Identification of genes involved in the sequestration of iron in mycobacteria: the ferric exochelin biosynthetic and uptake pathways

Mycobacteria produce two siderophores, mycobactin and exochelin. Mycobacterium smegmatis mutants defective in the production of exochelin were isolated using agar medium containing chrome azural S for the sensitive detection of siderophores. Cosmids of genomic libraries from M. smegmatis and Mycobacterium bovis BCG were screened for complementation of the mutation. Subcloning of the complementing M. smegmatis cosmid identified a 4.3 kb fragment required for restoring exochelin biosynthesis. Sequencing of the DNA revealed four open reading frames whose genes were named fxuA. fxuB, fxuC, and fxbA. FxuA, FxuB, and FxuC share amino acid sequence homology with the iron permeases FepG, FepC. and FepD from Escherichia coli. respectively. Deletion analysis identified fxbA as the gene required to restore exochelin biosynthesis in our mutant. Although fxbA does not share amino acid sequence homology with any of the published sequences for siderophore biosynthetic genes, it does show limited homology with the phosphoribosyl-glycineamide formyltransferases (GAR enzymes) and methionyl-tRNA formyltransferase over a limited region of the sequence, suggesting that fxbA may code for an enzyme which adds a formyl group in the synthesis of exochelin. A fusion of fxbA with the E. coli lacZ gene demonstrated regulation of gene expression by iron. The ability of M. smegmatis mutants to produce mycobactin in the absence of exochelin supports the hypothesis that exochelin is not a precursor of mycobactin and suggests that the siderophores have independent biosynthetic pathways. In addition, complementation of the M.     

Participation of fad and mbt genes in synthesis of mycobactin in Mycobacterium smegmatis

Colonies of Mycobacterium smegmatis LR222 on iron-limiting (0.1 micro M Fe) minimal medium agar fluoresce under UV light due to the accumulation in the cells of the deferri form of the siderophore mycobactin. Two mutants with little or no fluorescence, designated LUN8 and LUN9, were isolated by screening colonies of transposon (Tn611)-mutagenized M. smegmatis. Ferrimycobactin prepared from iron-restricted cells of the wild type had an R(f) of 0.62 on high-performance thin-layer chromatography (HPTLC) and a characteristic visible absorption spectrum with a peak near 450 nm. Similar extracts from LUN8 cells contained a small amount of ferrimycobactin with an R(f) of 0.58 on HPTLC and an absorption spectrum with the peak shifted to a wavelength lower than that of the wild-type ferrimycobactin. Nuclear magnetic resonance spectroscopy studies suggested that the LUN8 mycobactin may have an altered fatty acid side chain. Mutant strain LUN9 produced no detectable mycobactin. Neither mutant strain produced measurable amounts of excreted mycobactin, although both excreted exochelin (the mycobacterial peptido-hydroxamate siderophore), and both mutants were more sensitive than the wild-type strain to growth inhibition by the iron chelator ethylenediamine-di(o-hydroxyphenylacetic acid). The transposon insertion sites were identified, and sequence analyses of the cloned flanking chromosome regions showed that the mutated gene in LUN9 was an orthologue of the Mycobacterium tuberculosis mycobactin biosynthetic gene mbtE. The mutated gene in LUN8 had homology with M. tuberculosis fadD33 (Rv1345), a gene that may encode an acyl-coenzyme A synthase and which previously was not known to participate in synthesis of mycobactin.     

Catecholates and mixed catecholate hydroxamates as artificial siderophores for mycobacteria

Different mono-, bis- or triscatecholates and mixed mono- or biscatecholate hydroxamates were synthesized as potential siderophores for mycobacteria. Siderophore activity was tested by growth promotion assays using wild type strains and iron transport mutants of mycobacteria as well as Gram-negative bacteria. Some triscatecholates and biscatecholate hydroxamates were active in mutants of Mycobacterium smegmatis deficient in mycobactin and exochelin biosynthesis or exochelin permease, respectively, indicating an uptake route independent of the exochelin/mycobactin pathway. Structure activity relationships were studied. Ampicillin conjugates of some of these compounds were inactive against mycobacteria but active against Gram-negative bacteria.     

