The Bacillus subtilis Gne (GneA, GalE) protein can catalyse UDP-glucose as well as UDP-N-acetylglucosamine 4-epimerisation.

Mutations in the Bacillus subtilis gene that affect the activity of the uridine diphosphate (UDP)-N-acetylglucosamine (GlcNAc) 4-epimerase (EC 5.1.3.7) were shown to map to galE, the structural gene of the UDP-glucose (Glc) 4-epimerase (EC 5.1.3.2). This genetic evidence that the same enzyme can catalyse the epimerisation of hexoses as well as of their N-acetylated forms is confirmed by in vitro assays with purified enzyme. It appears that in B. subtilis, Gne (GneA, GalE) is involved in two distinct and essential functions, i.e., cell detoxification under certain growth conditions and the biosynthesis of anionic cell wall polymers. We discuss the evidence that such enzymes capable of utilizing both UDP-hexoses and UDP-N-acetylhexosamines are present in other organisms.

Bacillus subtilis alpha-phosphoglucomutase is required for normal cell morphology and biofilm formation.

Mutations designated gtaC and gtaE that affect alpha-phosphoglucomutase activity required for interconversion of glucose 6-phosphate and alpha-glucose 1-phosphate were mapped to the Bacillus subtilis pgcA (yhxB) gene. Backcrossing of the two mutations into the 168 reference strain was accompanied by impaired alpha-phosphoglucomutase activity in the soluble cell extract fraction, altered colony and cell morphology, and resistance to phages phi29 and rho11. Altered cell morphology, reversible by additional magnesium ions, may be correlated with a deficiency in the membrane glycolipid. The deficiency in biofilm formation in gtaC and gtaE mutants may be attributed to an inability to synthesize UDP-glucose, an important intermediate in a number of cell envelope biosynthetic processes.

Analysis of teichoic acid biosynthesis regulation reveals that the extracytoplasmic function sigma factor sigmaM is induced by phosphate depletion in Bacillus subtilis W23.

The expression of the Bacillus subtilis W23 tar genes specifying the biosynthesis of the major wall teichoic acid, the poly(ribitol phosphate), was studied under phosphate limitation using lacZ reporter fusions. Three different regulation patterns can be deduced from these beta-galactosidase activity data: (i) tarD and tarL gene expression is downregulated under phosphate starvation; (ii) tarA and, to a minor extent, tarB expression after an initial decrease unexpectedly increases; and (iii) tarO is not influenced by phosphate concentration. To dissect the tarA regulatory pattern, its two promoters were analysed under phosphate limitation: The P(tarA)-ext promoter is repressed under phosphate starvation by the PhoPR two-component system, whereas, under the same conditions, the P(tarA)-int promoter is upregulated by the action of an extracytoplasmic function (ECF) sigma factor, sigma(M). In contrast to strain 168, sigma(M) is activated in strain W23 in phosphate-depleted conditions, a phenomenon indirectly dependent on PhoPR, the two-component regulatory system responsible for the adaptation to phosphate starvation. These results provide further evidence for the role of sigma(M) in cell-wall stress response, and suggest that impairment of cell-wall structure is the signal activating this ECF sigma factor.

Bacillus subtilis bacteriophage SPP1 hexameric DNA helicase, G40P, interacts with forked DNA.

SPP1-encoded replicative DNA helicase gene 40 product (G40P) is an essential product for phage replication. Hexameric G40P, in the presence of AMP-PNP, preferentially binds unstructured single-stranded (ss)DNA in a sequence-independent manner. The efficiency of ssDNA binding, nucleotide hydrolysis and the unwinding activity of G40P are affected in a different manner by different nucleotide cofactors. Nuclease protection studies suggest that G40P protects the 5' tail of a forked molecule, and the duplex region at the junction against exonuclease attack. G40P does not protect the 3' tail of a forked molecule from exonuclease attack. By using electron microscopy we confirm that the ssDNA transverses the centre of the hexameric ring. Our results show that hexameric G40P DNA helicase encircles the 5' tail, interacts with the duplex DNA at the ss-double-stranded DNA junction and excludes the 3' tail of the forked DNA.

