Antagonistic bacteria of composted agro-industrial residues exhibit antibiosis against soil-borne fungal plant pathogens and protection of tomato plants from Fusarium oxysporum f.sp. radicis-lycopersici

Rhizospheric and root-associated/endophytic (RAE) bacteria were isolated from tomato plants grown in three suppressive compost-based plant growth media derived from the olive mill, winery and Agaricus bisporus production agro-industries. Forty-four (35 rhizospheric and 9 RAE) out of 329 bacterial strains showed in vitro antagonistic activity against at least one of the soil-borne fungal pathogens, Fusarium oxysporum f.sp. radicis-lycopersici (FORL), F. oxysporum f.sp. raphani, Phytophthora cinnamomi, P. nicotianae and Rhizoctonia solani. The high percentage of total isolates showing antagonistic properties (13%) and their common chitinase and β-glucanase activities indicate that the cell wall constituents of yeasts and macrofungi that proliferate in these compost media may have become a substrate that favours the establishment of antagonistic bacteria to soil-borne fungal pathogens. The selected bacterial strains were further evaluated for their suppressiveness to tomato crown and root rot disease caused by FORL. A total of six rhizospheric isolates, related to known members of the genera Bacillus, Lysinibacillus, Enterobacter and Serratia and one RAE associated with Alcaligenes faecalis subsp. were selected, showing statistically significant decrease of plant disease incidence. Inhibitory effects of extracellular products of the most effective rhizospheric biocontrol agent, Enterobacter sp. AR1.22, but not of the RAE Alcaligenes sp. AE1.16 were observed on the growth pattern of FORL. Furthermore, application of cell-free culture extracts, produced by Enterobacter sp. AR1.22, to tomato roots led to plant protection against FORL, indicating a mode of biological control action through antibiosis.     

Production of extracellular enzymes and degradation of biopolymers by saprotrophic microfungi from the upper layers of forest soil

Production of extracellular enzymes participating in the degradation of biopolymers was studied in 29 strains of nonbasidiomycetous microfungi isolated from Quercus petraea forest soil based on the frequency of occurrence. Most of the isolates were ascomycetes and belonged to the genera Acremonium, Alternaria, Cladosporium, Geomyces, Hypocrea, Myrothecium, Ochrocladosporium, and Penicillium (18 isolates), and two isolates were zygomycetes. Only six isolates showed phenol oxidation activity which was low and none of the strains were able to degrade humic acids. Approximately half of the strains were able to degrade cellulose and all but six degraded chitin. Most strains produced significant amounts of the cellulolytic enzymes cellobiohydrolase and ??-glucosidase and the chitinolytic enzymes chitinase, chitobiosidase, and N-acetylglucosaminidase. The highest cellulase activities were found in Penicillium strains, and the highest activity of chitinolytic enzymes was found in Acremonium sp. The production of the hemicellulose-degrading enzymes ??-galactosidase, ??-galactosidase, and ??-mannosidase was mostly low. The microfungal strains were able to produce significant growth on a range of 41?C87, out of 95 simple C-containing substrates tested in a Biolog? assay, monosaccharides being for all strains the most rapidly metabolized C-sources. Comparison with saprotrophic basidiomycetes from the same environment showed that microfungi have similar cellulolytic capabilities and higher chitinase activities which testifies for their active role in the decomposition of both lignocellulose and dead fungal biomass, important pools of soil carbon.     

Identification and characterization of chitinolytic bacteria isolated from a freshwater lake

To develop a novel type of biocontrol agent, we focus on bacteria that are characterized by both chitinase activity and biofilm development. Chitinolytic bacteria were isolated from sediments and chitin flakes immersed in the water of a sand dune lake, Sakata, in Niigata, Japan. Thirty-one isolates from more than 5100 isolated strains were examined chitinase activity and biofilm formation. Phylogenetic analysis of these isolates based on the 16S rRNA gene sequences revealed that most isolates belonged to the family Aeromonadaceae, followed by Paenibacillaceae, Enterobacteriaceae, and Neisseriaceae. The specific activity of chitinase of four selected strains was higher than that of a reference strain. The molecular size of one chitinase produced by Andreprevotia was greater than that of typical bacterial chitinases. The dialyzed culture supernatant containing chitinases of the four strains suppressed hyphal growth of Trichoderma reesei. These results indicate that these four strains are good candidates for biocontrol agents.     

