Food science and biotechnology

Frontiers in microbiology

Journal of environmental management

Microorganisms

Journal of microbiology and biotechnology

Applied microbiology and biotechnology

Molecular immunology

ultrasonics sonochemistry

probiotics and antimicrobial proteins

indian journal of microbiology

journal of animal science and biotechnology

Protein expression and purification

Comparative medicine

[1] sp. probiotic supplementation diminish the F4ac infection in susceptible weaned pigs by influencing the intestinal immune response, intestinal microbiota and blood metabolomics.

[2] Extracellular production of active-form Streptomyces mobaraensis transglutaminase in Bacillus subtilis.

[3] Antifungal Activities of Lipopeptides to Two Strains Possessing Different Tebuconazole Sensitivity.

[4] The Adaptive Morphology of Biofilms: A Defense Mechanism against Bacterial Starvation.

[5] Novel application of maghemite nanoparticles coated bacteria for the removal of cadmium from aqueous solution.

[6] Application of (super)cavitation for the recycling of process waters in paper producing industry.

[7] The Core Role of and in Pile-Fermentation Processing of Qingzhuan Brick Tea.

[8] Characterization and Quantitative Determination of a Diverse Group of Bacillus subtilis subsp. subtilis NCIB 3610 Antibacterial Peptides.

[9] optimization of the medium composition for production of antimicrobial substances by bacillus subtilis atcc 6633

[10] rodz and pgsa play intertwined roles in membrane homeostasis of bacillus subtilis and resistance to weak organic acid stress

[11] new functions and subcellular localization patterns of c-di-gmp components (ggdef domain proteins) in b. subtilis

[12] probiótico e/ou prebiótico sobre as características da leitegada e da matriz lactante probiotic and/or prebiotic on litter characteristics and sow breastfeeding

[13] aktivitas antibakteri ekstrak tempe terhadap bakteri bacillus subtilis dan staphylococcus aureus [antibacterial activity of tempe extracts on bacillus subtilis and staphylococcus aureus]

[14] augmenting iron accumulation in cassava by the beneficial soil bacterium bacillus subtilis (gbo3)

[15] quantitative and sensitive rna based detection of bacillus spores

[16] probiotic bacillus amyloliquefaciens c-1 improves growth performance, stimulates gh/igf-1, and regulates the gut microbiota of growth-retarded beef calves

[17] hongos causantes de enfermedades postcosecha en chayote (<i>sechium edule</i>(jacq.) sw.) y su control in vitro

[18] effect of bacillus subtilis microecological probiotics on livestock breeding

[19] biological control of phytophthora blight and anthracnose disease in red-pepper using bacillus subtilis s54

[20] editorial: spores and spore formers

[21] functional diversity of aaa+ protease complexes in bacillus subtilis

[22] controle alternativo de colletotrichum acutatum agente causal da queda prematura dos frutos cítricos alternative control of colletotrichum acutatum, causal agent of postbloom fruit drop of citrus

[23] role of a bacillus subtilis direct-fed microbial on digesta viscosity, bacterial translocation and bone mineralization in turkey poults fed with a rye-based diet

[24] a computational fluid dynamic (cfd) simulation of pm10 dispersion caused by rail transit construction activity: a real urban street canyon model

[25] study of the catalytic properties of bacillus subtilis proteases

[26] biological control of pythium ultimum and fusarium solani by indigenous strains bacillus subtilis

[27] Immunization of mice against alpha, beta, and epsilon toxins of Clostridium perfringens using recombinant rCpa-b-x expressed by Bacillus subtilis.

[28] Outbreaks of Typhlocolitis Caused by Hypervirulent Group ST1 in Highly Immunocompromised Strains of Mice.

[29] Elucidation of Mechanical, Physical, Chemical and Thermal Properties of Microbial Composite Films by Integrating Sodium Alginate with Bacillus subtilis sp.

[30] Purification and characterization of an α-l-arabinofuranosidase, α-l-AFase, for hydrolyzed ginsenoside Rc from Bacillus subtilis.

[31] Characterization of the antioxidant and anti-inflammatory properties of a polysaccharide-based bioflocculant from Bacillus subtilis F9.

[32] Induction of secondary metabolites from the marine-derived fungus Aspergillus versicolor through co-cultivation with Bacillus subtilis

[33] Structural analysis of the recognition of the -35 promoter element by SigW from Bacillus subtilis.

[34] The sensitivity of the Bacillus subtilis Xyn A xylanase and its mutants to different xylanase inhibitors determines their activity profile and functionality during bread making.

[35] Co-culture of Trichoderma atroviride SG3403 and Bacillus subtilis 22 improves the production of antifungal secondary metabolites

[36] Extracellular production of active-form Streptomyces mobaraensis transglutaminase in Bacillus subtilis.

[37] Biocontrol of the internalization of Salmonella enterica and Enterohaemorrhagic Escherichia coli in mung bean sprouts with an endophytic Bacillus subtilis.

[38] Development of a paper-based method to detect Hg in waste water using iturin from Bacillus subtilis.