Nodulação e rendimento de soja co-infectada com Bacillus Subtilis e Bradyrhizobium Japonicum / Bradyrhizobium Elkanii

O Bacillus subtilis pode favorecer o desempenho simbiótico do rizóbio, pelos efeitos na inibição de fitopatógenos ou pela exsudação de fitormônios. Com o objetivo de verificar a viabilidade da co-infecção de sementes de soja com Bradyrhizobium e Bacillus foram conduzidos três experimentos, no Paraná, em solos com população estabelecida de Bradyrhizobium, em que as estirpes de Bradyrhizobium SEMIA 5019 e SEMIA 5080 e suas variantes tolerantes aos metabólitos de Bacillus foram co-infectadas com duas estirpes de Bacillus (AP-3 e PRBS-1), ou seus metabólitos. Na safra 1993/94, em Londrina, o tratamento de co-inoculação de Bradyrhizobium com os metabólitos formulados de Bacillus incrementou, significativamente, em relação ao não-inoculado, o número de nódulos (59%, estádio V3), a ocupação dos nódulos pelas estirpes de Bradyrhizobium (76%, R2) e o rendimento de grãos (24%); em Ponta Grossa, esses incrementos foram de 60%, 145% e 22%, respectivamente. Nessa safra, em Londrina, a co-inoculação das variantes tolerantes com os metabólitos de Bacillus também aumentou o rendimento (26%) e N total (17%) dos grãos de soja e incrementos significativos foram constatados, na ocupação dos nódulos, pela co-inoculação das variantes tolerantes com as células de Bacillus (78%). Os resultados obtidos indicam a viabilidade da co-inoculação, em sementes de soja, de metabólitos brutos ou formulados ou, ainda, de células de Bacillus subtilis, para incrementar a contribuição do processo de fixação biológica do nitrogênio.

The Bacillus subtilis bacteriophage SPP1 G39P delivers and activates the G40P DNA helicase upon interacting with the G38P-bound replication origin.

Initiation of Bacillus subtilis bacteriophage SPP1 replication requires the phage-encoded genes 38, 39 and 40 products (G38P, G39P and G40P). G39P, which does not bind DNA, interacts with the replisome organiser, G38P, in the absence of ATP and with the ATP-activated hexameric replication fork helicase, G40P. G38P, which specifically interacts with the phage replication origin (oriL) DNA, does not seem to form a stable complex with G40P in solution. G39P when complexed with G40P-ATP inactivates the single-stranded DNA binding, ATPase and unwinding activities of G40P, and such effects are reversed by increasing amounts of G38P. Unwinding of a forked substrate by G40P-ATP is increased about tenfold by the addition of G38P and G39P to the reaction mixture. The specific protein-protein interactions between oriL-bound G38P and the G39P-G40P-ATPgammaS complex are necessary for helicase delivery to the SPP1 replication origin. Formation of G38P-G39P heterodimers releases G40P-ATPgammaS from the unstable oriL-G38P-G39P-G40P-ATPgammaS intermediate. G40P-ATPgammaS binds to the origin region, the uncomplexed G38P fraction remains bound to oriL, and the G38P-G39P heterodimer is lost from the complex. We demonstrate that G39P is a component of an oligomeric nucleoprotein complex which plays an important role in the initiation of SPP1 replication.

Study of chromosome rearrangements associated with the trpE26 mutation of Bacillus subtilis.

Chromosome rearrangements involved in the formation of merodiploid strains in the Bacillus subtilis 168-166 system were explained by postulating the existence of intrachromosomal homology regions. This working hypothesis was tested by analysing sequences and restriction patterns of the, as yet uncharacterized, junctions between chromosome segments undergoing rearrangements in parent, 168 trpC2 and 166 trpE26, as well as in derived merodiploid strains. Identification, at the Ia/Ib chromosome junction of both parent strains, of a 1.3 kb segment nearly identical to a segment of prophage SPbeta established the existence of one of the postulated homology sequences. Inspection of relevant junctions revealed that a set of different homology regions, derived from prophage SPbeta, plays a key role in the formation of so-called trpE30, trpE30+, as well as of new class I merodiploids. Analysis of junctions involved in the transfer of the trpE26 mutation, i.e. simultaneous translocation of chromosome segment C and rotation of the terminal relative to the origin moiety of the chromosome, did not confirm the presence of any sequence suitable for homologous recombination. We propose a model involving simultaneous introduction of four donor DNA molecules, each comprising a different relevant junction, and their pairing with the junction regions of the recipient chromosome. The resolution of this structure, resting on homologous recombination, would confer the donor chromosome structure to the recipient, achieving some kind of 'transstamping'. In addition, a rather regular pattern of inverse and direct short sequence repeats in regions flanking the breaking points could be correlated with the initial, X-ray-induced, rearrangement.