Chitinolytic Enterobacter agglomerans Antagonistic to Fungal Plant Pathogens

Three Enterobacter agglomerans strains which produce and excrete proteins with chitinolytic activity were found while screening soil-borne bacteria antagonistic to fungal plant pathogens. The chitinolytic activity was induced when the strains were grown in the presence of colloidal chitin as the sole carbon source. It was quantitated by using assays with chromogenic p-nitrophenyl analogs of disaccharide, trisaccharide, and tetrasaccharide derivatives of N-acetylglucosamine. A set of three fluorescent substrates with a 4-methylumbelliferyl group linked by (beta)-1,4 linkage to N-acetylglucosamine mono- or oligosaccharides were used to identify the chitinolytic activities of proteins which had been renatured following their separation by electrophoresis. This study provides the most complete evidence for the presence of a complex of chitinolytic enzymes in Enterobacter strains. Four enzymes were detected: two N-acetyl-(beta)-d-glucosaminidases of 89 and 67 kDa, an endochitinase with an apparent molecular mass of 59 kDa, and a chitobiosidase of 50 kDa. The biocontrol ability of the chitinolytic strains was demonstrated under greenhouse conditions. The bacteria decreased the incidence of disease caused by Rhizoctonia solani in cotton by 64 to 86%. Two Tn5 mutants of one of the isolates, which were deficient in chitinolytic activity, were unable to protect plants against the disease.     

Chitinolytic activity of phylogenetically diverse Bacillus cereus sensu lato from natural environments

Bacillus cereus s.l., Gram-positive endospore-forming bacilli, persist ubiquitously in different natural habitats and play various ecological roles. Nevertheless, although chitin is one of the most abundant polymer on Earth, the study of the ability of B. cereus s.l. to hydrolyze this polymer were limited to individual B. cereus and B. thuringiensis strains only. Thus, to fill this gap in this research we focused on (i) the linkage between the capability to chitin degradation and the phylogenetic relatedness of B. cereus s.l. strains, and (ii) the genetic background of chitinolytic properties of these bacilli. Our results showed that chitin degradation is common among the B. cereus group members, yet strains clustered into particular phylogenetic groups differ in their chitinolytic capacity. Separate clustering of chitinolytic and non-chitinolytic strains in the phylogenetic tree indicates the ecotypic structure of these isolates. Two proteins belonging to subfamily A (ChiA) and subfamily B (ChiB) of the glycoside hydrolase GH18 family exhibited simultaneous chitobiosidase and endochitinase activities, and are responsible for chitin utilization by environmental B. cereus s.l. isolates.     

Production and purification of a chitinase from Ewingella americana, a recently described pathogen of the mushroom, Agaricus bisporus

The chitinolytic properties of Ewingella americana, a recently described pathogen of the mushroom, Agaricus bisporus, are reported. E. americana was shown to produce chitinolytic activity in the absence of chitin and in the presence of glucose and N-acetylglucosamine, indicating constitutive synthesis by these strains. A single 33-kDa protein with chitinolytic activity was purified to homogeneity from culture filtrates, by hydrophobic interaction chromatography using a phenyl-group substituted matrix. This enzyme, by virtue of differential activity against chromogenic chitooligosaccharides and against dye-labelled soluble carboxymethylated chitin (CM-chitin-RBV), was demonstrated to be an endochitinase. Our data suggest this 33-kDa chitinase appeared to be the only chitinolytic enzyme produced by E. americana, strains of which do not grow using chitin as a carbon source. The significance of these findings in the context of mushroom disease is discussed.     

Production of aflatoxin and cyclopiazonic acid by various aspergilli: An ELISA analysis

