Siderophore production of African dust microorganisms over Trinidad and Tobago

Iron (Fe) deposition from African dust has been implicated in a variety of environmental impacts on downwind terrestrial and marine ecosystems throughout the Caribbean. The most abundant form of Fe in African dust is Fe^III, which is often not bioavailable. The objective of this study was to determine to what degree microorganisms isolated from African dust collected in Trinidad and Tobago are capable of producing siderophores that mobilize bioavailable Fe into the environment. Aerosol samples were collected for microbial analyses during African dust conditions in the source region (Mali) and downwind sites (Trinidad and Tobago). Microbial community fingerprints, obtained by means of terminal restriction fragment length polymorphism analysis, were compared among aerosol samples and possible Trinidadian sources of locally aerosolized microorganisms (sea water and soils). Ordination of the fingerprint data revealed similarities between aerosols from the source region and the aerosols and soils of downwind regions. Aerosol isolates from the downwind sites were screened for siderophore production using a modified chrome azurol-S (CAS) assay. Twenty-five percent of isolates tested that were sampled under non-dust conditions and 65% of African dust isolates produced at least one type of siderophore; among African dust isolates, all known classes of siderophores were produced. These data support African dust microorganism siderophore production as a viable mechanism by which Fe bioavailability may be increased in downwind locations, given appropriate conditions for microbial proliferation.     

Chemical characterization and quantification of siderophores produced by marine and terrestrial aspergilli

Ten aspergilli (five each from marine and terrestrial habitats) were screened for siderophore production. All test isolates produced siderophores as indicated by a positive reaction in the FeCl(3) test, chrome azurol sulphonate assay, and chrome azurol sulphonate agar plate test. Further, the test isolates were compared for their siderophore production potential and chemical characteristics. Examination of the chemical nature of the siderophores revealed that all test isolates produced hydroxamate siderophores that were trihydroxamate hexadentates. Wide-spread occurrence of siderophores in marine isolates indicate their functional role in maintaining overall productivity of coastal waters. Among all test aspergilli, marine Aspergillus versicolor was found to be the largest siderophore producer (182.5 microg/mL desferrioxamine mesylate equivalent), least siderophore production was recorded in a marine strain of Aspergillus niger (3.5 microg/mL desferrioxamine mesylate equivalent).     

A rapid and sensitive paper electrophoresis assay for the detection of microbial siderophores elicited in solid-plating culture

A rapid and sensitive assay for the detection of microbial siderophores (iron-binding compounds) is described. Nine representative fungal and bacterial cultures including Ustilago sphaerogena, Penicillium sp., Fusarium roseum, Rhodotorula pilimanae, Bacillus subtilis W 23, Bacillus subtilis W 168, Bacillus megaterium, Azotobacter vinelandii OP, and Escherichia coli B, were nutritionally stressed for iron by sequential transfers on iron-deficient solid-plating media. In response to Fe-stress conditions, the microorganisms excreted siderophore compounds into the extracellular solid culture medium. The solid agar matrix effectively concentrated and restricted the migration of the siderophore compounds to the region immediately adjacent to colonial growth. Agar-block samples from this region were removed and placed at the origin of an electrophoresis paper strip. The resultant absorbed material from the agar-block sample was subjected to high-voltage paper electrophoresis which separated the siderophore compounds by size and molecular net charge. Phenolic acid (“catechol”)-type siderophores were detected by fluorescence under uv light. Hydroxamic acid-type siderophores were visualized by spraying the electrophoretogram with ferric iron solution.     

