Isolation and characterization of polyphenol oxidase- and peroxidase-producing <Emphasis Type="Italic">Bacillus</Emphasis> strains from fully fermented tea (<Emphasis Type="Italic">Camellia sinensis</Emphasis>)

Sixteen aerobic endospore-forming Bacillus spp. were isolated from fully fermented tea leaf samples from 10 tea factories in Lahijan and Langrod cities (Gillan province, Iran). Bacillus spp. isolates were characterized using phenotypic characteristics, antibiotic susceptibility and cellular fatty acid (CFA) patterns. Based on the data obtained, five isolates of tea Bacillus spp. (TB): TB2, TB4, TB6, TB10 and TB12 belonged to the species B. subtilis. Two isolates, TB1 and TB14 were recognized as B. licheniformis. Two Bacillus spp. isolates, TB9 and TB 16 were identified as B. sphaericus. Two isolates, TB5 and TB13 were shown to be B. pumilus. Two isolates, TB7 and TB15 belonged to B. cereus. Amongst the isolates, Bacillus sp. TB3, Bacillus sp. TB8 and Bacillus sp. TB11 showed different phenotypic traits, distinct antibiotic sensitivity and fatty acid profiles, and they may represent novel species. The isolates showed polyphenol oxidase (tyrosinase) and peroxidase activities. The highest polyphenol oxidase and peroxidase activities were observed for Bacillus sp. TB3 and B. licheniformis TB14, respectively, where values of 5.48 and 3.73 units mL⁻¹ were observed.     

Phylogenetic analysis of Bacillus subtilis and related taxa based on partial gyrA gene sequences

Partial gyrA sequences were determined for twelve strains belonging to Bacillus amyloliquefaciens, B. atrophaeus, B. licheniformis, B. mojavensis,B. subtilis subsp. subtilis, B. subtilissubsp. spizizenii and B. vallismortis. The average nucleotide and translated amino acid similarities for the seven type strains were 83.7 and 95.1%, respectively, whereas the corresponding value for the 16S rRNA sequences was 99.1%. All of the type strains were sharply separated; the closest relationship was found between B. atrophaeus and B. mojavensis which shared a nucleotide similarity of 95.8%. Phylogenetic trees were inferred from gyrA nucleotide sequences using the neighbor-joining, Fitch–Margoliash and maximum parsimony algorithms. The test strains were divided into four groups, which generally reflected results previously reported in restriction digest and DNA-DNA hybridization studies. It is concluded from the comparative sequence analysis that the gyrA sequences provide a firm framework for the rapid and accurate classification and identification of Bacillus subtilis and related taxa.     

Distribution and characteristics of <Emphasis Type="Italic">Bacillus</Emphasis> bacteria associated with hydrobionts and the waters of the Peter the Great Bay,Sea of Japan

Bacilli of the species Bacillus subtilis, B. pumilus, B. mycoides, B. marinus and B. licheniformis (a total of 53 strains) were isolated from 15 invertebrate species and the water of the Vostok Bay, Peter the Great Bay, Sea of Japan. Bacilli were most often isolated from bivalves (22.7%) and sea cucumbers (18.9%); they occurred less frequently in sea urchins and starfish (13.2 and 7.5%, respectively). Most of bacilli strains were isolated from invertebrates inhabiting silted sediments. No Bacillus spp. strains were isolated from invertebrates inhabiting stony and sandy environments. The species diversity of bacilli isolated from marine objects under study was low. Almost all bacterial isolates were resistant to lincomycin. Unlike B. pumilus, B. subtilis isolates were mostly resistant to benzylpenicillin and ampicillin. Antibiotic sensitivity of B. licheniformis strains was variable (two strains were resistant to benzylpenicillin and oxacillin, while one was sensitive). A significant fraction of isolated bacilli contained pigments. Pigmented strains were more often isolated from seawater samples, while colorless ones predominated within hydrobionts. B. subtilis colonies had the broadest range of colors. In the Bacillus strains obtained, DNase, RNase, phosphatase, elastolytic, chitinase, and agarolytic activity was detected. Bacilli strains with hydrolytic activity occurred in invertebrates more often than in seawater.     