An enzyme-linked Immunosorbent assay (ELISA) was used to monitor a total of 153 fungi in theAspergillus flavus group, Including 130A. flavus, 15A. parasiticus and 8A. tamarii, for their ability to produce aflatoxins (AFs) and cyclopiazonic acid (CPA) in a mycologlcal broth-sucrose-yeast extract medium. Of 15A. parasiticus isolates, ten produced AFs In a range of 12.4 to 89.3 μg/vial (average 56.9 μg/vial); two isolates produced only trace amounts of AFs and three isolates produced none at all. Production of CPA was not demonstrated in anyA. parasiticus isolate. On the other hand, all A. tamarii isolates produced only CPA with a range of 310 to 1100 gmg/vial. Fifteen percent (14.6%) of theA. flavus isolates (19/130) produced more than 500 μg CPA/vial, but yielded no or little AF (less than 0.1 μg/vial). About 22.3% ofA. flavus (29/130) that produced less than 500 μg of CPA also yielded little or no aflatoxin. MostA. flavus isolates (44.6%) produced both CPA (50 to 300 μg/vial) and AFs (10 to 40 μg/vial). About 9.2% of theA. flavus are low CPA producers (less than 100 μg/vial) but yielded higher amounts of AFs. A small percentage (12/130 or 9.2%) of A. flavus isolates produced neither CPA nor aflatoxin. Excluding the isolates that produced neither AFs nor CPA, there is a negative correlation between the production of CPA and AFs by most A.flavus isolates. Data obtained from ELISA for the production of CPA were consistent with TLC results. Thus, the ELISA method for CPA and AFB could be applied to the screening of toxigenic fungi. Data on the simultaneous production of both toxins by a large percentage of the toxigenicA. flavus isolates suggest that there is a potential health hazard for co-existence of both toxins in foods and feeds.     

Isolation of novel chitinolytic bacteria and production optimization of extracellular chitinase

Chitin is one of the most abundant biopolymers widely distributed in the marine and terrestrial environments. Chitinase enzyme has received increased attention due to its wide range of biotechnological applications, especially in agriculture for biocontrol of phytopathogenic fungi and harmful insects. In the present study, 58 bacterial isolates were screened for chitinolytic activity and on the basis of chitin hydrolysis zone 6 isolates were selected for chitinase production in broth media. Based on enzyme production, two most potent isolates identified as Aeromonas hydrophila HS4 and Aeromonas punctata HS6 were selected for further study. The effects of media composition and various fermentation conditions for optimization of chitinase production were studied. The maximum chitinase production was obtained at 37 °C and pH 8.0 after 24–48 h of incubation by HS4; and at 37 °C and pH 7 after 48 h incubation by HS6. Among the substrates colloidal chitin was the best for both the strains. Regarding carbon sources, starch (1%) was the best for both strains; while malt and yeast extract (1%) was found as the best nitrogen source for HS4 and HS6, respectively. Out of metal ions Mn²⁺ and Cu²⁺ enhanced enzyme production in the case of HS6. However, Co²⁺ was the most appropriate for HS4.     

Microbial synergists pathogenic to Lymantria dispar: Chitinolytic and fermentative bacterial interactions

A chitinolytic bacterium isolated from a healthy gypsy moth, Lymantria dispar, larva was shown to be pathogenic to larvae when administered per os after growth on chitin broth. However, the chitin hydrolase produced by this isolate had a pH optimum for activity of 5.5 and the high alkalinity in the mesenteron of L. dispar larvae severely limited chitinolysis of the midgut lining. Fermentative, nonpathogenic, acid-producing bacteria isolated from healthy gypsy moth larvae effectively lowered larval mesenteron pH when administered per os and the combination of fermentative isolates with a crude culture aliquot of the chitinolytic strain produced a synergistic increase in mortality over either dose administered by itself. Increased mortality was also observed for most fermentative strains when they were combined with crude supernatants of centrifuged cultures of the chitinolytic strain, although these combinations proved less effective than when fermenters were added to the whole-culture aliquots of the chitinolytic strain. In vitro studies showed that other bacteria isolated from environments foreign to that of the gypsy moth could ferment carbohydrates with acid production at an alkaline pH; however, in vivo studies demonstrated that these bacteria were incapable both of poising larval midgut pH and of enhancing mortality when added to chitinolytic bacteria.     

Isolation and Characterization of Antagonistic Bacillus Strains Capable to Degrade Ethylenethiourea

In this study, more than 150 bacteria showing antagonistic properties against bacterial and fungal pathogens of the tomato plant were isolated and characterized. The most efficient agents against these phytopathogenic microorganisms belong to the genus Bacillus: the best biocontrol isolates were representatives of Bacillus subtilis, B. mojavensis and B. amyloliquefaciens species. They intensively produced fengycin or/and surfactin depsipeptide antibiotics and also proved to be excellent protease secretors. It was proved, that the selected strains were able to use ethylenethiourea (ETU) as sole nitrogen source. These antagonistic and ETU-degrading Bacillus strains can be applied as biocontrol and also as bioremediation agents.     

