:AF547907,term_id:27733731,term_text:AF547907}}AF547907). Thus, the nucleotide sequence of the MDA0695 strain shows substantial differences from the corresponding sequence of the type strain. The sequences of hypervariable regions are very much conserved within species. The homology should be 100%, or very close to it, in strains of the same species. However, we found significant differences in both of the hypervariable regions. The results of the genotype study show that the MDA0695 strain is not an M. brumae strain. Hypervariable A or B 16S rRNA region's sequence alignments of the MDA0695 strain revealed it to be closer to noncultivable mycobacteria species and other known rapid-grower mycobacteria than to M. brumae (see Fig. S1 in the supplemental material). An unrooted neighbor-joining tree based on the concatenated hypervariable A and B sequences of MDA0695 and concatenated sequences of other related Mycobacterium species indicated a close relationship between MDA0695 and Mycobacterium flavescens, Mycobacterium monacense, Mycobacterium novocastrense, Mycobacterium smegmatis, and Mycobacterium goodii (see Fig. S2 in the supplemental material). Therefore, the genotypic differences found between the M. brumae type strain and the MDA0695 strain, together with differences found in mycolic acid patterns and the other phenotypic characteristics, allow us to conclude that the MDA0695 strain cannot be considered a strain of the M. brumae species. As a result of the misidentification of the MDA0695 strain, the species M. brumae is now considered a bacterial pathogen and has been classified as biosafety level 2 by the ATCC. Except for the MDA0695 strain, no other M. brumae strains have been associated with infections up to the present; thus, M. brumae must recover its nonpathogenic species status.

Mycobacterium shinjukuense sp. nov., a slowly growing, non-chromogenic species isolated from human clinical specimens

Seven isolates of a slowly growing, non-chromogenic Mycobacterium species were obtained from sputum and bronchial lavage fluid samples from elderly patients in different regions of Japan. These isolates were distinguished from related non-tuberculous species by colony morphology, positive results for Tween hydrolysis, catalase at 68 °C, nitrate reductase and pyrazinamidase and negative results for semi-quantitative catalase, urease and arylsulfatase. The mycolic acid pattern obtained by HPLC revealed a single cluster of late-eluting mycolic acids similar to but different from those of Mycobacterium malmoense ATCC 29571(T). The 16S rRNA gene, 16S-23S internal transcribed spacer (ITS), rpoB and hsp65 sequences were unique in comparison with those of other mycobacteria. Comparison of 16S rRNA gene sequences showed that the isolates were most closely related to Mycobacterium tuberculosis H37Rv(T) (21 base differences in 1508 bp; 98.6 % 16S rRNA gene sequence similarity). A representative strain, GTC 2738(T), showed 91.9 % rpoB sequence similarity with Mycobacterium marinum strain M, 95 % hsp65 sequence similarity with Mycobacterium kansasii CIP 104589(T) and 81.1 % 16S-23S ITS sequence similarity with Mycobacterium gordonae ATCC 14470(T). Phylogenetic analysis of concatenated sequences of the 16S rRNA, rpoB and hsp65 genes showed that strain GTC 2738(T) was located on a distinct clade adjacent to M. tuberculosis, M. ulcerans and M. marinum, with bootstrap values of 81 %. DNA-DNA hybridization demonstrated less than 70 % reassociation with type strains of genetically related species and supported the novel species status of the isolates. On the basis of this evidence, a novel species with the name Mycobacterium shinjukuense sp. nov. is proposed. The type strain, isolated from a sputum sample, is strain GTC 2738(T)( = JCM 14233(T) = CCUG 53584(T)).

Mycobacterium sherrisii sp. nov., a slow-growing non-chromogenic species

'Mycobacterium sherrisii' is an undescribed species that appears to be emerging, in particular, among HIV-positive patients originating from Africa. To describe 'M. sherrisii', to ensure that the species name is validly published and to define its phylogenetic position, we collected 11 of these strains reported in five previous studies, and subjected them to biochemical identification, cell-wall mycolic acid analysis and sequencing of multiple housekeeping genes. The bacteria formed smooth and generally non-chromogenic colonies after 2-3 weeks of subculture at 24-37 °C; photochromogenic and scotochromogenic pigmentation were exhibited by three and two strains, respectively. The strains were positive for the heat-stable catalase test, but negative in tests for hydrolysis of Tween 80, nitrate reduction, β-glucosidase and 3-day arylsulfatase. Mycolic acid patterns, obtained by HPLC, resembled a trimodal profile similar to those of type strains of Mycobacterium simiae, Mycobacterium lentiflavum, Mycobacterium triplex and Mycobacterium genavense. The 16S rRNA gene sequences of the 11 strains differed by 4 bp (99.7 % similarity) from that of the type strain of the closest related species, M. simiae ATCC 25275(T). Levels of internal transcribed spacer (ITS) and partial hsp65 and rpoB gene sequence similarity between the two taxa were 95.8 % (271/283 bp), 97.5 % (391/401 bp) and 95.2 % (700/735 bp), respectively. On the basis of these results, we propose the formal recognition of Mycobacterium sherrisii sp. nov. The type strain is 4773(T) ( = ATCC BAA-832(T) = DSM 45441(T)).