The complete genome sequence of the gram-positive bacterium Bacillus subtilis.

Bacillus subtilis is the best-characterized member of the Gram-positive bacteria. Its genome of 4,214,810 base pairs comprises 4,100 protein-coding genes. Of these protein-coding genes, 53% are represented once, while a quarter of the genome corresponds to several gene families that have been greatly expanded by gene duplication, the largest family containing 77 putative ATP-binding transport proteins. In addition, a large proportion of the genetic capacity is devoted to the utilization of a variety of carbon sources, including many plant-derived molecules. The identification of five signal peptidase genes, as well as several genes for components of the secretion apparatus, is important given the capacity of Bacillus strains to secrete large amounts of industrially important enzymes. Many of the genes are involved in the synthesis of secondary metabolites, including antibiotics, that are more typically associated with Streptomyces species. The genome contains at least ten prophages or remnants of prophages, indicating that bacteriophage infection has played an important evolutionary role in horizontal gene transfer, in particular in the propagation of bacterial pathogenesis.

Common snook fed in alternate and continuous regimens with diet supplemented with Bacillus subtilis probiotic

The objective of this work was to evaluate the addition of Bacillus subtilis probiotic to the feed of common snook (Centropomus undecimalis) fingerlings, in alternate and continuous regimens. Six hundred and sixty fish, with average length of 5.90±0.88 cm and weight of 1.92±0.28 g, were stocked in 12 cages of 1.0 m3, with 55 fish each. The experimental design was completely randomized, with three treatments and four replicates. The treatments consisted of diet with the addition of probiotic, provided in alternate regimen for 7 days and in continuous regimen; besides a control without probiotic in the feed. Zootechnical performance, body composition, immune response, and blood parameters were evaluated. No significant differences were observed in zootechnical performance indexes and in body composition of fish treated with probiotic, when compared to the control. Fish from the alternate regimen showed an increment in respiratory burst and a lower total erythrocyte count than fish from the continuous regimen and the control. Fish from the continuous regimen did not differ from those of the control. The addition of Bacillus subtilis does not increase growth rates of common snook fingerlings; however, it has an immunostimulant action when supplied in alternate regimen.

Control of Guignardia citricarpa by Bacillus subtilis and Trichoderma spp.

The ability of isolates of Bacillus subtilis and Trichoderma spp. to control citrus black spot (CBS) was investigated in ´Natal´ sweet orange orchards. The first experiment was conducted during the 2001/2002 season and four isolates of B. subtilis (ACB-AP3, ACB-69, ACB-72 and ACB-77), applied every 28 days, alone or in combination were tested and compared with fungicide treatments. Two other experiments were carried out during the 2002/2003 season, where the same isolates of Bacillus and two isolates of Trichoderma (ACB-14 and ACB-40) were tested being applied every 28 days in the second experiment, and every 15 days in the third experiment. In the first experiment, the treatment with ACB-69 differed statistically from the control, but did not differ from other biological control agents or mixture of Bacillus isolates. In the second experiment, the treatments with ACB-69 and ACB-AP3 resulted in smaller disease index compared with the control treatment. However, this result was not repeated in the third experiment, where the isolates were applied every 15 days. Disease severity was high in both evaluated seasons and the fungicide treatment was the most effective for disease control.