Development and application of an assay for uranyl complexation by fungal metabolites,including siderophores

An assay to detect UO(2)(2+) complexation was developed based on the chrome azurol S (CAS) assay for siderophores (B. Schwyn and J. B. Neilands, Anal. Biochem. 160:47-56, 1987) and was used to investigate the ability of fungal metabolites to complex actinides. In this assay the discoloration of two dyed agars (one containing a CAS-Fe(3+) dye and the other containing a CAS-UO(2)(2+) dye) caused by ligands was quantified. The assay was tested by using the siderophore desferrioxamine B (DFO), and the results showed that there was a regular, reproducible relationship between discoloration and the amount of siderophore added. The ratio of the discoloration on the CAS-UO(2)(2+) agar to the discoloration on the CAS-Fe(3+) agar was independent of the amount of siderophore added. A total of 113 fungi and yeasts were isolated from three soil samples taken from the Peak District National Park. The fungi were screened for the production of UO(2)(2+) chelators by using the CAS-based assay and were also tested specifically for hydroxamate siderophore production by using the hydroxamate siderophore auxotroph Aureobacterium flavescens JG-9. This organism is highly sensitive to the presence of hydroxamate siderophores. However, the CAS-based assay was found to be less sensitive than the A. flavescens JG-9 assay. No significant difference between the results for each site for the two tests was found. Three isolates were selected for further study and were identified as two Pencillium species and a Mucor species. Our results show that the new assay can be effectively used to screen fungi for the production of UO(2)(2+) chelating ligands. We suggest that hydroxamate siderophores can be produced by mucoraceous fungi.     

假单胞菌株JKD—2分泌铁载体抑制稻瘟病菌

利用铬奥醇（CAS）分析法测定了假单胞菌（Pseudomonassp．）JKD－2分泌铁载体的特征。在无铁环境下JKD-2菌能分泌高亲和力的铁载体;在低铁条件下,铁载体的分泌量减少;在富铁环境下,则不能分泌。结果还显示菌株JKD-2在无铁条件下分泌的铁载体,能在低铁条件下抑制稻瘟病菌（Piriculariaoryzae）的生长。     

Citrate as a siderophore in Bradyrhizobium japonicum.

Under iron-limiting conditions, many bacteria secrete ferric iron-specific ligands, generically termed siderophores, to aid in the sequestering and transport of iron. One strain of the nitrogen-fixing soybean symbiont Bradyrhizobium japonicum, 61A152, was shown to produce a siderophore when 20 B. japonicum strains were screened with all six chemical assays commonly used to detect such production. Production by strain 61A152 was detected via the chrome azurol S assay, a general test for siderophores which is independent of siderophore structure. The iron-chelating compound was neither a catechol nor a hydroxamate and was ninhydrin negative. It was determined to be citric acid via a combination of thin-layer chromatography and high-voltage paper electrophoresis; this identification was verified by a specific enzymatic assay for citric acid. The inverse correlation which was observed between citric acid release and the iron content of the medium suggested that ferric citrate could serve as an iron source. This was confirmed via growth and transport assays. Exogenously added ferric citrate could be used to overcome iron starvation, and iron-deficient cells actively transported radiolabeled ferric citrate. These results, taken together, indicate a role for ferric citrate in the iron nutrition of this strain, which has been shown to be an efficient nitrogen-fixing strain on a variety of soybean cultivars.     

Detection and differentiation of microbial siderophores by isoelectric focusing and chrome azurol S overlay

Siderophores are microbial, low molecular weight iron-chelating compounds. Fluorescent Pseudomonads produce different, strain-specific fluorescent siderophores (pyoverdines) as well as non-fluorescent siderophores in response to low iron conditions. We present an isoelectric focusing method applicable to unpurified as well as to purified pyoverdine samples where the fluorescent siderophores are visualized under UV illumination. Siderophores from different Pseudomonas sp., amongst which are P. aeruginosa, P. fluorescens and P. putida, including egg yolk, rhizospheric and clinical isolates as well as some derived Tn5 mutants were separated by this technique. Different patterns could be observed for strains known to produce different siderophores. The application of the chrome azurol S assay as a gel overlay further allows immediate detection of non-fluorescent siderophores or possibly degradation products with residual siderophore activity. The method was also applied to other microbial siderophores such as deferrioxamine B.     