Replication Terminator Protein-Based Replication Fork-Arrest Systems in Various Bacillus Species

The replication terminator protein (RTP) of Bacillus subtilis interacts with its cognate DNA terminators to cause replication fork arrest, thereby ensuring that the forks approaching one another at the conclusion of a round of replication meet within a restricted terminus region. A similar situation exists in Escherichia coli, but it appears that the fork-arrest systems in these two organisms have evolved independently of one another. In the present work, RTP homologs in four species closely related to B. subtilis (B. atrophaeus, B. amyloliquefaciens, B. mojavensis, and B. vallismortis) have been identified and characterized. An RTP homolog could not be identified in another closely related species, B. licheniformis. The nucleotide and amino acid changes from B. subtilis among the four homologs are consistent with the recently established phylogenetic tree for these species. The GC contents of the rtp genes raise the possibility that these organisms arose within this branch of the tree by horizontal transfer into a common ancestor after their divergence from B. licheniformis. Only 5 amino acid residue positions were changed among the four homologs, despite an up to 17.2% change in the nucleotide sequence, a finding that highlights the importance of the precise folded structure to the functioning of RTP. The absence of any significant change in the proposed DNA-binding region of RTP emphasizes the importance of its high affinity for the DNA terminator in its functioning. By coincidence, the single change (E30K) found in the B. mojavensis RTP corresponds exactly to that purposefully introduced by others into B. subtilis RTP to implicate a crucial role for E30 in the fork-arrest mechanism. The natural occurrence of this variant is difficult to reconcile with such an implication, and it was shown directly that RTP.E30K functions normally in fork arrest in B. subtilis in vivo. Additional DNA terminators were identified in the new RTP homolog-containing strains, allowing the definition of a Bacillus terminator consensus and identification of two more terminators in the B. subtilis 168 genome sequence to bring the total to nine.     

Endophytic and Biological Control Potential of Bacillus mojavensis and Related Species

The identity of a patented endophytic bacterium was established by 16S rRNA sequence analysis as a strain of Bacillus mojavensis, a recently erected species within one of the B. subtilis subgroups. This strain of B. mojavensis is antagonistic to the fungus Fusarium moniliforme, an endophytic mycotoxin-producing pathogen of maize and other plants. There are five other species within this subgroup: Bacillus amyloliquefaciens, B. atrophaeus, B. licheniformis, Brevibacterium halotolerans, Paenibacillus lentimorbus, and P. popilliae. The objectives of this research were to screen other isolates of B. mojavensis, B. subtilis, and the other closely related Bacillus species for endophytic colonizing capacity and to determine the in vitro antagonism to F. moniliforme in an effort to survey the distribution of these traits, which are desirable biological control qualities within the Bacillaceae. Antagonism was determined on nutrient agar, and endophytic colonization was established with maize plants following recovery of rifampin-resistant mutants generated from all strains used in the study. The study established that all 13 strains of B. mojavensis, isolated from major deserts of the world, endophytically colonized maize and were antagonists to F. moniliforme. The endophytic colonization of maize by B. subtilis and other species within this subgroup of the Bacillaceae varied, as did antagonism, to F. moniliforme. Thus, this study suggests that endophytic colonization is another characteristic of the species B. mojavensis. The endophytic habit and demonstrated antagonism to the test fungus indicate that isolates of this species might prove to be important biological control organisms where the endophytic habit is desired.     

Species-level identification of <Emphasis Type="Italic">Bacillus</Emphasis> strains isolates from marine sediments by conventional biochemical, 16S rRNA gene sequencing and inter-tRNA gene sequence lengths analysis

The aim of this study was to compare the ability of commonly used conventional biochemical tests, sequencing analysis of 16S rRNA genes and tDNA-intergenic spacer length polymorphism (tDNA-PCR) to identify species of the genus Bacillus recovered from marine sediments. While biochemical tests were not sufficiently sensitive to distinguish between the 23 marine strains analyzed, partial 16S rRNA gene sequences allowed a correct identification, clustering them into four species belonging to Bacillus licheniformis (n = 6), Bacillus cereus (n = 9), Bacillus subtilis (n = 7) and Bacillus pumilus (n = 1). The identification results obtained with 16S rRNA sequencing were validated by tDNA-PCR analysis of 23 marine isolates that were identified by the similarities of their fingerprints to those of reference strains. tDNA-PCR fingerprinting was as discriminatory as 16S rRNA sequencing analysis. Although it was not able to distinguish among the species of the B. cereus and B. subtilis groups, it should be considered a rapid and easy approach for the reliable identification of unknown Bacillus isolates or at least for the primary differentiation of Bacillus groups.     