Avaliação de microrganismos antagônicos, Saccharomyces cerevisiae e Bacillus subtilis para o controle de Penicillium digitatum

Os frutos cítricos são afetados por diversas doenças, especialmente as fúngicas, as quais afetam a produtividade e a qualidade, principalmente quando se visa ao mercado de frutas frescas, seja para o mercado interno, seja para a exportação. Dentre as doenças fúngicas que ocorrem na fase de pós-colheita, destaca-se o bolor verde, causado por Penicillium digitatum. As medidas de controle baseiam-se, principalmente, no tratamento de frutos com diferentes combinações de fungicidas no packing-house. Devido às restrições quanto à presença de resíduos de fungicidas em frutos de citros e ao crescente desenvolvimento de linhagens resistentes dos patógenos a tais fungicidas, torna-se necessária a busca de alternativas de controle, como o controle biológico. Portanto, este trabalho teve por objetivos: (i) verificar o efeito antagônico de agentes de controle biológico (ACBs), sendo 06 isolados de Saccharomyces cerevisiae e 13 isolados de Bacillus subtilis contra P. digitatum; (ii) estudar as interações in vitro entre ACBs e o fitopatógeno; (iii) verificar o efeito da integração dos antagonistas com bicarbonato de sódio e cera de carnaúba no controle do bolor verde. Os resultados mostraram que a maioria dos isolados bacterianos e todos os isolados de levedura inibiram o crescimento micelial do fitopatógeno. Somente um isolado de Bacillus subtilis (ACB-84) foi capaz de inibir a germinação de P. digitatum com 72% de inibição, enquanto ACB-K1 e ACB-CR1 (S. cerevisiae) foram os mais eficientes com inibições de 78 e 85,7%, respectivamente; a adição de sacarose (a 0,5%) favoreceu ainda mais a inibição da germinação dos conídios pelos isolados da levedura. Os resultados de controle in vivo mostraram a viabilidade de S. cerevisiae ACB-K1 e ACB-CR1 para o controle de P. digitatum, em frutos de lima-ácida 'Tahiti' e laranja 'Hamlin', respectivamente; a associação de bicarbonato de sódio com agentes de biocontrole não resultou em melhorias no controle curativo do bolor verde; cera de carnaúba (18% de SST) favoreceu a atividade antagonística de S. cerevisiae, e tal efeito dependeu da variedade dos frutos cítricos em estudo e do isolado da levedura utilizado para o biocontrole.

Indução de resistência a doenças foliares em tomateiro por indutores biótico (Bacillus subtilis) e abiótico (Acibenzolar-S-Metil)

O objetivo deste trabalho foi investigar se doenças foliares do tomateiro (Lycopersicon esculentum) podem ser afetadas pela indução de resistência proporcionada pela aplicação de Bacillus subtilis, no solo e nas folhas e aplicação via foliar de acibenzolar-S-metil. A fim de investigar o modo de ação envolvido no controle foi avaliada a atividade de peroxidases nas folhas do tomateiro tratado com os indutores biótico e abiótico. Para se avaliar a severidade das doenças foliares foi avaliado o número de folhas de tomate com algum sintoma de doença e determinado o percentual de folhas doentes em relação ao total de folhas por planta. O aumento significativo da concentração de peroxidases nas plantas tratadas com os indutores, assim como a ausência de controle das doenças no tratamento com pulverização direta de B. subtilis nas folhas, são evidências que sugerem que o mecanismo de controle das doenças em questão está relacionado à resistência induzida.

Diversidad genética de aislamientos de Bacillus subtilis con potencial para el control biológico de Colletotrichum acutatum y Guignardia citricarpa