Use of CAS-agar plate modified to study the effect of different variables on the siderophore production by Aspergillus

AIMS: To evaluate the suitability of chrome azurol S (CAS) agar plate assay as a quantitative methodology for siderophore production. METHODS AND RESULTS: Aspergillus species (A. flavus, A. niger, A. tamarii) were inoculated in the CAS-agar plates and the siderophores production was determined and expressed as CAS-reaction rate (mm per day). All the species showed positive CAS reaction with different rates depending on culture conditions and A. flavus showed the highest CAS-reaction rate. The siderophore production in solid medium expressed as CAS-reaction rate was correlated with siderophore production in liquid medium. CONCLUSIONS: The use of CAS-agar plate assay was modified and the evaluation of CAS reaction in mm per day made it possible to study and quantify the effect of several variables on the siderophore production by Aspergillus fungi. SIGNIFICANCE AND IMPACT OF THE STUDY: We describe the CAS-agar plate assay as a quantitative methodology, which make it possible to select and evaluate the siderophore production by several microorganisms (fungi and bacteria) according to different culture conditions.     

Detection and identification of ferricrocin produced by ectendomycorrhizal fungi in the genusWilcoxina

The ectendomycorrhizal fungiWilcoxina mikolae isolates CSY-14 and RMD-947 andW. rehmii isolate CSY-85 were grown in pure culture under iron-limiting conditions. All three isolates tested positive for siderophore formation using both the ferric perchlorate assay and a sensitive HPLC iron-binding assay. A peptide siderophore was isolated from the culture medium by HPLC and shown to contain the amino acids serine, glycine and ornithine in a 1:2:3 ratio. This siderophore was identified as ferricrocin on the basis of electrospray mass spectroscopy and its co-chromatography in two different HPLC systems with ferricrocin isolated fromAspergillus fumigatus. Ferricrocin was the only siderophore isolated from theseWilcoxina cultures. This is the first report of siderophore formation by ectendomycorrhizal fungi.     

Siderophore production by the magnetic bacterium Magnetospirillum magneticum AMB-1

Siderophore production by the magnetic bacterium Magnetospirillum magneticum AMB-1 is elicited by sufficient iron rather than by iron starvation. In order to clarify this unusual pattern, siderophore production was monitored in parallel to iron assimilation using the chrome azurol sulfonate assay and the ferrozine method respectively. Iron concentration lowered approximately five times less than its initial concentration only within 4 h post-inoculation, rendering the medium iron deficient. A concentration of at least 6 microM Fe(3+) is required to initiate siderophore production. The propensity of M. magneticum AMB-1 for the assimilation of large amounts of iron accounts for the rapid depletion of iron in the medium, thereby triggering siderophore excretion. M. magneticum AMB-1 produces both hydroxamate and catechol siderophores.     

A comparative study of siderophore production by fungi from marine and terrestrial habitats

Siderophore producing potential of 20 fungal isolates (same 10 species from each marine and terrestrial habitat) were examined and compared. Except marine Aspergillus flavus, all isolates produced siderophores as evidenced by positive reaction in FeCl₃ test, CAS assay and CAS agar plate test. The results indicated widespread occurrence of siderophores in both the habitats. Examination of the chemical nature of siderophores revealed that mucoraceous fungi produced carboxylate, while others produced hydroxamate siderophores. Thus, the nature of siderophore was found to be independent of habitat. Among all the isolates, Cunninghamella elegans (marine form) was maximum siderophore producer (1987.5 μg/ml) followed by terrestrial form of C. elegans (1248.75 μg/ml). There was no marked variation in siderophore concentration of Penicillium funiculosum strains. Comparison of quantification of siderophore production between marine and terrestrial revealed that four terrestrial isolates (Aspergillus niger, Aspergillus ochraceous, Penicillium chrysogenum, Penicillium citrinum) were ahead in siderophore production, while, the other four marine isolates (Aspergillus versicolor, C. elegans, Rhizopus sp., Syncephalastrum racemosum) were found to be more potent siderophore producers, indicating that they were equally competent.     

