Project description:The antibiotic granaticin interferes in Bacillus subtilis with the charging process of tRNALeu causing both the arrest of protein synthesis and bacteriostasis [A. Ogilvie, K. Wiebauer & W. Kersten (1975) Biochem. J. 152, 511-515]. A concomitant inhibition of RNA synthesis is observed. This inhibition was studied with mutant strains of B. subtilis. 2. Granaticin inhibits protein and RNA synthesis in stringently controlled B. subtilis (rel+) to about the same extent. In a relaxed mutant strain (rel-) of B. subtilis, protein synthesis is also inhibited, but the accumulation of RNA continues after the addition of the drug. 3. Chloramphenicol, which is known to abolish the stringent control mechanism, added simultaneously with granaticin, allows the synthesis of RNA to proceed in the stringent strain. 4. Guanosine tetraphosphate (ppGpp) and guanosine pentaphosphate (pppGpp) accumulate in granaticin-treated stringently controlled B. subtilis but not in the rel- mutant. 5. It is concluded that the inhibition of RNA synthesis granaticin can adequately be explained as a stringent response caused by the interference by the drug with leucyl-tRNA synthetase.

Project description:Bacillus subtilis 168 messenger RNA was determined by DNA-RNA hybridization techniques, with denatured DNA immobilized upon cellulose nitrate membrane filters. The following results were obtained. (1) Cultures of B. subtilis, growing exponentially in enriched glucose-salts medium at 37 degrees , incorporated [5-(3)H]uracil into both ribosomal and messenger RNA fractions without the kinetic delay expected from the presence of the intracellular nucleotide pools. (2) However short the time of labelling with exogenous labelled uracil (down to 7sec.), 32-36% of the rapidly labelled RNA was messenger RNA and 68-64% was an RNA with the hybridization characteristics of ribosomal RNA. Analysis of the apparent nucleotide base composition of total (32)P-labelled rapidly labelled RNA and the two RNA fractions separated by hybridization at a DNA/RNA ratio 5:1 confirmed this finding. Of the rapidly labelled RNA, 31% readily hybridized with DNA at low DNA/RNA ratios and had an apparent base composition like that of the DNA, whereas 69% was hybridized only at low efficiency at low DNA/RNA ratios and had a composition identical with that of ribosomal RNA. (3) In cultures dividing every 48min. at 37 degrees , kinetic analysis of RNA labelled over a 20min. period showed that the average life-time of messenger RNA was 2.7-3.0min. and that its amount was 3.0% of the total RNA. (4) The hybridization of (3)H-labelled randomly labelled RNA with DNA at a DNA/RNA ratio 5:1 showed that 2.9% of the randomly labelled RNA had the characteristics of messenger RNA. (5) Experiments carried out as described by Pigott & Midgley (1968) indicated that hybridization at low DNA/RNA ratios (5:1) effectively accounted for all the messenger RNA in a given specimen. The efficiency coefficient of RNA hybridization lay within the range of 90-95% input, if an excess of DNA sites was offered for RNA binding. (6) These measurements are compared with other results obtained by different methods, and reasons for any major disagreement are suggested.

Project description:1. tRNA of Bacillus subtilis was found to be variably contaminated with membrane teichoic acid. 2. Samples with high contents of teichoic acid showed no accepting activity for tRNA(Phe) and tRNA(Tyr). 3. Removal of teichoic acid restored accepting activity and fractions containing teichoic acid, separated on Sephadex G-150, inhibited the charging of tRNA(Tyr). 4. The presence of teichoic acid did not inhibit the charging of tRNA(His).

Project description:Lipoteichoic acid (LTA) is an important cell wall polymer in Gram-positive bacteria. The enzyme responsible for polyglycerolphosphate LTA synthesis is LtaS, first described in Staphylococcus aureus. Four LtaS orthologues, LtaS(BS) , YfnI, YqgS and YvgJ, are present in Bacillus subtilis. Using an in vitro enzyme assay, we determined that all four proteins are Mn(2+) -dependent metal enzymes that use phosphatidylglycerol as a substrate. We show that LtaS(BS) , YfnI and YqgS can produce polymers, suggesting that these three proteins are bona-fide LTA synthases while YvgJ functions as an LTA primase, as indicated by the accumulation of a GroP-Glc(2) -DAG glycolipid. Western blot analysis of LTA produced by ltaS(BS) , yfnI, yqgS and yvgJ single, triple and the quadruple mutant, showed that LTA production was only abolished in the quadruple and the YvgJ-only expressing mutant. B. subtilis strains expressing YfnI in the absence of LtaS(BS) produced LTA of retarded mobility, presumably caused by an increase in chain length as suggested by a structural analysis of purified LTA. Taken together, the presented results indicate that the mere presence or absence of LTA cannot account for cell division and sporulation defects observed in the absence of individual enzymes and revealed an unexpected enzymatic interdependency of LtaS-type proteins in B. subtilis.