El sector citrícola enfrenta serios problemas representados por enfermedades en las flores y en frutos jóvenes que además de disminuir la productividad, devalúan los frutos por el aspecto que le dan a los mismos. Tales enfermedades están representadas, principalmente, por la mancha negra de los frutos cítricos (MNC) y por la caída prematura de los frutos cítricos (CPFC), donde la medida predominante de control es la pulverización con productos químicos. Entretanto, los costos financieros y ambientales de las aplicaciones con estés productos químicos, sumado a las crecientes restricciones de la presencia de residuos, están a exigir el estudio de nuevas alternativas de control. Entre estas, el control biológico surge como una alternativa importante. Estudios fueron anteriormente realizados, bajo condiciones de laboratorio y de campo, con el objetivo de determinar la potencialidad de aislados de Bacillus subtilis en el control de las enfermedades mencionadas arriba, puesto que, uno aislado, el ACB-69 fue el que presentó la mejor eficiencia de control. Frente a lo anteriormente expuesto y, sabiendo que, el conocimiento de la biodiversidad de los seres es importante para la determinación de sus funciones potenciales, el presente proyecto de investigación tuvo como objetivo estudiar la diversidad genética, a través de marcadores moleculares AFLP, de 32 aislamientos de B. subtilis con la finalidad de se encontrar, dentro los mismos, uno (o más aislados) que presentase mayor semejanza con el ACB-69 y que cuando testado, bajo condiciones naturales de ocurrencia de las enfermedades, si puede encontrar similar control. En función de los resultados experimentales obtenidos, se concluyo que: (a) los aislados de B. subtilis estudiados se agruparon en el filograma de distancia genética, independiente de la procedencia o del huésped; (b) los aislados ACB-69 y ACB-83, con potencial para el control de la caída prematura de los frutos cítricos, comparten la misma ancestralidad, lo que puede ser evaluado por la metodología aplicada; c) en términos biológicos, el aislado ACB-83 merece mas estudios cuanto a la viabilidad de control de las enfermedades caída prematura de los frutos cítricos y de la mancha negra, bajo condiciones de campo.

Controle biológico da podridão radicular (Pythium aphanidermatum) e promoção de crescimento por Pseudomonas chlororaphis 63-28 e Bacillus subtilis GB03 em alface hidropônica

Podridões radiculares causadas por espécies de Pythium são um importante problema em cultivos hidropônicos. Sintomas de subdesenvolvimento são observados nas plantas parasitadas pelo patógeno, sendo muitas vezes não diagnosticados pelo produtor. O objetivo do trabalho foi avaliar o controle biológico da podridão radicular causada por Pythium aphanidermatum e a promoção de crescimento por Pseudomonas chlororaphis 63-28 e Bacillus subtilis GB03, reconhecidos agentes de controle biológico de doenças de plantas. A inoculação das plantas com P. aphanidermatum ocasionou o subdesenvolvimento, sendo essa diminuição de 20%. A adição dos agentes de biocontrole na solução nutritiva teve um efeito positivo no aumento da massa (6% a 13%), no número de folhas (4% a 7%) e no teor de clorofila (3%) das plantas de alface. Entretanto, maiores estudos devem ser realizados para melhorar a capacidade de controle da doença e de promoção de crescimento pelos agentes de biocontrole estudados no cultivo de alface hidropônica.

Antagonismo de Trichoderma SPP. E Bacillus subtilis (UFV3918) a Fusarium sambucinum em Pinus elliottii engelm

Pinus elliottii é uma espécie de importância no setor florestal e apresenta vulnerabilidade na qualidade sanitária de suas sementes, especialmente pela associação de Fusarium spp., responsável por perdas de plântulas no viveiro. Este trabalho teve como objetivo avaliar a ação antagonista in vitro e in vivo dos agentes Trichoderma spp. e Bacillus subtilis (UFV3918) no controle de Fusarium sambucinum, responsável por danos em plântulas de Pinus elliottii. O controle in vitro foi avaliado através da inibição do crescimento micelial (confronto pareado de culturas), após a incubação a 25±2 ºC e fotoperíodo de 12 h. Para os testes in vivo (desenvolvidos em condições de viveiro), as sementes inicialmente foram inoculadas com o patógeno e, na sequência, microbiolizadas com os agentes antagônicos, para posterior semeadura. Utilizaram-se as técnicas de contato com o biocontrolador em meio BDA por 48 h e peliculização, como formas de microbiolização. Tanto Trichoderma spp. quanto Bacillus subtilis (UFV3918) foram eficientes no controle in vitro de F. sambucinum, e no teste de biocontrole in vivo o produto Bacillus subtilis (UFV3918) destacou-se, reduzindo as perdas de plântulas causadas pelo patógeno, assim como potencializando as variáveis de comprimento de plântula, massa verde e massa seca.