Development and Application of an Assay for Uranyl Complexation by Fungal Metabolites, Including Siderophores

An assay to detect UO₂²⁺ complexation was developed based on the chrome azurol S (CAS) assay for siderophores (B. Schwyn and J. B. Neilands, Anal. Biochem. 160:47-56, 1987) and was used to investigate the ability of fungal metabolites to complex actinides. In this assay the discoloration of two dyed agars (one containing a CAS-Fe³⁺ dye and the other containing a CAS-UO₂²⁺ dye) caused by ligands was quantified. The assay was tested by using the siderophore desferrioxamine B (DFO), and the results showed that there was a regular, reproducible relationship between discoloration and the amount of siderophore added. The ratio of the discoloration on the CAS-UO₂²⁺ agar to the discoloration on the CAS-Fe³⁺ agar was independent of the amount of siderophore added. A total of 113 fungi and yeasts were isolated from three soil samples taken from the Peak District National Park. The fungi were screened for the production of UO₂²⁺ chelators by using the CAS-based assay and were also tested specifically for hydroxamate siderophore production by using the hydroxamate siderophore auxotroph Aureobacterium flavescens JG-9. This organism is highly sensitive to the presence of hydroxamate siderophores. However, the CAS-based assay was found to be less sensitive than the A. flavescens JG-9 assay. No significant difference between the results for each site for the two tests was found. Three isolates were selected for further study and were identified as two Pencillium species and a Mucor species. Our results show that the new assay can be effectively used to screen fungi for the production of UO₂²⁺ chelating ligands. We suggest that hydroxamate siderophores can be produced by mucoraceous fungi.     

A new approach to isolating siderophore-producing actinobacteria

Aims:  This study was conducted to investigate the application of 2,2′‐dipyridyl as a new approach to isolating siderophore‐producing actinobacteria. Methods and Results:  Isolation of actinobacteria from soil was conducted by a soil dilution plate technique using starch‐casein agar. Iron starvation was fostered by the incorporation of the iron chelator 2,2′‐dipyridyl in the isolation medium. Pretreatment of the samples at an elevated temperature (40°C) ensured that the majority of nonsporulating bacteria were excluded. The survivors of this treatment were largely actinobacteria. Of the viable cultures grown in the presence of 2,2′‐dipyridyl, more than 78–88% (average of three separate studies) were reported to produce siderophore‐like compounds compared to 13–18% (average of three separate studies) when grown on the basic media in the absence of the chelating agent. The most prolific producers as assessed by the chrome azurol sulphate (CAS) assay were further characterized and found to belong to the genus Streptomyces. Conclusions:  Selective pressure using 2,2′‐dipyridyl as an iron‐chelating agent in starch‐casein media increased the isolation of siderophore‐producing actinobacteria compared to the unamended medium. Significance and Impact of the Study:  The study described represents a new approach to the isolation of siderophore‐producing actinobacteria using a novel procedure that places a selection on cell population based upon the incorporation of a chelating agent in the medium.     

Antimicrobial activity of Pseudomonas spp. against food poisoning bacteria and moulds

M.H. LAINE, M.T. KARWOSKI, L.B. RAASKA AND T.-M. MATTILA-SANDHOLM. 1996. The present study demonstrates the siderophore production of two strains of Pseudomonas fluorescens and two of Ps. chlororaphis . The antimicrobial activities of these strains were studied against Salmonella typhimurium, Staphylococcus aureus, Fusarium culmorum, F. oxysporum and Aspergillus niger . Despite equal siderophore activities with various Pseudomonas spp. as measured by the chrome azurol S assay, the study shows how siderophore activity does not correlate with the antibacterial activity against food pathogens or with the antimould activity against pathogenic moulds. Furthermore, the results illustrate how siderophores are able to act both as growth inhibitors and stimulators.     

烟草根际铁载体产生菌G-229-21T的筛选、鉴定及拮抗机理

[目的]从烟草根际筛选烟草疫霉[Phytophthora parasitica var.nicotianae(Breda de Hann)Tucker]拮抗菌,探索其拮抗机理.[方法]限铁(2.0 μmol/L FeCl3)蔗糖-天冬酰胺平板对峙法筛选烟草疫霉拮抗菌;刃天青(CAS)法检测其铁载体的产生及其对铁离子的亲和能力.结合形态、生理生化、16s rRNA序列同源性和系统发育分析及种特异性分子法对其进行鉴定.XAD-2吸附层析法提取其铁载体,分光光度法检测其铁载体类型.不同铁离子浓度下,比较其铁载体对烟草疫霉的抑制作用.[结果]我们筛选到一株限铁条件下烟草疫霉拮抗菌G-229-21T,该菌产生高亲和力铁载体,被初步鉴定为Pseudomonas mediterranea.该菌产生的羧酸型铁载体,在低铁条件下(0.16μmol/L～10μmol/L,FeCl3)对烟草疫霉的抑制率达92.3%以上,而在富铁条件下(100 μmol/L FeCl3)抑制率仅为2.0%.[结论]首次报道P. mediterranea G-229-21T产生高亲和力羧酸型铁载体,该铁载体在低铁条件下对烟草疫霉有显著的抑制作用.     