Project description:The RNA of the blue-green alga Anacystis nidulans contains three ribosomal RNA species with molecular weights of 0.56x10(6), 0.9x10(6), and 1.1x10(6) if the RNA is extracted in the absence of Mg(2+). The 0.9x10(6)mol.wt. rRNA is extremely slowly labelled in (32)P-incorporation experiments. This rRNA may be a cleavage product of the 1.1x10(6)mol.wt. rRNA from the ribosomes of cells in certain physiological states (e.g. light-deficiency during growth). The cleavage of the 1.1x10(6)mol.wt. rRNA during the extraction procedure can be prevented by the addition of 10mm-MgCl(2). (32)P-pulse-labelling studies demonstrate the rapid synthesis of two ribosomal precursor RNA species. One precursor RNA migrating slightly slower than the 1.1x10(6)mol.wt. rRNA appears much less stable than the other precursor RNA, which shows the electrophoretic behaviour of the 0.7x10(6)mol.wt. rRNA. Our observations support the close relationship between bacteria and blue-green algae also with respect to rRNA maturation. The conversion of the ribosomal precursor RNA species into 0.56x10(6)- and 1.1x10(6)-mol.wt. rRNA species requires Mg(2+) in the incubation medium.

Project description:Many bacterial species typically live in complex three-dimensional biofilms, yet much remains unknown about differences in essential processes between nonbiofilm and biofilm lifestyles. Here, we created a CRISPR interference (CRISPRi) library of knockdown strains covering all known essential genes in the biofilm-forming Bacillus subtilis strain NCIB 3610 and investigated growth, biofilm colony wrinkling, and sporulation phenotypes of the knockdown library. First, we showed that gene essentiality is largely conserved between liquid and surface growth and between two media. Second, we quantified biofilm colony wrinkling using a custom image analysis algorithm and found that fatty acid synthesis and DNA gyrase knockdown strains exhibited increased wrinkling independent of biofilm matrix gene expression. Third, we designed a high-throughput screen to quantify sporulation efficiency after essential gene knockdown; we found that partial knockdowns of essential genes remained competent for sporulation in a sporulation-inducing medium, but knockdown of essential genes involved in fatty acid synthesis exhibited reduced sporulation efficiency in LB, a medium with generally lower levels of sporulation. We conclude that a subset of essential genes are particularly important for biofilm structure and sporulation/germination and suggest a previously unappreciated and multifaceted role for fatty acid synthesis in bacterial lifestyles and developmental processes. IMPORTANCE For many bacteria, life typically involves growth in dense, three-dimensional communities called biofilms that contain cells with differentiated roles held together by extracellular matrix. To examine how essential gene function varies between vegetative growth and the developmental states of biofilm formation and sporulation, we created and screened a comprehensive library of strains using CRISPRi to knockdown expression of each essential gene in the biofilm-capable Bacillus subtilis strain 3610. High-throughput assays and computational algorithms identified a subset of essential genes involved in biofilm wrinkling and sporulation and indicated that fatty acid synthesis plays important and multifaceted roles in bacterial development.

Project description:Chloroplast rRNA synthesis was studied in spinach leaf tissue cultured under sterile conditions which eliminate bacterial rRNA synthesis. The synthesis was inhibited by darkness, but concomitant cytoplasmic rRNA synthesis was unaffected. A complex pattern of labelled rRNA precursors was found in extracts from cultured leaf tissue by using polyacrylamide-gel electrophoresis. However, differences between the precursor profiles of leaf tissue cultured in the light and in the dark could not be correlated with chloroplast rRNA synthesis since large amounts of high-molecular-weight precursors of cytoplasmic rRNA dominated the pattern in both cases. A double-isotope-labelling technique was used, which enabled light-stimulated rRNA synthesis to be studied in whole leaf tissue. Two rapidly labelled RNA species of molecular weights 1.15x10(6) and 0.65x10(6) were detected, which were thought to have possible precursor significance in the synthesis of mature chloroplast rRNA of molecular weights 1.04x10(6) and 0.56x10(6) respectively. Cycloheximide treatment resulted in the accumulation of RNA of molecular weight 1.8x10(6), whose function is unknown.

Project description:Lipoteichoic acid is a major lipid-anchored polymer in Gram-positive bacteria such as Bacillus subtilis. This polymer typically consists of repeating phosphate-containing units and therefore has a predominant negative charge. The repeating units are attached to a glycolipid anchor which has a diacylglycerol (DAG) moiety attached to a dihexopyranose head group. D-alanylation is known as the major modification of type I and type IV lipoteichoic acids, which partially neutralizes the polymer and plays important roles in bacterial survival and resistance to the host immune system. The biosynthesis pathways of the glycolipid anchor and lipoteichoic acid have been fully characterized. However, the exact mechanism of D-alanyl transfer from the cytosol to cell surface lipoteichoic acid remains unclear. Here I report the use of mass spectrometry in the identification of possible intermediate species in the biosynthesis and D-alanylation of lipoteichoic acid: the glycolipid anchor, nascent lipoteichoic acid primer with one phosphoglycerol unit, as well as mono- and di-alanylated forms of the lipoteichoic acid primer. Monitoring these species as well as the recently reported D-alanyl-phosphatidyl glycerol should aid in shedding light on the mechanism of the D-alanylation pathway of lipoteichoic acid.

Project description:Identification of the specific WalR (YycF) binding regions on the B. subtilis chromosome during exponential and phosphate starvation growth phases. The data serves to extend the WalRK regulon in Bacillus subtilis and its role in cell wall metabolism, as well as implying a role in several other cellular processes.

Project description: Not available