Analysis of the Exochelin Locus in Mycobacterium smegmatis: Biosynthesis Genes Have Homology with Genes of the Peptide Synthetase Family

Mycobacteria secrete the siderophore exochelin when grown under iron-limiting conditions. In order to understand iron uptake mechanisms in mycobacteria, we have taken a genetic approach to identify those genes involved in exochelin biosynthesis and transport in Mycobacterium smegmatis. Of the 6,000 chemically mutagenized clones of M. smegmatis mc²155 screened on agar plates containing chrome azural S, 19 mutants that had lost the ability to produce or secrete exochelin were identified. Thirteen of these mutants were complemented by a single M. smegmatis cosmid. Sequence analysis of this cosmid revealed nine open reading frames, three of which are homologous to genes encoding transporter proteins, which are likely involved in exochelin transport. Complementation and Tn10 mutagenesis analysis identified two new genes, fxbB and fxbC, which are required for exochelin biosynthesis. The fxbB and fxbC genes encode large proteins of 257 and 497 kDa, respectively, which are highly homologous to peptide synthetases, indicating that exochelin biosynthesis occurs by a nonribosomal mechanism.     

Identification of two fructose transport and phosphorylation pathways in Xanthomonas campestris pv. campestris.

Summary Fructose was shown to be phosphorylated by a specific phosphoenolpyruvatc-dependent phosphotransferase system (PTS) in Xanthomonas campestris pv. campestris. Transposon mutagenesis of X. campestris was performed and two mutants affected in growth on fructose were isolated. Both mutants were deficient in PTS activity. Comparison of the rate of uptake and phosphorylation of fructose in the wild-type and in the mutant strains revealed the presence of a second fructose permeation and phosphorylation pathway in this bacterium: an unidentified permease coupled to an ATP-dependent fructokinase. One of the two mutants was also deficient in fructokinase activity. Chromosomal DNA fragments containing the regions flanking the transposon insertion site were cloned from both mutant strains. Their physical study revealed that the insertion sites were separated by 1.4 kb, allowing the reconstruction of a wild-type DNA fragment which complemented one of the two mutants. The region flanking the transposon insertion site was sequenced in one of the mutants, showing that the transposon had interrupted the gene encoding the fructose Ell. The mutant strains also failed to utilize mannose, sucrose and mannitol, suggesting the existence of a branch point between the metabolism of fructose and of these latter carbohydrates.     

Restriction fragment maps of the genome of Bacillus subtilis bacteriophage SPβ

Six different restriction endonucleases were used to generate restriction fragment maps of the genome of the temperate Bacillus subtilis phage SPβ. AvaI and SalI each had six target sites in the phage DNA, AvaII had three, BamHI had seven, PstI had twenty, and SacI had sixteen. Restriction analysis and heteroduplex analysis were used to locate a 10-kb region of DNA that is deleted in the clear-plaque mutant, spβci. Thedeletion lay approx. 50 kb from the left end of the 126-kb phage genome.     

Molecular cloning of the tolC locus of Escherichia coli K-12 with the use of transposon Tn10

Summary We have cloned the tolC gene of E. coli K-12 into pSF2124 by using transposon Tn10 as the marker to first isolate the relevant DNA fragment. The gene is on a 10.5 kb EcoRI fragment, and Tn5 insertion mutagenesis locates the gene near one end of this EcoRI fragment. An EcoRI-PstI fragment has been subcloned into pBR322 to facilitate further analysis of the gene.Abbreviations Tris Tris (hydroxymethyl) aminomethane - EDTA Ethylenediamine tetra-acetic acid - DOC Sodium deoxycholate - DNA Deoxyribonucleic acid - SDS Sodium dodecyl sulphate - kb kilo base pairs     