三种荒漠灌木根际可培养固氮细菌类群及其固氮和产铁载体能力

【目的】揭示西鄂尔多斯荒漠孑遗灌木四合木(Tetraena mongolica)、沙冬青(Ammopiptanthus mongolicus)、白刺(Nitraria tangutorum)根际可培养固氮细菌类群,分析固氮酶活性和产铁载体能力,以期为认识和利用荒漠植物根际促生细菌提供依据。【方法】以Ashby无氮培养基、采用涂布划线法分离纯化根际固氮细菌;基于16S r RNA基因分析类群组成;以乙炔还原方法测定固氮酶活性;以铬天青S蓝色平板定性筛选产铁载体菌株,以分光光度计法定量产铁载体能力。【结果】共分离出固氮细菌22株,分别属于3个门与9个属,其中变形菌门(Proteobacteria,82%)为绝对优势门,假单胞菌属(Pseudomonas,27.27%)为优势属;Rhizobium和Bacillus分别是沙冬青和四合木的独有属,而白刺独有属有Enterobacter、Stenotrophomonas和Paenibacillus;10株在无氮培养基上生长迅速,它们的固氮酶活性在871.71-3 383.09 nmol C2H4/(H·Culture)之间,并且其中有7株具有产铁载体能力,其产铁载体的As/Ar值范围为0.35-0.79。【结论】鄂尔多斯荒漠珍稀孑遗灌木植物根际固氮细菌类群多样,植物间差异明显,包含多种高固氮酶活性和产铁载体能力的固氮细菌,可作为植物生长促进根际细菌的重要来源。     

The isolation and identification of 3,4-dihydroxybenzoic acid formed by nitrogen-fixing Azomonas macrocytogenes

Abstract The mechanism of iron acquisition was studied in nitrogen-fixing Azomonas macrocytogenes . Spent solid agar plating medium samples from Fe-deficient and Fe-sufficient cultures were subjected to the high voltage paper electrophoresis siderophore assay. A yellow-green fluorescent peptide was elicited only under conditions of iron deficiency, whereas a novel dark blue fluorescent, Arnowpositive phenolic compound was detected under both Fe-deficient and Fe-sufficient conditions. Both compounds formed colored complexes with ferric iron. SDS-PAGE analysis of outer envelope protein preparations revealed the hyperproduction of an 83 kDa protein under iron-limiting conditions. Chemical analysis indicated that the phenolate was 3,4-dihydroxybenzoic acid (protocatechuic acid), a compound previously unreported as an extracellular product of a diazotroph.     

Hydroxamate-siderophore production and utilization by marine eubacteria

Siderophore (iron-binding chelator) production was examined in 30 strains of open ocean bacteria from the generaVibrio, Alteromonas, Alcaligenes, Pseudomonas, andPhotobacterium. The results showed that hydroxamate-type siderophore production was widely distributed in various marine species, except for isolates ofAlteromonas macleodii andV. nereis. In all cases, the ability to produce siderophores was under the control of iron levels in the medium and satisfied the iron requirements of the siderophore bioassay organism. On the basis of chemical assay and bacterial bioassays, none of the examined isolates produced phenolate-type siderophores. Several isolates produces siderophores that were neither hydroxamatenor phenolate-type siderophores. Some strains such asAlteromonas communis produce siderophores that could be used by many other isolates. In contrast, the siderophore produced byAlcaligenes venustus had little cross-strain utilization. These findings suggest that the ability to produce siderophores may be common to open ocean bacteria.