Physiological Studies on Early-blocked Sporulation Mutants of Bacillus subtilis
About: This article is published in Journal of Applied Microbiology.The article was published on 1970-03-01. It has received 87 citations till now. The article focuses on the topics: Bacillus subtilis & Sporulation in Bacillus subtilis.
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TL;DR: This article will attempt to review the recent literature concerned with the characterization and properties of the exoenzymes synthesized by the bacilli and the control and mechanisms of their synthesis.
Abstract: As the decade progresses this prediction is rapidly being realized, and microbial enzymes are becoming increasingly important in such diverse fields as medicine, brewing, and timber preservation. The genus Bacillus has played a major role in this development as evidenced by the distribution of the papers read at the Fifth International Fermentation Symposium, 1976 (64). Of 23 papers in the session devoted to "Microbial Enzymes of Industrial Interest" no less than ten were concerned with enzymes from bacilli. Reasons for the predominance of these bacteria in this area of study are several. First, they comprise a group of chemoorganotrophs that can be easily maintained and cultivated and yet are markedly heterogeneous in character. Psychrophiles, mesophiles, and thermophiles, in addition to alkalophilic, neutrophilic, and acidophilic species are well represented. Furthermore, virtually all 48 species of the genus listed in Bergey's Manual ofDeterminative Bacteriology (92) secrete a variety of soluble extracellular enzymes, which reflects the diversity of the parental habitats. Amylases that can liquefy starch under pressure at 11000 (194) and proteases that are stable and active at pH 12.0 (6) are extreme examples of enzyme adaption. This article will attempt to review the recent literature concerned with the characterization and properties of the exoenzymes synthesized by the bacilli and the control and mechanisms of their synthesis. It is restricted to this genus because the commercial importance of extracellular enzymes and academic interest in the process of sporulation have prompted a considerable amount of research into this general area. Nevertheless, in the final section I have attempted to equate our present knowledge of exoenzyme synthesis in procaryotes other than
761 citations
TL;DR: Analysis of genes in the Spo0A regulon has helped delineate the mechanisms of axial chromatin formation and asymmetric division and there have been considerable advances in the understanding of critical controls that act to regulate the phosphorelay and to activate the sigma factors.
659 citations
624 citations
TL;DR: The subtilisin gene from B. amyloliquefaciens has been cloned and expressed under its own promoter on a high copy plasmid, pBS42, in Bacillus subtilis I-168 (Marburg strain), and a sequence of unknown function coding for roughly 75 amino acids between the signal sequence and the mature enzyme is proposed.
Abstract: The subtilisin gene from B. amyloliquefaciens has been cloned and expressed under its own promoter on a high copy plasmid, pBS42, in Bacillus subtilis I-168 (Marburg strain). Greater than 95 percent of the expressed protease activity is secreted, and the activity is sensitive to inhibition by phenylmethylsulfonyl fluoride as expected for subtilisin. Bacillus subtilis transformants carrying the Bacillus amyloliquefaciens subtilisin gene in pBS42 (called pS4) secreted large amounts of a protein not seen in control pBS42 transformants. This protein migrated in SDS gels near the position of authentic subtilisin. The complete nucleotide sequence of the cloned gene has been determined using dideoxy sequencing methods. Ba131 exonuclease digestion studies at the 5' end of the gene have defined a 31 base pair stretch necessary for efficient expression of subtilisin. In addition to this putative promoter region, sequences have been assigned for ribosome binding, translation initiation, a signal peptide, the mature enzyme, and translation and transcription termination. A most interesting feature of the gene is a sequence of unknown function coding for roughly 75 amino acids between the signal sequence and the mature enzyme. It is proposed that this region serve as a pro-peptide as is commonly found in eukaryotic secreted proteases.
386 citations
TL;DR: A mutant strain of Bacillus subtilis carrying lesions in the structural genes for extracellular neutral (nprE) and serine (aprA) proteases was constructed by the gene conversion technique, indicating that neither of these sporulation-associated proteases is essential for development.
Abstract: A mutant strain of Bacillus subtilis carrying lesions in the structural genes for extracellular neutral (nprE) and serine (aprA) proteases was constructed by the gene conversion technique. This mutant had less than 4% of the extracellular protease activity of the wild type and sporulated normally, indicating that neither of these sporulation-associated proteases is essential for development.
373 citations
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263 citations
TL;DR: Findings will contribute to a more complete phenotypic characterization of those mutants of sporulation that appear to be involved in the production of extracellular hydrolytic enzymes.
Abstract: Summary. This study has characterized 3 proteolytic enzymes during sporulation by Bacillus subtilis Marburg strain when grown in nutrient broth. A method of purification is described which permits the separation of 2 different proteinases: one belonging to the metal enzyme group and the other to the serine enzyme group. The third enzyme, probably an esterase, showed a high esterolytic activity, but only low proteolytic activity. Determination of the 3 enzymes in a mixture was accomplished by using specific substrates and inhibitors. They were excreted simultaneously between the end of the growth phase until the appearance of the prespores. During this entire period, 20% of the total proteolytic activity was due to the metal proteinase; 80% of the proteolytic activity and 15% of the esterolytic activity was due to the serine proteinase; 85% of the esterolytic activity was the result of the esterase. These findings will contribute to a more complete phenotypic characterization of those mutants of sporulation that appear to be involved in the production of extracellular hydrolytic enzymes.
192 citations
TL;DR: Intracellular turnover of protein was measured in wild-type Bacillus subtilis, which produces exoprotease at stage I in the sporulation process, and the same protease appears to be responsible both for the intracellular turnover and for extracellular proteolytic activity.
Abstract: 1. Intracellular turnover of protein was measured in wild-type Bacillus subtilis, which produces exoprotease at stage I in the sporulation process. Protein is degraded at a rate of 8–10%/hr. 2. As a result of this turnover, the proteins of the mother cell are extensively degraded and resynthesized by about 6hr., so that the later stages of spore formation occur in a cytoplasm containing mainly `new' protein. 3. The same protease appears to be responsible both for the intracellular turnover of protein and for extracellular proteolytic activity. In mutants that have lost the exoenzyme the intracellular protein is stable for many hours. In addition, these mutants fail to produce antibiotic and are asporogenous. When the exoprotease is regained as a result of back-mutation all the lost capacities of the cell are restored together. 4. Protease activity also accounts for the change in antigenic pattern of extracts of cells sampled during sporulation. Immunoelectrophoresis shows that, in the wild-type, the antigens characteristic of the vegetative cell have largely disappeared after a few hours; in the proteaseless mutants the vegetative-cell pattern is conserved. Apart from changing the protein pattern of the cell the protease could also have the function of removing protein inhibitors of sporulation. Other possible interpretations of the results are discussed.
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TL;DR: It appears that removal of the cell wall specifically interferes with the synthesis of extracellular enzymes from protoplasts, which produce considerable amounts of these enzymes but fail to secrete significant amounts.
22 citations