The temperate B. subtilis phage phi 105 genome contains at least two distinct regions encoding superinfection immunity

Summary Two different PstI fragments of temperate phage 105 DNA are shown to confer superinfection immunity upon Bacillus subtilis when inserted into the multicopy cloning vector pE194 cop-6. The 2.3 kb PstI fragment I is located almost entirely within EcoRI fragment F and encompasses a region previously known to encode a repressor. The other fragment, PstI-E (4.3 kb) maps inside the EcoRI-B fragment, and allows an explanation of the clear-plaque phenotype of the deletion mutant 105DII:6c. The two regions can be distinguished functionally, since only the PstI fragment I product interacts with a specific 105 promoter-operator site.     

Isolation and characterization of carboxymycobactins as the second extracellular siderophores in Mycobacterium smegmatis

The structure of a chloroform-extractable siderophore from the supernatant of a nonpathogenic mycobacteria, Mycobacterium smegmatis, has been determined and it closely resembles the structure of mycobactin, the intracellular siderophore found in all mycobacteria. The difference in structures is that the extracellular siderophore has a family of short carboxylic chains attached to the mycobactin nucleus instead of a long alkyl chain and hence the name 'carboxymycobactin' is proposed to distinguish it from mycobactin itself as well as from the major siderophore that is produced - exochelin MS. © Rapid Science 1998.     

Plasmids from bacterial endosymbionts of hump-killer paramecia

Six isolates ofCaedibacter taeniospiralis, collected from four continents, were screened for plasmid DNA. Plasmid DNA species containing between 41.5 and 49.5 kilobase pairs (kb) were observed in all strains. Physical maps of plasmids were constructed by determining relative positions of the restriction endonuclease (BamHI,SalI,XhoI,SacI,PstI,AvaI, andEcoRI) recognition sequences in each plasmid. The physical map of the smallest plasmid (41.5 kb), pKAP30, is reflected in each of the plasmids isolated from the other strains ofC. taeniospiralis. Plasmid DNA from three of the isolates (strains 51 and 116 both from Indiana and strain 169 from Japan) each contain 43 kb, where 41.5 kb appear to be identical to pKAP30 (obtained from the Australian strain, A30). The extra 1.5 kb present in pKAP51, pKAP116, and pKAP169 is included as a single polynucleotide sequence. The 1.5-kb inclusion is located at apparently identical positions in pKAP116 and pKAP169 and at a totally different position in pKAP51. The two remaining plasmids, pKAP47 (from California strain 47) and pKAP298 (from Panama strain 298), both contain 49 kb to include a continuous 41.5-kb sequence that is apparently identical to pKAP30. The results indicate that the polynucleotide sequences of these plasmids are highly conserved and that the observed variations among them may be accounted for by transposable elements.     

Isolation,physical map and gene map of mitochondrial DNA from the cryptomonad Pyrenomonas salina

Mitochondrial DNA (mtDNA) from the cryptomonad Pyrenomonas salina was isolated by CsCl-buoyant density centrifugation of whole-cell DNA in the presence of Hoechst dye 33258. mtDNA consists of circular molecules about 47 kb in size as estimated from restriction enzyme analysis. A physical map for six restriction enzymes (Bam HI, Bge I, Eco RI, Pst I, Sac I and Sac I) has been constructed. Genes coding for the small subunit of rRNA, cytochrome oxidase subunits I and II, and apocytochrome b were localized on this map using Southern blot hybridization with heterologous gene probes from Oenothera. Genes for 5S rRNA and NADH dehydrogenase subunit 5 are absent from P. salina mtDNA. The mitochondrial genome, being the first analysed to this extent in chromophytic algae, should be valuable for taxonomic and phylogenetic studies.     