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.     

Diazotrophic bacilli isolated from the sunflower rhizosphere and the potential of Bacillus mycoides B38V as biofertiliser

The nitrogen fixation by strains belonging to the Bacillus genus remains poorly explored. In this work, the diversity of endospore‐forming bacilli isolated from the rhizosphere of sunflower was evaluated. A total of 101 strains were identified based on the V1‐V2 variable regions of the 16S rRNA gene. Strains belonging to the genera Bacillus and Paenibacillus represented 41.6% and 58.4%, respectively, of total isolates. The production of indolic compounds was a common trait among the isolates, and approximately 75% of them exhibited positive nitrogenase activity; but only 9.2% displayed activities higher than 1 nmol C₂H₄ mg protein h^?1. Within the genus Bacillus, the isolates related to the B. cereus group displayed the highest nitrogenase activity and were the second most frequent group of Bacillus sp. isolated. Plants inoculated with the isolate B38V showed the highest N content, and their shoot dry weights were significantly increased compared with positive control. Our results indicated that B38V, which belongs to the B. mycoides species, has the potential to promote sunflower growth. The data obtained in this study provide additional information concerning the diversity of Gram‐positive diazotrophic within the genera Bacillus and Paenibacillus and their potential for the biofertilisation of sunflower crops.     

Determination of Toxigenic Potentials of <Emphasis Type="Italic">Bacillus</Emphasis> Strains Isolated from <Emphasis Type="Italic">Okpehe</Emphasis>, a Nigerian Fermented Condiment

The toxigenic potential of Bacillus species isolated from the traditional fermented condiment okpehe was determined; this is aimed at selection of non-toxigenic bacilli as starter cultures to bring about production of safe product. B. subtilis and B. cereus strains isolated from okpehe were evaluated for their possible possession of virulence characteristics. Fifty isolates were screened for their ability to produce diarrhoea enterotoxin by reversed passive latex agglutination (BCET-RPLA) test kit; the result showed that 40% of the B. cereus strains were toxigenic. The ability of the selected isolates to compete in situ and in vitro toxin production during the fermentation was also determined. The enterotoxin was not detected using BCET-RPLA kit in the spontaneously fermented samples of okpehe, but the toxin was detected in the okpehe samples fermented using B. cereus enterotoxin producer in mixed starter culture fermentation. The PCR amplification of virulence genes revealed that Bacillus cereus and B. licheniformis, a strain from the B. subtilis group, contained DNA sequences encoding the haemolysin BL (hblD) enterotoxin complex. The growth ability of B. cereus strains to high population during the fermentation and the presence of detectable diarroheagenic genes in B. cereus and B. licheniformis showed that strains carrying virulence characteristics cannot be totally ruled out in traditionally fermented okpehe.     

In vitro probiotic and safety attributes of Bacillus spp. isolated from beebread,honey samples and digestive tract of honeybees Apis mellifera

Bacillus species isolated from honeybee Apis mellifera gut, honey and bee bread samples were characterized for their in vitro probiotic and safety attributes. Alpha and γ haemolytic cultures were tested for their antibiotic resistance, antibacterial spectrum, acid and bile tolerance, adhesion ability (auto-aggregation, co-aggregation and hydrophobicity) and phenol tolerance. Safety criteria included evaluation of virulence genes and cytotoxicity percentages. Bacillus isolates inhibited both Gram-positive and Gram-negative pathogens including Staphylococcus aureus, Pseudomonas aeruginosa, Enterococcus faecalis and Streptococcus mutans, while none could inhibit Listeria monocytogenes. Among the isolates, Bacillus subtilis ZH05, ZB03 and ZG025 showed resistance to most of the tested antibiotics and were considered unsafe. B. subtilis (4) and B. licheniformis (1) tolerated acidic pH and bile conditions, never the less were more tolerant in simulated intestinal conditions vis-a-vis gastric conditions. In 0·5% phenol concentrations, B. licheniformis ZH02 showed highest growth, while, B. subtilis ZG029 demonstrated highest auto-aggregation (65 ± 4·6) and hydrophobicity (23 ± 3·6) percentages (P < 0·05). The isolates lacked virulence genes (hblA, hblC, hblD, nhe, cytK and ces), and their cytotoxic percentage on Caco-2 cell lines was ˂15%. Overall, honeybees appear to be a good source of Bacillus species exhibiting typical in vitro probiotic properties, which could be of commercial interest.     