Revival and emended description of ‘Mycobacterium paraffinicum’ Davis, Chase and Raymond 1956 as Mycobacterium paraffinicum sp. nov., nom. rev.

The omission of the name 'Mycobacterium paraffinicum' from the Approved Lists of Bacterial Names was due to phenotypic confusion surrounding a close relationship with Mycobacterium scrofulaceum. Correspondingly, 'M. paraffinicum' strains grew slowly in > 7 days, stained acid-alcohol-fast and produced yellow-pigmented, smooth, waxy colonies in the dark at an optimal temperature of 35°C. However, 'M. paraffinicum' strains demonstrated no activity for urease, nicotinamidase or pyrazinamidase and lacked growth at 42°C, unlike M. scrofulaceum. The mycolic acid pattern, as determined by HPLC, clustered 'M. paraffinicum' with M. scrofulaceum, Mycobacterium avium and Mycobacterium parascrofulaceum. Strains were fully susceptible to linezolid, rifabutin, clarithromycin and amikacin. Examination of the historical reference strain of 'M. paraffinicum', ATCC 12670, and five additional isolates using comparative studies with 16S rRNA, hsp65 and rpoB gene and concatenated sequences showed that they formed a tight taxonomic group that was distinct from similar non-tuberculous mycobacteria. Multilocus enzyme electrophoresis (MEE) analysis confirmed a close association of the five additional isolates with the reference strain of 'M. paraffinicum' with a genetic distance of 0.12 and showed that all six strains were distinct from other closely related species. These genetic results provided unambiguous evidence of the uniqueness of this slowly growing, scotochromogenic species and supported the revival of the name as Mycobacterium paraffinicum (ex Davis, Chase and Raymond 1956) sp. nov., nom. rev. We propose the previously deposited reference strain ATCC 12670(T) =DSM 44181(T) =NCIMB 10420(T), located in collections worldwide, as the type strain.

Mycobacterium mantenii sp. nov., a pathogenic, slowly growing, scotochromogenic species

Slowly growing, scotochromogenic bacteria of a novel Mycobacterium species were isolated from lymph node samples in two children and pulmonary samples in two elderly patients from different regions in the Netherlands as well as from a surface water sample in Zambia. Its 16S rRNA gene, 16S-23S internal transcribed spacer (ITS), hsp65 and rpoB gene sequences are unique in comparison with other mycobacteria. Phylogenetic analysis based on the 16S rRNA gene sequence revealed that these micro-organisms are most closely related to Mycobacterium scrofulaceum ATCC 19981(T) (8 differences; 0.6 % divergence). The hsp65 sequence shows 96 % similarity to that of Mycobacterium saskatchewanense MB54784 and the rpoB sequence shows 95 % similarity to that of Mycobacterium chimaera CIP 107892(T). The 16S-23S ITS sequence places these micro-organisms within the Mycobacterium avium complex, as a novel ITS sequevar. This is not supported by analysis of the 16S rRNA, hsp65 or rpoB gene sequences. Their scotochromogenicity, combined with mostly positive urease, positive semiquantitative catalase and negative tellurite reduction tests, set these isolates apart from related species. The mycolic acid patterns, obtained by HPLC, are similar to that of Mycobacterium scrofulaceum, though the peak heights and distribution present minor differences. We propose the name Mycobacterium mantenii sp. nov. for this novel species. The type strain, isolated from a lymph node biopsy sample, is strain 04-1474(T) (=NLA000401474(T) =CIP 109863(T) =DSM 45255(T)).