Mutational analysis of a role for salicylic acid in iron metabolism of Mycobacterium smegmatis

The role of salicylic acid in iron metabolism was examined in two wild-type strains (mc(2)155 and NCIMB 8548) and three mutant strains (mc(2)1292 [lacking exochelin], SM3 [lacking iron-dependent repressor protein IdeR] and S99 [a salicylate-requiring auxotroph derived in this study]) of Mycobacterium smegmatis. Synthesis of salicylate in SM3 was derepressed even in the presence of iron, as was synthesis of the siderophores exochelin, mycobactin, and carboxymycobactin. S99 was dependent on salicylate for growth and failed to grow with the three ferrisiderophores, suggesting that salicylate fulfills an additional function(s) other than being a precursor of mycobactin and carboxymycobactin. Salicylic acid at 100 microgram/ml repressed the formation of a 29-kDa cell envelope protein (putative exochelin receptor protein) in S99 grown both iron deficiently and iron sufficiently. In contrast, synthesis of this protein was affected only under iron-limited conditions in the parent strain, mc(2)155, and remained unaltered in SM3, suggesting an interaction between the IdeR protein and salicylate. Thus, salicylate may also function as a signal molecule for recognition of cellular iron status. Growth of all strains and mutants with p-aminosalicylate (PAS) at 100 microgram/ml increased salicylate accumulation between three- and eightfold under both iron-limited and iron-sufficient growth conditions and decreased mycobactin accumulation by 40 to 80% but increased carboxymycobactin accumulation by 50 to 55%. Thus, although PAS inhibited salicylate conversion to mycobactin, presumptively by blocking salicylate AMP kinase, PAS also interferes with the additional functions of salicylate, as its effect was heightened in S99 when the salicylate concentration was minimal.     

Identification of a genomic region that complements a temperature-sensitive, high CO2-requiring mutant of the cyanobacterium, Synechococcus sp. PCC7942

Summary In a temperature-sensitive, high CO₂-requiring mutant of Synechococcus sp. PCC7942, the ability to fix intracellularly accumulated inorganic carbon was severely impaired at non-permissive temperature (41° C). In contrast, inorganic carbon uptake and ribulose-1,5-bisphosphate carboxylase activity in the mutant were comparable to the respective values obtained with the wild-type strain. The mutant was transformed to the wild-type phenotype (ability to form colonies at non-permissive temperature under ordinary air) with the genomic DNA of the wild-type strain. A clone containing a 36 kb genomic DNA fragment of the wild-type strain complemented the mutant phenotype. The complementing activity region was associated with internal 17 kb SmaI, 15 kb HindIII, 3.8 kb BamHI and 0.87 kb Pstl fragments. These 4 fragments overlapped only in a 0.4 kb HindIII-PstI region. In the transformants obtained with total genomic DNA or a plasmid containing the 3.8 kb BamHI fragment, the ability to fix intracellular inorganic carbon was restored. Southern hybridization and partial nucleotide sequence analysis indicated that the cloned genomic region was located approximately 20 kb downstream from the structural genes for subunits of ribulose-1,5-bisphosphate carboxylase/oxygenase. The cloned region was transcribed into a 0.5 kb mRNA. These results indicate that the cloned genomic region of Synechococcus sp. PCC7942 is involved in the efficient utilization of intracellular inorganic carbon for photosynthesis.     

