Project description:Bacillus halodurans C-125 is an alkaliphilic microorganism that grows best at pH 10 to 10.5. B. halodurans C-125 harbors the erm (erythromycin resistance methylase) gene as well as the mphB (macrolide phosphotransferase) and putative mef (macrolide efflux) genes, which confer resistance to macrolide, lincosamide, and streptogramin B (MLSB) antibiotics. The Erm protein expressed in B. halodurans C-125 could be classified as ErmK because it shares 66.2% and 61.2% amino acid sequence identity with the closest ErmD and Erm(34), respectively. ErmK can be regarded as a dimethylase, as evidenced by reverse transcriptase analysis and the antibiotic resistance profile exhibited by E. coli expressing ermK. Although ErmK showed one-third or less in vitro methylating activity compared to ErmC', E. coli cells expressing ErmK exhibited comparable resistance to erythromycin and tylosin, and a similar dimethylation proportion of 23S rRNA due to the higher expression rate in a T7 promoter-mediated expression system. The less efficient methylation activity of ErmK might reflect an adaption to mitigate the fitness cost caused by dimethylation through the Erm protein presumably because B. halodurans C-125 has less probability to encounter the antibiotics in its favorable growth conditions and grows retardedly in neutral environments. IMPORTANCE Erm proteins confer MLSB antibiotic resistance (minimal inhibitory concentration [MIC] value up to 4,096 μg/mL) on microorganisms ranging from antibiotic producers to pathogens, imposing one of the most pressing threats to clinics. Therefore, Erm proteins have long been speculated to be plausible targets for developing inhibitor(s). In our laboratory, it has been noticed that there are variations in enzymatic activity among the Erm proteins, Erm in antibiotic producers being better than that in pathogens. In this study, it has been observed that Erm protein in B. halodurans C-125 extremophile is a novel member of Erm protein and acts more laggardly, compared to that in pathogen. While this sluggishness of Erm protein in extremophile might be evolved to reduce the fitness cost incurred by Erm activity adapting to its environments, this feature could be exploited to develop the more potent and/or efficacious drug to combat formidably problematic antibiotic-resistant pathogens.

Project description:Fifteen kinds of new insertion sequences (ISs), IS641 to IS643, IS650 to IS658, IS660, IS662, and IS663, and a group II intron (Bh.Int) were identified in the 4,202,352-bp genome of alkaliphilic Bacillus halodurans C-125. Out of 120 ISs identified in the C-125 genome, 29 were truncated, indicating the occurrence of internal rearrangements of the genome. The ISs other than IS650, IS653, IS660, and IS663 generated a 2- to 9-bp duplication of the target site sequence, and the ISs other than IS650, IS653, and IS657 carry 14- to 64-bp inverted repeats. Sequence analysis revealed that six kinds of ISs (IS642, IS643, IS654, IS655, IS657, and IS658) belong to a separate IS family (IS630, IS21, IS256, IS3, IS200/IS605, and IS30, respectively) as a new member. Also, IS651 and IS652 were characterized as new members of the ISL3 family. Significant similarity was found between the transposase (Tpase) sequences between IS650 and IS653 (78.2%), IS651 and IS652 (56.3%), IS656 and IS662 (71.0%), and IS660 and IS663 (44.5%), but the others showed no similarity to one another. Tpases in 28 members of IS651 in the C-125 genome were found to have become diversified. Most of the IS elements widely distributed throughout the genome were inserted in noncoding regions, although some genes, such as those coding for an ATP-binding cassette transporter/permease, a response regulator, and L-indole 2-dehydrogenase, have been mutated through the insertion of IS elements. It is evident, however, that not all IS elements have transposed and caused rearrangements of the genome in the past 17 years during which strain C-125 was subcultured under neutral and alkaline conditions.

Project description:OLE RNA (Ornate, Large, Extremophilic RNA) is a large, noncoding RNA from extremophilic and/or anaerobic Firmicutes that binds to an integral membrane protein (OAP, OLE-Associated Protein) and localizes to the cell membrane. It is highly abundant in cells, and knockouts show increased sensitivity to short-chain alcohols, especially ethanol. We treated Bacillus halodurans C-125 cells (both wild-type and OLE-OAP knockouts) with 5% (v/v) ethanol for 3 hours to determine differences in their response to this stress. There are almost no significant differences between cells before ethanol stress, while after ethanol stress a small number (~40) genes show differences in expression between the two strains. These genes show little connection between their function, however, leading us to conclude that the majority of differential adaptation in kncokouts may occur at an earlier time or at the post-trancriptional level. These data also serve as a reference for a Gram-positive alkaliphile's response to acute ethanol stress.

Project description:BH1115 is a gene from Bacillus halodurans strain C-125 that hypothetically encodes a rhamnogalacturonan acetyl esterase (RGAE) of the CE-12 family. As confirmation, this gene was cloned, and the product was expressed in Escherichia coli strain Rosetta (DE3) cells and purified. The enzyme obtained was monomeric, with a molecular mass of 45 kDa, and exhibited alkaliphilic properties. A study of the inhibition of the activity by some modulators confirmed that the catalytic triad for the esterase activity was Ser-His-Asp. This enzyme also presents broad substrate specificity and is active toward 7-aminocephalosporanic acid, cephalosporin C, p-nitrophenyl acetate, beta-naphthyl acetate, glucose pentaacetate, and acetylated xylan. Moreover, RGAE from B. halodurans achieves a synergistic effect with xylanase A toward acetylated xylan. As a member of the SGNH family, it does not adopt the common alpha/beta hydrolase fold. The homology between the folds of RGAE from Aspergillus aculeatus and the hypothetical YxiM precursor from Bacillus subtilis, which both belong to the SGNH family, illustrates the divergence of such proteins from a common ancestor. Furthermore, the enzyme possesses a putative substrate binding region at the N terminus of the protein which has never been described to date for any RGAE.