Analysis of the structure of mycolic acids of Mycobacterium simiae reveals a particular composition of α-mycolates in strain ‘habana’ TMC 5135, considered as immunogenic in tuberculosis and leprosy

Structural analysis of mycolic acids from Mycobacterium simiae (including some 'habana' strains) was carried out using (1)H-NMR and MS. Results indicated that this species presents a general pattern of alpha-, alpha'- and keto-mycolates. alpha-Mycolates were composed of a complex mixture of 82 to 89 carbon atoms (C82-C89), with the predominant molecular species containing two di-substituted cyclopropane rings. Among keto-mycolates (C84-C89), those containing one trans di-substituted cyclopropane ring were the most abundant. The alpha'-mycolates were monounsaturated (C64, C66). According to MS and (1)H-NMR data, the strains studied differed in fine structural details of alpha-mycolates and keto-mycolates. Notably, strain 'habana' TMC 5135 (belonging to the 'habana' group, and considered as highly immunogenic in tuberculosis and leprosy) presented a particular composition of alpha-mycolates, with a major component (C87) containing one cis plus one trans di-substituted cyclopropane ring, unlike the type strain of M. simiae and other strains of the 'habana' group (IPK-220 and IPK-337R), in which the major component (C84) contained two cis di-substituted cyclopropane rings. In spite of this finding, the 'habana' strains were closely related to each other and mainly differed from the type strain of M. simiae in some details of the fine structure of keto-mycolates. The present work indicated that within an identical general pattern of mycolic acids, there is a complex composition in M. simiae and structural variation among different strains, as reported for pathogenic species of the genus. Noteworthy was the particular composition of alpha-mycolates in strain 'habana' TMC 5135.

Characterization of a moderate thermophilic Nocardia species able to grow on polycyclic aromatic hydrocarbons

Our goal was the characterization of a new moderate thermophilic polycyclic aromatic hydrocarbon (PAH)-utilizing Nocardia strain. A thermophilic bacterium, strain TSH1, was isolated from a contaminated soil. The macroscopic and microscopic features fit well with the description of Nocardia species. The results of 16S rRNA gene analysis showed 100% match to the type strain of N. otitidiscaviarum DSM 43242(T). Strain TSH1 showed the same mycolic acid pattern as the type strain of N. otitidiscaviarum but its fatty acid profile did not permit identification to the species level. The carbon utilization profile of strain TSH1 was different from N. otitidiscaviarum. The results of hydrophobicity measurements showed that PAHs-grown cells were significantly more hydrophobic than LB-grown cells. Furthermore, biosurfactant production was detected during bacterial growth on different culture media. Strain TSH1 is capable of growing on a range of PAHs. When grown in PAHs-supplemented media, strain TSH1 showed a high affinity for the organic phase, suggesting that it can develop a hydrophobic surface. High cell surface hydrophobicity and capability of strain TSH1 to degrade different PAHs at 50 degrees C may make it an ideal candidate to treat PAH-contaminated desert soils.

The first case of Mycobacterium sherrisii disseminated infection in a child with AIDS

The first case of Mycobacterium sherrisii disseminated infection in a child with AIDS

Mycobacterium colombiense sp. nov., a novel member of the Mycobacterium avium complex and description of MAC-X as a new ITS genetic variant

Forty-five mycobacterial strains isolated from 23 Colombian HIV-positive patients were identified as members of the Mycobacterium avium complex (MAC) and were characterized using different molecular approaches. Seven of the isolates showed characteristic features that allowed them to be differentiated from other members of the complex. The isolates had a novel 16S-23S rRNA internal transcribed spacer (ITS 1) gene sequence which is described as a new sequevar, MAC-X. All of the seven novel isolates gave a positive result with the MAC-specific AccuProbe (Gen-Probe), but tested negative for Mycobacterium avium and Mycobacterium intracellulare species-specific probes (64 and 100 % of the isolates, respectively). The novel isolates could be differentiated phenotypically from other members of the MAC on the basis of the production of urease and by a consistent mycolic acid pattern. The novel isolates shared some characteristics with M. avium, such as the avium variant I (av-I) pattern of the hsp65 gene as determined by PCR restriction analysis and a positive PCR result for the mig (macrophage-induced) gene. However, the novel isolates showed a unique 16S rRNA gene sequence. DNA-DNA relatedness values, from 24 to 44 %, confirmed the distinction of the novel isolates from other members of the MAC at the genetic level and their status as members of a separate species. The novel isolates are proposed as representatives of a novel species, Mycobacterium colombiense sp. nov., that is closely related to M. avium within the MAC. The type strain is 10B(T) (=CIP 108962(T)=CECT 3035(T)).

Isolation of a novel sequevar of Mycobacterium flavescens from the synovial fluid of an AIDS patient

This report describes the characterisation of a mycobacterium involved in a case of septic arthritis in an AIDS patient that was treated successfully with specific anti-mycobacterial drugs. The biochemical and cultural features, and the mycolic acid pattern as assessed by high-performance liquid chromatography, were fully compatible with the isolate being Mycobacterium flavescens. However, the isolate's 16S rDNA sequence differed by five nucleotides from the two known sequevars of M. flavescens, thus indicating that this isolate belonged to a new 16S rDNA sequevar.