Transposon mutagenesis of nuclear photosynthetic genes in Zea mays

The discovery of a new maize (Zea mays L.) transposon system, Mutator, and the cloning of the 1.4 kilobase transposon, Mul, have made feasible the isolation of nuclear photosynthetic genes which are recognized only by their mutant phenotype. Mutant maize plants which express a high chlorophyll fluorescent (hcf) phenotype due to a defect in the electron transport or photophosphorylation apparatus have been isolated following mutagenesis with an active Mutator stock. The affected genes and their products in these mutants are inaccessible to classical methods of analysis. However, mutagenesis with the Mutator transposon makes it possible to isolate these genes.Although the PSII-deficient mutant hcf3 has been thoroughly studied by classical photo-biological methods, the nature of the lesion which results in the observed phenotype has not been established. A Mutator-induced allele of hcf3 has been isolated. A fragment of genomic DNA has been identified which is homologous to Mul and co-segregates with the mutant phenotype. This fragment is expected to contain a portion of the hcf3 locus which will be used to clone the normal gene. Direct study of the gene can provide insight into the nature and function of its polypeptide product.This approach can be used to study any photosynthetic gene which has been interrupted by a transposon. The isolation of more than 100 different chemically-induced hcf mutants, most of which can not be fully characterized using classical means, indicates the wealth of information which can be obtained using a transposon tagging technique.     

Effect of IS900 Gene of Mycobacterium paratuberculosis on Mycobacterium smegmatis

Mycobacterium paratuberculosis is mycobactin dependent and contains multiple copies of the IS900 gene that encodes for p43 (46.5K protein). The correlation between the two characteristics has been investigated. A 3.2-kb BamHI fragment from M. paratuberculosis containing the 1.451 kb IS900 gene was cloned in Escherichia coli and Mycobacterium smegmatis with pcDNA II and pNEZ6.3 plasmids, respectively. Surprisingly, the recombinant M. smegmatis grew poorly and slower in 7H9 broth supplemented with OADC (12 day) compared with M. smegmatis wild type or to M. smegmatis transformed with pNEZ6.3 (2 day). The growth rate of the recombinant M. smegmatis was restored by the addition of 2.4 μM ferric mycobactin J to the media. There was no effect on the growth rate of E. coli recombinants. Western blot analysis with p43-specific anti-peptide antibodies resulted in the expression of 46.5K and a cleaved form of 33.5K protein bands in the recombinant E. coli. There was no expression in the recombinant M. smegmatis. A lower expression of 33.5K protein band was detected in the native M. paratuberculosis protein. The nucleotide sequence of the 3.2-kb fragment confirmed the presence of p43-encoded ORF. There was no additional encoding sequence in the fragment. This suggests that the IS900 gene and/or its encoding products are involved in mycobactin dependency and possibly the slow growth rate of M. paratuberculosis. Received: 12 May 1998 / Accepted: 6 July 1998     

Optimized BlaM-transposon shuttle mutagenesis of Helicobacter pylori allows the identification of novel genetic loci involved in bacterial virulence

Helicobacter pylori is an important etiologic agent of gastroduodenal disease in humans. In this report, we describe a general genetic approach for the identification of genes encoding exported proteins in H. pylori. The novel TnMax9 mini-blaM transposon was used for insertion mutagenesis of a H. pylori gene library established in Escherichia coli. A total of 192 E. coli clones expressing active β-lactamase fusion proteins (BlaM⁺) were obtained, indicating that the corresponding target plasmids carry H. pylori genes encoding putative extracytoplasmic proteins. Natural transformation of H. pylori P1 or P12 using the 192 mutant plasmids resulted in 135 distinct H. pylori mutant strains (70%). Screening of the H. pylori collection of mutant strains allowed the identification of mutant strains impaired in motility, in natural transformation competence and in adherence to gastric epithelial cell lines. Motility mutants could be grouped into distinct classes: (i) mutant strains lacking the major flagellin subunit FlaA and intact flagella (class I); (ii) mutant strains with apparently normal flagella, but reduced motility (class II), and (iii) mutant strains with obviously normal flagella, but completely abolished motility (class III). Two independent mutations that exhibited defects in natural competence for genetic transformation mapped to different genetic loci. In addition, two independent mutant strains were isolated by their failure to bind to the human gastric carcinoma cell line Katoill. Both mutant strains carried a transposon in the same gene, 0.8 kb apart, and showed decreased autoagglutination when compared to the wild-type strain.     