Mechanisms of biofilm formation in paper machine by Bacillus species: the role of Deinococcus geothermalis

Mechanisms for the undesired persistence of Bacillus species in paper machine slimes were investigated. Biofilm formation was measured for industrial Bacillus isolates under paper machine wet-end-simulating conditions (white water, pH 7, agitated at 45°C for 1–2 days). None of the 40 tested strains of seven Bacillus species formed biofilm on polished stainless steel or on polystyrene surfaces as a monoculture. Under the same conditions, Deinococcus geothermalis E50051 covered all test surfaces as a patchy thick biofilm. The paper machine bacilli, however, formed mixed biofilms with D. geothermalis E50051 as revealed by confocal microscopy. Biofilm interactions between the bacilli and the deinococci varied from synergism to antagonism. Synergism in biofilm formation of D. geothermalis E50051 was strongest with Bacillus coagulans D50192, and with the type strains of B. coagulans, B. amyloliquefaciens or B. pumilus. Two B. licheniformis, one B. amyloliquefaciens, one B. pumilus and four B. cereus strains antagonized biofilm production by D. geothermalis. B. licheniformis D50141 and the type strain of B. licheniformis were the strongest antagonists. These bacteria inhibited deinococcal growth by emitting heat-stable, methanol-soluble metabolite(s). We conclude that the persistence of Bacillus species in paper machine slimes relates to their ability to conquer biofilms formed by primary colonizers, such as D. geothermalis. Journal of Industrial Microbiology & Biotechnology (2001) 27, 343–351. Received 17 April 2001/ Accepted in revised form 16 July 2001     

Photo‐inactivation of Bacillus endospores: inter‐specific variability of inactivation efficiency

The aims of this work were to (a) evaluate the susceptibility of endospores of Bacillus cereus, B. licheniformis, B. sphaericus and B. subtilis to photodynamic inactivation using a tricationic porphyrin as photosensitizer, (b) assess the efficiency of adsorption of the photosensitizer in endospore material as a determinant of the susceptibility of endospores of different Bacillus species to photo‐inactivation, (c) determine the value of B. cereus as a model organism for studies of antimicrobial photodynamic inactivation of bacterial endospores. The results of irradiation experiments with endospores of four species of Bacillus showed that B. cereus was the only species for which efficient endospore photo‐inactivation (> 3 log reduction) could be achieved. Endospores of B. licheniformis, B. sphaericus and B. subtilis were virtually resistant to photo‐inactivation with tricationic porphyrin. The amount of porphyrin bound to endospore material was not significantly different between species, regardless of the presence of an exosporium or exosporium‐like outer layer. The sensitivity of endospores to photodynamic inactivation with a tricationic porphyrin is highly variable among different species of the genus Bacillus. The presence of an exosporium in endospores of B. cereus and B. sphaericus, or an exosporium‐like glycoprotein layer in endospores of B. subtilis, did not affect the amount of bound photosensitizer and did not explain the inter‐species variability in susceptibility to photodynamic inactivation. The results imply that the use of B. cereus as a more amenable surrogate of the exosporium‐producing B. anthracis must be carefully considered when testing new photosensitizers for their antimicrobial photo‐inactivation properties.     

Two acidothermotolerant lipases from new variants of Bacillus spp.

Two acidothermotolerant lipases from new isolates of Bacillus stearothermophilus SB-1 and Bacillus licheniformis SB-3 are reported. In addition, a thermotolerant, neutral lipase from Bacillus atrophaeus SB-2 that hydrolyses castor oil is also reported. The lipase from B. stearothermophilus SB-1 retained 70% activity and that from B. licheniformis SB-3 retained 50% activity at pH 3.0 at 50 °C. In addition, at 100 °C B. stearothermophilus SB-1 lipase had a half life of 25 min at pH 3.0 and 15 min at pH 6.0. Lipase activity was markedly stimulated by glycerol in case of B. stearothermophilus SB-1 and by diethylether in cases of B. atrophaeus SB-2 and B. licheniformis SB-3. The lipases varied in their substrate specificity towards triacylglycerols. The rate of hydrolysis of neem oil with B. stearothermophilus SB-1 and B. atrophaeus SB-2 lipases was, respectively, nearly 4-fold and 2-fold more than with olive oil.     