Chitinolytic bacteria in the intestinal tract of Japanese coastal fishes

Intestinal bacteria from several coastal fish species were screened on 1/20 PYBG medium containing 0.2% colloidal chitin, and 361 bacteria capable of decomposing colloidal chitin were isolated. These isolates were subsequently screened on media containing either 0.5% alpha-chitin or 0.5% beta-chitin resulting in the identification of 31 alpha-chitinolytic and 275 beta-chitinolytic bacterial isolates. Partial 16S rRNA gene sequencing was carried out and homology searches of the resultant sequences against the DDBJ, EMBL, and GenBank databases revealed that the majority (99%) of the chitinolytic bacteria isolated belonged to the Vibrionaceae. Phylogenetic analysis using a Bayesian approach showed that the alpha-chitinolytic bacteria belonging to the Vibrionaceae formed a separate cluster from the non-alpha-chitinolytic bacteria in the Vibrionaceae.     

Distribution of bacterial endophytes in peanut seeds obtained from axenic and control plant material under field conditions

Background and Aims

The role and linkage of endophytic bacteria to resistance of peanut seeds to biotic stress is poorly understood. The aims of the present study were to survey the experimental (axenic) and control (conventional) peanut plants for the predominant endophytic bacteria, and to characterize isolates with activity against selected A. flavus strains.

Methods

Young axenic plants were grown from presumably bacteria-free embryos in the lab, and then they were grown in a field. Endophytic bacterial species were identified by the analysis of DNA sequences of their 16S-ribosomal RNA gene. DNA extracted from soil was also analyzed for predominant bacteria.

Results

Mature seeds from the experimental and control plants contained several species of nonpathogenic endophytic bacteria. Among the eight bacterial species isolated from seeds, and DNA sequences detected in soil, Bacillus thuringiensis was dominant. All B. amyloliquefaciens isolates, the second abundant species in seeds demonstrated activity against A. flavus. This effect was not observed with any other bacterial isolates. There was no significant difference in number and relative occurrence of the two major bacterial species between the experimental and conventionally grown control seeds.

Conclusion

Endophytic bacterial colonization derives from local soil and not from the seed source, and the peanut plant accommodates only selected species of bacteria from diverse soil populations. Some bacterial isolates showed antibiosis against A. flavus.     

Bacterial community composition and chitinase gene diversity of vermicompost with antifungal activity

Bacterial communities and chitinase gene diversity of vermicompost (VC) were investigated to clarify the influence of earthworms on the inhibition of plant pathogenic fungi in VC. The spore germination of Fusarium moniliforme was reduced in VC aqueous extracts prepared from paper sludge and dairy sludge (fresh sludge, FS). The bacterial communities were examined by culture-dependent and -independent analyses. Unique clones selected from 16S rRNA libraries of FS and VC on the basis of restriction fragment length polymorphism (RFLP) fell into the major lineages of the domain bacteria Proteobacteria, Bacteroidetes, Verrucomicrobia, Actinobacteria and Firmicutes. Among culture isolates, Actinobacteria dominated in VC, while almost equal numbers of Actinobacteria and Proteobacteria were present in FS. Analysis of chitinolytic isolates and chitinase gene diversity revealed that chitinolytic bacterial communities were enriched in VC. Populations of bacteria that inhibited plant fungal pathogens were higher in VC than in FS and particularly chitinolytic isolates were most active against the target fungi.     

Potential biocontrol Bacillus sp. strains isolated by an improved method from vinegar waste compost exhibit antibiosis against fungal pathogens and promote growth of cucumbers

An in vitro antagonism test is a typical procedure for the selection of potential biocontrol strains. However, the traditional method of screening antagonistic bacteria in vitro is a time consuming method when conducting large-scale screening trials. In this study, an improved method for the selection of antagonistic bacteria in vitro from compost was established based on the traditional method. 21 Antagonistic bacteria out of 33 target strains isolated from vinegar waste compost using the improved method. The 16S rDNA gene showed the 21 strains all belonged to the Bacillus genus and 18 different types of fingerprints were obtained by enterobacterial repetitive inter-genic consensus (ERIC)-PCR. 18 Selected strains which had the unique fingerprints all exhibited broad-spectrum antagonism towards the tested fungi and at least two enzyme activities in vitro. Among them, majority of the isolates were siderophore producer, some of them showed nitrogen-fixing ability and small of them were IAA producer. Four out of five selected strains were found both to be effective in controlling wilt and damping-off disease and four strains showed strong growth-promoting activities for cucumber seedlings under greenhouse conditions. Thus, these results demonstrated that the improved method was an effective and rapid means to screen potential antagonistic microorganisms in vitro. The results also showed that Bacillus sp. strains in vinegar waste compost exhibited antibiosis against fungal pathogens and promoted the growth of cucumber seedlings.     