[39] Ribosome Reconstruction during Recovery from High-Hydrostatic-Pressure-Induced Injury in Bacillus subtilis

[40] Release factor-dependent ribosome rescue by BrfA in the Gram-positive bacterium Bacillus subtilis

[41] Gageotetrins A-C, noncytotoxic antimicrobial linear lipopeptides from a marine bacterium bacillus subtilis

[42] Growth optimization of Bacillus subtilis 11A isolated from Indonesian native chicken (Gallus domesticus) for bacteriocin production

[43] Molecular disparities among Botrytis species involved in onion umbel blight disease and its management using Bacillus subtilis PHYS7

[44] Unraveling the metabolite signature of citrus showing defense response towards Candidatus Liberibacter asiaticus after application of endophyte Bacillus subtilis L1-21.

[45] Molecular characterization and biofilm formation potential of Bacillus subtilis and Bacillus velezensis in extended shelf-life milk processing line.

[46] A counting method for determining the burst size of defective phages from Bacillus subtilis

[47] Characterization and Quantitative Determination of a Diverse Group of Bacillus subtilis subsp. subtilis NCIB 3610 Antibacterial Peptides.

[48] Complete genome sequence and comparative analysis of two potential probiotics Bacillus subtilis isolated from honey and honeybee microbiomes

[49] optimization of the medium composition for production of antimicrobial substances by bacillus subtilis atcc 6633

[50] rodz and pgsa play intertwined roles in membrane homeostasis of bacillus subtilis and resistance to weak organic acid stress

[51] effect of priming and seed-coating when associated with bacillus subtilis in maize seeds efeito do condicionamento fisiológico e da peliculização associados à bacillus subtilis em sementes de milho

[52] simultaneous production of detergent stable keratinolytic protease, amylase and biosurfactant by bacillus subtilis pf1 using agro industrial waste

[53] aktivitas antibakteri ekstrak tempe terhadap bakteri bacillus subtilis dan staphylococcus aureus [antibacterial activity of tempe extracts on bacillus subtilis and staphylococcus aureus]

[54] augmenting iron accumulation in cassava by the beneficial soil bacterium bacillus subtilis (gbo3)

[55] metabolit sekunder dan aktivitas fraksi etil asetat kulit buah jengkol (pithecellobium jiringa (jack) prain.) terhadap bakteri pseudomonas aeruginosa dan bacillus subtilis

[56] construction of a super-competent bacillus subtilis 168 using the pmtla-comks inducible cassette

[57] bacillus subtilis is a potential degrader of pyrene and benzo[a]pyrene

[58] effect of bacillus subtilis microecological probiotics on livestock breeding

[59] biological control of phytophthora blight and anthracnose disease in red-pepper using bacillus subtilis s54

[60] localization of components of the rna-degrading machine in bacillus subtilis

[61] production and applications of biosurfactant from bacillus subtilis muv4

[62] tratamento de sementes de arroz, trigo, feijÃo e soja com um produto formulado À base de cÉlulas e de metabÓlitos de bacillus subtilis

[63] functional diversity of aaa+ protease complexes in bacillus subtilis

[64] produksi antibiotika oleh bacillus subtilis m10 dalam media urea-sorbitol

[65] role of a bacillus subtilis direct-fed microbial on digesta viscosity, bacterial translocation and bone mineralization in turkey poults fed with a rye-based diet

[66] characterization of extracellular dextranase from a novel halophilic bacillus subtilis nrc-b233b a mutagenic honey isolate under solid state fermentation

[67] uji aktivitas antibakteri campuran ekstrak biji kelor (moringa oleifera) dan daun kersen (muntingia calabura) terhadap pseudomonas aeruginosa dan bacillus subtilis

[68] study of the catalytic properties of bacillus subtilis proteases

[69] production of extracellular laccase from bacillus subtilis mtcc 2414 using agroresidues as a potential substrate

[70] biological control of pythium ultimum and fusarium solani by indigenous strains bacillus subtilis

[71] glucose induces ecf sigma factor genes, sigx and sigm, independent of cognate anti-sigma factors through acetylation of csha in bacillus subtilis

[72] effect of coat layers in <em>bacillus subtilis</em> spores resistance to photo-catalytic inactivation

[73] studying the polypropylenimine-g2 (ppi-g2) dendrimer performance in removal of escherichia coli, proteus mirabilis, bacillus subtilis and staphylococcus aureus from aqueous solution

[74] Immunization of mice against alpha, beta, and epsilon toxins of Clostridium perfringens using recombinant rCpa-b-x expressed by Bacillus subtilis.

[75] Elucidation of Mechanical, Physical, Chemical and Thermal Properties of Microbial Composite Films by Integrating Sodium Alginate with Bacillus subtilis sp.

[76] The Bacillus subtilis sin OperonAn Evolvable Network Motif

[77] Evaluation of the probiotics Bacillus subtilis and Lactobacillus plantarum bioencapsulated in Artemia nauplii against vibriosis in European sea bass larvae (Dicentrarchus labrax, L.) - World Journal of Microbiology and Biotechnology

[78] Purification and characterization of an α-l-arabinofuranosidase, α-l-AFase, for hydrolyzed ginsenoside Rc from Bacillus subtilis.

[79] Transcriptomic and biochemical analysis of the mechanism of sodium gluconate promoting the degradation of benzo [a] pyrene by Bacillus subtilis MSC4