Two polypeptides associated with the ribonucleic acid polymerase core of Bacillus subtilis during sporulation.

The ribonucleic acid (RNA) polymerase from log-phase and sporulating cells of Bacillus subtilis was analyzed to determine whether any structural changes occurred during sporulation. The elution pattern of RNA polymerase from a deoxyribonucleic acid (DNA)-cellulose column revealed that sporulating cells at stages III and IV contained a new RNA polymerase fraction in addition to the vegetative holoenzyme (alpha2betabeta'sigma). Stage III cells contained the vegetative holoenzyme and a new enzyme with the composition alpha2betabeta'delta1; the molecular weight of delta1 was 28,000. Stage IV cells contained the vegetative holoenzyme, the delta1-containing enzyme, and another enzyme with the composition alpha2betabeta'delta2. The delta2 factor had a molecular weight of around 20,000. The delta-containing enzymes have a higher affinity for the DNA-cellulose column and a higher specific activity on various templates than vegetative holoenzyme. The simultaneous appearance of these enzymes with vegetative holoenzymes in sporulating cells is consistent with the data found previously with DNA-RNA hybridization studies, which showed that sporulating cells contained both vegetative and sporulation messenger RNAs.     

New transfer ribonucleic acid species during sporulation of Bacillus subtilis.

The transfer ribonucleic acid (tRNA) populations from log-phase cells, sporulating cells (stage III), and dormant spores were compared by tRNA-deoxyribonucleic acid hybridization techniques. New tRNA species not found in log-phase cells were observed in stage III cells. Some of the tRNA made during sporulation were also present in dormant spores. Although the role and function of these new tRNA species cannot be ascribed directly to the sporulation process, their presence indicates that new tRNA genes can be transcribed during sporulation and suggests that translational control may be exerted during sporulation by tRNA.     

Messenger Ribonucleic Acid of Dormant Spores of Bacillus subtilis

Evidence of the presence of messenger ribonucleic acid (mRNA) in dormant spores of Bacillus subtilis has been obtained. The bulk RNA from spores was isolated and labeled in vitro with tritiated dimethyl sulfate. The spore RNA hybridized to 2.4 to 3.2% of the B. subtilis genome. The RNA hybridized to both the complementary heavy and light fractions of deoxyribonucleic acid (DNA). Bulk RNA from log-phase cells competed with virtually all the spore RNA for the heavy DNA fraction and with part of the spore RNA for the light DNA fraction. Bulk RNA from stage IV cells in sporulation also competed with all of the spore RNA for the heavy DNA fraction and with essentially all the spore RNA for the light DNA fraction. These results indicate that dormant spores contain mRNA species present in both log-phase cells and stage IV cells of sporulation. The RNA polymerase in the developing forespore must be able to recognize promotor sites for both log-phase and sporulation genes.     

Protease and peptidase activities in growing and sporulating cells and dormant spores of Bacillus megaterium.

Peptidase and protease activities on many different substrates have been determined in several stages of growth of Bacillus megaterium. Extracts of log-phase cells, sporulating cells, and dormant spores of B. megaterium each hydrolyzed 16 different di- and tripeptides. The specific peptidase activity was highest in dormant spores, and the activity in sporulating cells and log-phase cells was about 1.2-fold and 2- to 3-fold lower, respectively. This peptidase acticity was wholly intracellular since extracellular peptidase activity was not detected throughout growth and sporulation. In contrast, intracellular protease activity on a variety of common protein substrates was highest in sporulating cells, and much extracellular activity was also present at this time. The specific activity of intracellular protease in sporulating cells was about 50- and 30-fold higher than that in log-phase cells and dormant spores, respectively. However, the two unique dormant spores proteins known to be the major species degraded during spore germination were degraded most rapidly by extracts of dormant spores, and slightly slower by extracts from log-phase or sporulating cells. The specific activities for degradation of peptides and proteins are compared to values for intracellular protein turnover during various stages of growth.     