Chitinase Genes in Lake Sediments of Ardley Island, Antarctica

A sediment core spanning approximately 1,600 years was collected from a lake on Ardley Island, Antarctica. The sediment core had been greatly influenced by penguin guano. Using molecular methods, the chitinolytic bacterial community along the sediment core was studied over its entire length. Primers targeting conserved sequences of the catalytic domains of family 18 subgroup A chitinases detected group A chitinases from a wide taxonomic range of bacteria. Using quantitative competitive PCR (QC-PCR), chitinase gene copies in each 1-cm section of the whole sediment column were quantified. QC-PCR determination of the chitinase gene copies indicated significant correlation with phosphorus and total organic carbon concentration, suggesting a historical connection between chitinase gene copies and the amount of penguin guano input into the lake sediment. Most of the chitinase genes cloned from the historic sediment core were novel. Analysis of the chitinase gene diversity in selected sediment layers and in the fresh penguin deposits indicated frequent shifts in the chitinolytic bacterial community over time. Sequence analysis of the 16S rRNA genes of chitinolytic bacteria isolated from the lake sediment revealed that the isolates belonged to Janthinobacterium species, Stenotrophomonas species of γ-Proteobacteria, Cytophaga species of the Cytophaga-Flexibacter-Bacteroides group, and Streptomyces and Norcardiopsis species of Actinobacteria. Chitinase gene fragments were cloned and sequenced from these cultivated chitinolytic bacteria. The phylogeny of the chitinase genes obtained from the isolates did not correspond well to that of the isolates, suggesting acquisition via horizontal gene transfer.     

Isolation and characterization of root-associated bacteria from agricultural crops in the Kavango region of Namibia

Root-associated bacteria can have beneficial effects on their host plants. Microbial products can promote and stimulate plant growth or lead to bioprotection against pathogens. This study aimed to isolate putatively beneficial bacteria from traditional cereals grown by subsistence farmers in the Kavango of Namibia. Bacteria were isolated from surface-sterilized roots of Pennisetum glaucum, Sorghum bicolor, and Zea mays, and subjected to phenotypic and phylogenetic analyses. A total of 44 root-associated bacterial strains were isolated. From 33 distinct isolates, 22 belonged to Firmicutes and Actinobacteria, while 11 were Proteobacteria. Eleven novel phylotypes were among the isolates. Features known to contribute to plant growth-promotion and biocontrol were tested in vitro and revealed promising candidates with multiple beneficial characteristics. This is the first report on the characterization of native isolates associated with important agriculture crops in the Kavango region of Namibia. Such isolates have the potential for application as inoculants adapted to poor soils and local crops. Desiccation-tolerant or sporulating Gram-positive bacteria are of particular interest for this region, which is characterized by a long dry season.     

Isolation of Oxalic acid tolerating fungi and decipherization of its potential to control Sclerotinia sclerotiorum through oxalate oxidase like protein

Oxalic acid plays major role in the pathogenesis by Sclerotinia sclerotiorum; it lowers the pH of nearby environment and creates the favorable condition for the infection. In this study we examined the degradation of oxalic acid through oxalate oxidase and biocontrol of Sclerotinia sclerotiorum. A survey was conducted to collect the rhizospheric soil samples from Indo-Gangetic Plains of India to isolate the efficient fungal strains able to tolerate oxalic acid. A total of 120 fungal strains were isolated from root adhering soils of different vegetable crops. Out of 120 strains a total of 80 isolates were able to grow at 10?mM of oxalic acid whereas only 15 isolates were grow at 50?mM of oxalic acid concentration. Then we examined the antagonistic activity of the 15 isolates against Sclerotinia sclerotiorum. These strains potentially inhibit the growth of the test pathogen. A total of three potential strains and two standard cultures of fungi were tested for the oxalate oxidase activity. Strains S7 showed the maximum degradation of oxalic acid (23?%) after 60?min of incubation with fungal extract having oxalate oxidase activity. Microscopic observation and ITS (internally transcribed spacers) sequencing categorized the potential fungal strains into the Aspergillus, Fusarium and Trichoderma. Trichoderma sp. are well studied biocontrol agent and interestingly we also found the oxalate oxidase type activity in these strains which further strengthens the potentiality of these biocontrol agents.     