Speciation of <Emphasis Type="Italic">Bacillus</Emphasis> spp. in honey produced in Northern Ireland by employment of 16S rDNA PCR and automated DNA sequencing techniques

Phenotypic speciation of foodborne Bacillus spp. remains problematic in terms of obtaining a reliable identification. In this study, we wished to identify several bacterial isolates from honey produced in Northern Ireland, and which belonged to the genus Bacillus, through employment of a molecular identification scheme based on PCR amplification of universal regions of the 16S rRNA operon in combination with direct automated sequencing of the resulting amplicons. Seven samples of honey and related materials (propolis) were examined microbiologically and were demonstrated to have total viable counts (TVC) ranging from <100 to 1700 colony-forming units/g. No yeasts or filamentous fungi were isolated from the honey materials. Several bacterial isolates were identified using this method, yielding two different genera (Paenibacillus and Bacillus), as well as four Bacillus species, namely Bacillus pumilus, B. licheniformis, B. subtilis and B. fusiformis, with B. pumilus the most frequently identified species present. When the use of molecular identification methods is justified, employment of partial 16S rDNA PCR and sequencing provides a valuable and reliable method of identification of Bacillus spp. from foodstuffs and negates associated problems of conventional laboratory and phenotypic identification.     

Bacillus atrophaeus: main characteristics and biotechnological applications – a review

The genus Bacillus includes a great diversity of industrially important strains, including Bacillus atrophaeus (formerly Bacillus subtilis var. niger). This spore-forming bacterium has been established as industrial bacteria in the production of biological indicators for sterilization, in studies of biodefense and astrobiology methods as well as disinfection agents, in treatment evaluation and as potential adjuvants or vehicles for vaccines, among other applications. This review covers an overview of the fundamental aspects of the B. atrophaeus that have been studied to date. Although the emphasis is placed on recent findings, basic information’s such as multicellularity and growth characteristics, spore structure and lifecycle are described. The wide biotechnological application of B. atrophaeus spores, including vegetative cells, is briefly demonstrated, highlighting their use as a biological indicator of sterilization or disinfection.     

Cold-adapted Bacilli isolated from the Qinghai–Tibetan Plateau are able to promote plant growth in extreme environments

Nearly 1400 Bacillus strains growing in the plant rhizosphere were sampled from different sites on the Qinghai–Tibetan Plateau. Forty-five of the isolates, selected due to their biocontrol activity, were genome-sequenced and their taxonomic identification revealed that they were representatives of the Bacillus subtilis species complex (20) and the Bacillus cereus group (9). Majority of the remaining strains were found closely related to Bacillus pumilus, but their average nucleotide identity based on BLAST and electronic DNA/DNA hybridization values excluded closer taxonomic identification. A total of 45 different gene clusters involved in synthesis of secondary metabolites were detected by mining the genomes of the 45 selected strains. Except eight mesophilic strains, the 37 remaining strains were found either cold-adapted or psychrophilic, able to propagate at 10°C and below (Bacillus wiedmannii NMSL88 and Bacillus sp. RJGP41). Pot experiments performed at 10°C with winter wheat seedlings revealed that cold-adapted representatives of B. pumilus, B. safensis and B. atrophaeus promoted growth of the seedlings under cold conditions, suggesting that these bacilli isolated from a cold environment are promising candidates for developing of bioformulations useful for application in sustainable agriculture under environmental conditions unfavourable for the mesophilic bacteria presently in use.     

Selecting Bacterial Strains for Use in the Biocontrol of Diseases Caused by <Emphasis Type="Italic">Phytophthora capsici</Emphasis> and <Emphasis Type="Italic">Alternaria alternata</Emphasis> in Sweet Pepper Plants

More than 500 isolates of bacteria were obtained from the aerial part and rhizosphere of sweet pepper (Capsicum annuum L.) plants harvested from different places in the Region of Murcia (Spain). The isolates were purified and assayed in vitro against Phytophthora capsici and Alternaria alternata. Sixty isolates (12 %) produced an inhibition zone against at least one of the pathogens, while ten had a strongly inhibitory effect on both pathogens assayed. Microscopic observation of interactions zone showed cell vacuolisation, hyphae lysis and spilling of cytoplasm content of the pathogens in the culture media. These ten isolates were then chosen for biocontrol of Phytophthora root rot and Alternaria leaf spots of pepper plants in vivo. Four of them denominated HS93, LS234, LS523 and LS674 reduced P. capsici root rot by 80, 51, 49 and 54 %, respectively, and A. alternata leaf spots by 54, 74, 62 and 53 %. HS93 belongs to the genus Bacillus and probably the species subtilis, while LS234, LS523 and LS674 belong to the genus Bacillus and probably the species licheniformis. Dry mass of plants treated with these bacteria was significantly higher than that of non-treated and inoculated plants.     