The pilA gene of Xanthomonas campestris pv. citri is required for infection by the filamentous phage cf

 Host factors that are important for infection of Xanthomonas campestris pv. citri by the filamentous bacteriophage cf were investigated by transposon mutagenesis with Tn5tac1. A mutant, XT501, that was resistant to cf infection was recovered, showing that the gene inactivated by the transposon is required for infection by the phage but not for cf replication or assembly. A 1.7-kb SacI-ApaI DNA fragment from XT501 containing the bacterial DNA flanking one end of the transposon was cloned and shown to be required for cf infection. Nucleotide sequence analysis of the 1.7-kb fragment reveals the presence of an ORF that encodes a protein of 146 amino acids. This protein shows 42% identity to the type 4 prepilin encoded by the pilA genes of other bacteria. The pilA gene of X. campestris pv. citri is thus essential for infection by the bacteriophage cf. Received: 30 November 1998 / Accepted: 21 April 1999     

Tn5 mutagenesis of Rhizobium trifolii host-specific nodulation genes result in mutants with altered host-range ability

Summary A 14 kb DNA fragment from the Sym plasmid of the Rhizobium trifolii strain ANU843, known to carry common nodulation nod and host specific nodulation hsn genes, was extensively mutagenised with transposon Tn5. A correlation between the site of Tn5 insertion and the induced nodulation defect led to the identification of three specific regions (designated I, II, III) which affected nodulation ability. Twenty-three Tn5 insertions into region I (ca. 3.5 kb) affected normal root hair curling ability and abolished infection thread formation. The resulting mutants were unable to nodulate all tested plant species. Tn5 insertions in regions II and III resulted in mutants which showed an exaggerated root hair curling (Hac⁺⁺) response on clover plants. Ten region II mutants which occurred over a 1.1 kb area showed a greatly reduced nodulation ability on clovers and produced aborted, truncated infection threads. Tn5 insertions into region III (ca. 1.5 kb) altered the outcome of crucial early plant recognition and infection steps by R. trifolii. Seven region III mutants displayed host-range properties which differed from the original parent strain. Region III mutants were able to induce marked root hair distortions, infection threads, and nodules on Pisum sativum including the recalcitrant Afghanistan variety. In addition region III mutants showed a poor nodulation ability on Trifolium repens even though the ability to induce infection threads was retained on this host. The altered host-range properties of region III mutants could only be revealed by mutation and the mutant phenotype was shown to be recessive.     

Mapping of restriction sites in the attachment site region of bacteriophage lambda

Summary A fine structure map of theEcoRI fragment containing the lambda attachment-site region has been constructed. 38 different restriction endonucleases have been employed and 170 sites located in this fragment. In addition, sites in adjacent regions have been determined for several enzymes. Complete cleavage maps of the entire lambda genome have been obtained for endonucleasesBglII,BluI,KpnI,SacI,SacII,SalI andXbaI. The strategy employed for mapping included comparison of deletion and substitution mutants, analysis of mixed digests, and detailed analysis of subfragments.     

Cloning of a 1.1-kb Fragment Including srnB+ Gene in the F Plasmid and Isolation of an srnB Mutant

The srnB⁺ gene, promoting stable RNA degradation at 42 C in the presence of rifampin, was cloned by using pBR322 as a vector; it was located on a 1.1-kilobase (kb) EcoRI/BamHI fragment between 1.4 and 2.5 kb of the F plasmid. The region between 93.3 and 4.0 kb of the F plasmid was physically mapped by using restriction endonucleases EcoRI, HindIII, BamHI, PstI, and SmaI, with reference to a standard HindIII site in IS3. An srnB1 mutant was isolated from a chimeric plasmid, pOY54, after treatment of its DNA with hydroxylamine. The srnB1 allele on the F fragment of the mutant plasmid was recessive to the wild-type allele. Thermal elevation of cell cultures to 39 C was high enough to promote RNA degradation in strain YS12 carrying plasmid pOY54.