Biocontrol of the Potato Blackleg and Soft Rot Diseases Caused by Dickeya dianthicola

Development of protection tools targeting Dickeya species is an important issue in the potato production. Here, we present the identification and the characterization of novel biocontrol agents. Successive screenings of 10,000 bacterial isolates led us to retain 58 strains that exhibited growth inhibition properties against several Dickeya sp. and/or Pectobacterium sp. pathogens. Most of them belonged to the Pseudomonas and Bacillus genera. In vitro assays revealed a fitness decrease of the tested Dickeya sp. and Pectobacterium sp. pathogens in the presence of the biocontrol agents. In addition, four independent greenhouse assays performed to evaluate the biocontrol bacteria effect on potato plants artificially contaminated with Dickeya dianthicola revealed that a mix of three biocontrol agents, namely, Pseudomonas putida PA14H7 and Pseudomonas fluorescens PA3G8 and PA4C2, repeatedly decreased the severity of blackleg symptoms as well as the transmission of D. dianthicola to the tuber progeny. This work highlights the use of a combination of biocontrol strains as a potential strategy to limit the soft rot and blackleg diseases caused by D. dianthicola on potato plants and tubers.     

Bacterial chitin utilisation at extremely haloalkaline conditions

Chitin is produced in large amounts in hypersaline habitats with neutral pH due to the high biomass production of brine shrimp Artemia. Recently, a high abundance of Artemia was also noticed in hypersaline soda lakes in the Kulunda Steppe (Altai, Russia), which prompted us to survey the possibility of microbial chitin utilization at extremely haloalkaline conditions in soda brines. Most active chitin utilisation-supporting microbial growth was found at anaerobic conditions at pH 10 and up to 3.5?M total Na⁺. At aerobic conditions, the degradation of chitin was slower, mostly incomplete and active at <2?M total Na⁺, although very slow partial degradation was possible up to 4?M Na⁺. Anaerobic enrichments at pH 10 yielded two different groups of obligately haloalkaliphilic fermentative anaerobes, exclusively specialized to utilise insoluble chitin as the only growth substrate. One group was represented by a single strain growing at moderate salinity, and another comprised multiple isolates growing up to 3.5?M Na⁺. These groups represent two novel bacterial phyla not closely related to any other cultured bacteria. Aerobic enrichments from the lake sediments were dominated by several obligately haloalkaliphilic members of the genus Marinimicrobium in the Gammaproteobacteria. They were less specialised than the anaerobes and grew with chitin and its monomer and oligomers at a pH of 10 up to 2.5?M Na⁺. Furthermore, several strains of haloalkaliphilic Gram-positive chitinolytics belonging to bacilli and actinobacteria were isolated from soda lake sediments and surrounding soda soils. In general, the results indicate the presence of an active and diverse haloalkaliphilic chitinolytic microbial community in hypersaline soda habitats.     

Diversity of rhizospheric and endophytic bacteria isolated from dried fruit of Ficus carica

There is currently an increasing demand for the characterization of endophytic bacteria isolated from different parts of plants (rhizosphere, roots, fruit, leaf) in order to improve the organic agriculture practices. The current research was performed to identify both rhizospheric bacteria isolated from the rhizosphere of Ficus carica in three different sites in the north of Tunisia and endophytic bacteria isolated from dried figs. We then characterized them for a diversity of plant growth-promoting (PGP) activities. A collection of 120 isolates from rhizospheric soil and 9 isolates from dried figs was obtained and purified. 16SrDNA gene amplification of rhizospheric bacteria revealed significant diversity and allowed for the assigning of the isolates to 6 phyla: Gammaproteobacteria, Alphaproteobacteria, Betaproteobacteria, Firmicutes, Actinobacteria, and Bacteroidetes. Representative strains of the collection (90 strains) were tested for numerous PGP activities and resistance to abiotic stresses. The most common PGP trait for all bacteria from the three regions was siderophore production (62%), followed by cellulase (38%), then protease activity (37%), then by lipases activity (17%) and lastly by solubilization of phosphates (9%). Twenty -three strains that showed most PGP traits were selected, 8 strains presented 12 or more, and 15 strains displayed between 7 and 11 of 17 PGP activities. The majority of the isolates manifested a possible adaptation to abiotic stress and unfavorable environments. PCR-DGGE analysis of soil rhizosphere of the three sites allowed also for the acquisition of a Cluster analysis of rhizospheric bacterial communities. Our current study identified and characterized for the first time in Tunisia rhizospheric and endophytic bacteria from dried fruit of Ficus carica.