Biochemical Studies of Bacterial Sporulation and Germination XV. Fatty Acids in Growth, Sporulation, and Germination of Bacillus megaterium

The levels of fatty acids and their distribution were determined in cultures of Bacillus megaterium during growth, sporulation, and germination. Branched-chain pentadecanoates (br-C15) were the principal fatty acids of log-phase cells. Synthesis of branched-chain tetradecanoates (br-C14) during sporulation increased the relative proportion of these branched fatty acids in sporulating cells and in mature spores. The log-phase distribution was reestablished during outgrowth of the spore. The ratio of br-C15 to br-C14 could be radically altered by addition of their respective amino acid precursors, isoleucine and valine, without seriously affecting the sporulation process. The fatty acid composition of each of the purified phospholipids from log-phase cells was the same, indicating that each phospholipid receives a portion of the fatty acid pool present in the cell at the time of its synthesis. Similarly, the fatty acids of each of the spore phospholipids resembled those of the spore extract. Phospholipids accounted for two-thirds of the fatty acids of the log-phase but only one-third of those of the spore.     

Studies on the nature and role of polyadenylated RNA in spore development of Bacillus subtilis

Summary cDNA probes synthesized on poly(A)RNAs isolated from sporulating cells of Bacillus subtilis were used for hybridization studies with RNAs derived from cells at different stages of growth and sporulation. It was shown that these cDNAs hybridized only to RNA from sporulating cells. No hybridization was observed if total RNA isolated from vegetative cells or from stationary phase cells of a zero stage asporogenic mutant was used. The hybridization studies also indicate that at each sporulation stage different poly(A)RNA species are synthesized. Furthermore, the hybridization kinetics have clearly demonstrated the existence of three distinct abundance classes of poly(A)RNA similar to those observed in eukaryotic cells. BamHI endonuclease restriction fragments of B. subtilis DNA that were found to hybridize to labeled poly(A)RNA were ligated to the pHV33 vector and hybrid clones that hybridized efficiently to poly(A)RNA were selected. Among these, three have been found to carry the spoOB gene.These results strongly suggest that the appearance of poly(A)RNA can be correlated to the expression of spore genes.     

The effect of iron starvation on the outer membrane protein composition of Neisseria gonorrhoeae

Abstract: A dipeptidase activity on ms -A₂pm- d -Ala and l -Lys- d -Ala was found in sporulating cells of Bacillus sphaericus 9602. The specific activity of this enzyme was low during the growth cycle and showed a rapid increase throughout sporulation. Values in the dormant spores were 1.3-fold higher than those found in cells late in sporulation and 20-fold higher than those found in log-phase cells.     

Two-dimensional protein patterns during growth and sporulation in Saccharomyces cerevisiae.

Proteins synthesized by Saccharomyces cerevisiae in presporulation and sporulation media were compared by using sporulating (a/alpha) and nonsporulating (a/a and alpha/alpha) yeast strains. Total cellular proteins were labeled with [35S]methionine and analyzed by two-dimensional polyacrylamide gel electrophoresis. Autoradiograms and/or fluorograms showed some 700 spots per gel. Nine proteins were synthesized by a/alpha cells which were specific to vegetative, log-phase conditions. During incubation in sporulation medium, sporulating (a/alpha) cells synthesized 11 proteins not present in vegetatively growing cell. These same 11 proteins, however, were synthesized by nonsporulating (a/a and alpha/alpha) cells on sporulation medium as well. Nonsporulating diploids (a/a and alpha/alpha) were also examined with the electron microscope at various times during their incubation in sporulation medium. Certain cellular responses found to be unique to meiotic yeast cells in previous studies were exhibited by the nonsporulating controls. The degree to which all cell types (a/alpha, a/a, and alpha/alpha) were committed to sporulation was also determined by shifting cells from sporulation medium to vegetative medium. Some commitment to the meiotic pathway was observed in both the a/alpha and the a/a, alpha/alpha cells.     

Expression of dnaK and groESL operons during sporulation of Bacillus megaterium

Expression of the dnaK and groEL genes during sporulation was assayed by determination of their mRNA levels by Northern blotting and compared with the relative level and rate of synthesis of the corresponding proteins. The ability of sporulating cells to respond to a heat shock by an increase in dnaK and groEL expression was determined at the same time. Synthesis of DnaK and GroEL encoding mRNAs during sporulation in non-shocked cells was low suggesting that this kind of cytodifferentiation was not accompanied by enhanced synthesis of these chaperones. Also the ability of sporulating cells to respond to a heat shock by stimulating their synthesis substantially decreased during the reversible and dropped to negligible values during the irreversible sporulation phase. Nevertheless, some dependence of the heat shock response on sporulation exists because sporulation suppression by mutation or by netropsin treatment further decreased the cells' capacity to respond to a heat shock.