Phenotyping using semi-automated BIOLOG and conventional PCR for identification of Bacillus isolated from biofilm of sink drainage pipes

The presence of Bacillus in natural biofilms which develop in sink drainage pipes is not widely studied. Therefore, the main aim of this study was to isolate and identify Bacillus spp. using the BIOLOG GEN III system as a phenotypic fingerprint and polymerase chain reaction (PCR). A total of 61 biofilms samples were collected from sink drainage pipes in a kitchen and bathroom of different households in Helwan area and both laboratory and hospital collected from National Research Centre (NRC). Bacillus was isolated from the biofilms using HiCrome Bacillus Agar followed by isolates identification by both BIOLOG to the species level and PCR using genus specific primers to the genera level. Bacillus was detected in all tested biofilm samples (61 samples). The highest counts were observed in hospital sink drainage pipes (10⁵?CFU/10?cm²) while; the lowest counts were observed in both bathroom and laboratory sink drainage pipes (10²?CFU/10 cm^?2). In total, 61% Bacillus isolates were identified by BIOLOG while, 67% isolates were confirmed by PCR. The diversity of Bacillus among species level using BIOLOG were 34% B. cereus, 23% B. subtilis ss subtilis, 17% B. thuringiensis, 16% B. licheniformis and 13% B. amyloliquefaciens. It can be concluded that; PCR is more sensitive than BIOLOG for identification of Bacillus. However, BIOLOG can identify Bacillus at species level and test 94 carbon and chemical sources on a microplate in one shot. Thus, the combination between phenotyping by BIOLOG and molecular approaches such as PCR for identification of bacterial isolates is recommended.     

Diversity of bacteria of the genus Bacillus on board of international space station

From swabs of surfaces of equipment and air samples of the Russian segment of the International Space Station, nine strains of spore-forming bacteria of the genus Bacillus belonging to the species B. pumilus, B. licheniformis, B. subtilis, B. megaterium, and B. amyloliquefaciens were isolated. The last species of bacilli on the equipment of RS ISS was detected for the first time. For these species of bacilli, there are known strains that can be opportunistic to humans, and their metabolites can cause biodegradation of equipment and materials. B. pumilus found on ISS belongs to the group of bacteria that exhibits a particularly high resistance to adverse environmental conditions, such as dehydration, ultraviolet and gamma radiation, and chemical disinfection.     

Genomic Analysis and Comparative Hexavalent Chromium Reduction Potential of Predominant Bacillus species Isolated from Chromite Mine Soil

Ten predominant bacteria (CSB 1-10), isolated from chromite mine soil of Sukinda, Odisha, were characterized by means of biochemical and 16S rRNA gene sequencing. All of the bacterial isolates were Gram-positive, spore-forming, and motile rods with diameter ranging from 1.57–2.79 μm and identified as Bacillus species. Based on 16S rRNA gene sequencing and phylogenetic tree construction, 10 Bacillus species were grouped into two clusters: Bacillus subtilis cluster with four species (two of B. amyloliquefaciens, and one each of B. tequilensis and B. mojavensis); and Bacillus cereus cluster containing six species of B. cereus. Secondary rRNA structure predicted for all 10 bacteria using 16S rRNA sequences revealed some degree of genetic variations among the species. Among the isolated bacteria, CSB-9 was found to be the most efficient chromate reducing strain (0.8 × 10^?4 mg mg^?1 h^?1) in comparison to the others. Chromate reduction of the bacteria was associated with the contribution of extracellular enzyme production, and highest enzyme activity (0.9 ± 0.09 U mL^?1) was observed in CSB-9 (B. amyloliquefaciens). The present study revealed the dominance of Bacillus species in the chromite mine soil and their potential for bioremediation of hexavalent chromium from the polluted environments.