Project description:OLE RNA (Ornate, Large, Extremophilic RNA) is a large, noncoding RNA from extremophilic and/or anaerobic Firmicutes that binds to an integral membrane protein (OAP, OLE-Associated Protein) and localizes to the cell membrane. It is highly abundant in cells, and knockouts show increased sensitivity to short-chain alcohols, especially ethanol. We treated Bacillus halodurans C-125 cells (both wild-type and OLE-OAP knockouts) with 5% (v/v) ethanol for 3 hours to determine differences in their response to this stress. There are almost no significant differences between cells before ethanol stress, while after ethanol stress a small number (~40) genes show differences in expression between the two strains. These genes show little connection between their function, however, leading us to conclude that the majority of differential adaptation in kncokouts may occur at an earlier time or at the post-trancriptional level. These data also serve as a reference for a Gram-positive alkaliphile's response to acute ethanol stress. Examination of wild-type and OLE-OAP knockout cells before and after ethanol stress, in duplicate (8 samples total)

Project description:Alkaliphilic organism used in the industrial production of ß-galactosidase and xylanase

Project description:The 4 202 353 bp genome of the alkaliphilic bacterium Bacillus halodurans C-125 contains 4066 predicted protein coding sequences (CDSs), 2141 (52.7%) of which have functional assignments, 1182 (29%) of which are conserved CDSs with unknown function and 743 (18. 3%) of which have no match to any protein database. Among the total CDSs, 8.8% match sequences of proteins found only in Bacillus subtilis and 66.7% are widely conserved in comparison with the proteins of various organisms, including B.subtilis. The B. halodurans genome contains 112 transposase genes, indicating that transposases have played an important evolutionary role in horizontal gene transfer and also in internal genetic rearrangement in the genome. Strain C-125 lacks some of the necessary genes for competence, such as comS, srfA and rapC, supporting the fact that competence has not been demonstrated experimentally in C-125. There is no paralog of tupA, encoding teichuronopeptide, which contributes to alkaliphily, in the C-125 genome and an ortholog of tupA cannot be found in the B.subtilis genome. Out of 11 sigma factors which belong to the extracytoplasmic function family, 10 are unique to B. halodurans, suggesting that they may have a role in the special mechanism of adaptation to an alkaline environment.

Project description:Teichuronopeptide is a structural component of the cell wall of alkalophilic Bacillus strain C-125 and is a complex composed of polyglutamate and polyglucuronate. A structural analysis of the polyglucuronic acid moiety was carried out. Periodate oxidation and Smith degradation of the moiety, and enzymic analysis after reduction of glucuronic acid to glucose, revealed that glucuronic acid bound together with alternately alpha- and beta-1,4-linkages.

Project description:This study was conducted to isolate an acid-producing, alkaliphilic bacterium to reduce the alkalinity of cement industry waste (cement kiln dust). Gram-positive isolate KG1 grew well at pH values of 6-12, temperatures of 28-50°C, and NaCl concentrations of 0-16% and thus was further screened for its potential to reduce the pH of an alkaline medium. Phenotypic characteristics of the KG1 isolate were consistent with those of the genus Bacillus, and the highest level of 16S rRNA gene sequence similarity was found with Bacillus halodurans strain DSM 497 (94.7%). On the basis of its phenotypic characteristics and genotypic distinctiveness from other phylogenetic neighbors belonging to alkaliphilic Bacillus species, the isolated strain was designated B. halodurans strain KG1, with GenBank accession number JQ307184 (= NCIM 5439). Isolate KG1 reduced the alkalinity (by 83.64%) and the chloride content (by 86.96%) of cement kiln dust and showed a potential to be used in the cement industry for a variety of applications.

Project description:OLE RNAs represent an unusual class of bacterial noncoding RNAs common in Gram-positive anaerobes. The OLE RNA of the alkaliphile Bacillus halodurans is highly expressed and naturally interacts with at least two RNA-binding proteins called OapA and OapB. The phenotypes of the corresponding knockouts include growth inhibition when exposed to ethanol or other short-chain alcohols or when incubated at modestly reduced temperatures (e.g. 20°C). Intriguingly, the OapA 'PM1' mutant, which carries two amino acid changes to a highly conserved region, yields a dominant-negative phenotype that causes more severe growth defects under these same stress conditions. Herein, we report that the PM1 strain also exhibits extreme sensitivity to elevated Mg2+ concentrations, beginning as low as 2 mM. Suppressor mutants predominantly map to genes for aconitate hydratase and isocitrate dehydrogenase, which are expected to alter cellular citrate concentrations. Citrate reduces the severity of the Mg2+ toxicity phenotype, but neither the genomic mutations nor the addition of citrate to the medium overcomes ethanol toxicity or temperature sensitivity. These findings reveal that OLE RNA and its protein partners are involved in biochemical responses under several stress conditions, wherein the unusual sensitivity to Mg2+ can be independently suppressed by specific genomic mutations.