Effects of increased and deregulated expression of cell division genes on the morphology and on antibiotic production of streptomycetes

This paper describes the effects of increased expression of the cell division genes ftsZ, ftsQ, and ssgA on the development of both solid- and liquid-grown mycelium of Streptomyces coelicolor and Streptomyces lividans. Over-expression of ftsZ in S. coelicolor M145 inhibited aerial mycelium formation and blocked sporulation. Such deficient sporulation was also observed for the ftsZ mutant. Over-expression of ftsZ also inhibited morphological differentiation in S. lividans 1326, although aerial mycelium formation was less reduced. Furthermore, antibiotic production was increased in both strains, and in particular the otherwise dormant actinorhodin biosynthesis cluster of S. lividans was activated in liquid- and solid-grown cultures. No significant alterations were observed when the gene dosage of ftsQ was increased. Analysis by transmission electron microscopy of an S. coelicolor strain over-expressing ssgA showed that septum formation had strongly increased in comparison to wild-type S. coelicolor, showing that SsgA clearly influences Streptomyces cell division. The morphology of the hyphae was affected such that irregular septa were produced with a significantly wider diameter, thereby forming spore-like compartments. This suggests that ssgA can induce a process similar to submerged sporulation in Streptomyces strains that otherwise fail to do so. A working model is proposed for the regulation of septum formation and of submerged sporulation.     

Regulation of cell division in Escherichia coli: properties of new ftsZ mutants

Summary Cells of Escherichia coli which produce high levels of the sfiA protein are UV-sensitive and filament extensively. It has been postulated that the sfiA protein is a division inhibitor which interacts with the ftsZ protein (formerly called sfiB or sulB) leading to cell division arrest. Under certain conditions, a similar division inhibition is observed with cells harboring a mutationally altered tsM allele, another division gene which was postulated to code for a division inhibitor or a controlling effector thereof (Drapeau et al.) (1984). In this communication, we report on the properties of ftsZ mutants isolated under conditions which brought no selective pressure. These mutants have either an increased sensitivity to UV irradiation or filament drastically following a nutritional shift-up, or both, or even cannot grow in a rich medium. They presumably possess a ftsZ protein which responds more readily to the inhibitory action of the wild type sfiA or the mutationally altered tsM1 protein since the phenotypic expressions associated with the mutations are not observed in the presence of the sfiA11 mutation or are amplified when the ftsZ mutant cells harbor the tsM1 allele. These results further support earlier suggestions that sfiA modulates ftsZ activity and establish tsM as an additional regulatory element thereof. In addition, it is shown that E. coli strain B is a naturally occurring ftsZ mutant.     

Effects of inducer levels on a recombinant bacterial biofilm formation and gene expression

Summary A segregationally stable host-plasmid system, E. coli DH5 (pTKW106), was used to study the effect of induction on the accumulation rate of cells and gene expression in biofilm cultures. Isopropyl -D-thiogalactoside (IPTG) was used to induce the expression of -galactosidase from the plasmid. The biofilm cell net accumulation rates decreased with increasing induction levels. At 0.17 and 0.34 mM of IPTG, the biofilm cell net accumulation rates ranged between 17 and 30% when compared to the uninduced case. At 0.51 mM of IPTG, the biofilm cell density never increased. At 0.17 and 0.34 mM of IPTG, -galactosidase contents reached maxima 36 hours after induction with both amounts representing about 7.5% of total protein. At 0.51 mM of IPTG, -galactosidase production reached its maximum, about 16% of total protein, 48 hours after induction. The -galactosidase mRNA synthesis rates increased with increasing inducer levels. Maximum -galactosidase mRNA synthesis rates were reached 36 hours after induction for each IPTG concentration.     

Growth and viability of Streptomyces coelicolor mutant for the cell division gene ftsZ

A homologue of the bacterial cell division gene ftsZ was cloned from the filamentous bacterium Streptomyces coelicolor. The gene was located on the physical map of the chromosome at about ‘11 o'clock’ (in the vicinity of glkA, hisA and trpB). Surprisingly, a null mutant in which the 399-codon ftsZ open reading frame was largely deleted was viable, even though the mutant was blocked in septum formation. This indicates that cell division may not be essential for the growth and viability of S. coelicolor. The ftsZ mutant was able to produce aerial hyphae but was unable to produce spores, a finding consistent with the idea that ftsZ is required in order for aerial hyphae to undergo septation into the uninucleoid cells that differentiate into spores.     

σs-dependent overexpression offtsZ in anEscherichia coli K-12 rpoB mutant that is resistant to the division inhibitors DicB and DicF RNA

TheEscherichia coli genesdicF anddicB encode division inhibitors, which prevent the synthesis and activity, respectively, of the essential division protein FtsZ. A mutation at the C-terminal end of the RNA polymerase subunit renders cells resistant to both inhibitors. In the mutant strain the level of theftsZ gene product is higher than in the wild type. Disruption ofrpoS, which encodes the stationary phase sigma factor ^S, lowers FtsZ protein levels in the mutant, and partially restores sensitivity to the inhibitors.     

Functional expression of anti-hepatitis B virus (HBV) preS2 antigen scFv by <Emphasis Type="Italic">cspA</Emphasis> promoter system in <Emphasis Type="Italic">Escherichia coli</Emphasis> and application as a recognition molecule for single-walled carbon nanotube (SWNT) field effect transistor (FET)

The preS2 antigens of hepatitis B virus (HBV), which causes a serious health problem in the world, have been implicated in hepatocyte cell binding and viral penetration. Therefore, the importance of antibody production against preS2 antigen for early diagnosis of HBV has been well established. In this study, the recombinant HBV preS2 single chain variable fragment (scFv) antibody was successfully expressed in E. coli with the novel cold shock vector (pCold) under the cspA promoter, and its expression level was compared with the pET vector under the T7 promoter. Additionally, a host with an oxidizing cytoplasm, E. coli trxB/gor double mutant, was used to improve the soluble expression. The anti-HBV preS2 scFv using pCold vector was successfully expressed in a soluble and functional form in both wild type and double mutant E. coli, while the scFv using the pET vector was expressed in an insoluble form in spite of using a double mutant providing an oxidizing environment. The induction with 0.05 mM IPTG showed a 2-fold higher functional expression compared to induction with 1 mM IPTG, and the functional expression at the induction temperature (15°C), which is optimal temperature for pCold vector, was improved 2-fold and 3- fold at 4 and 25°C, respectively. The efficacy of anti-HBV preS2 scFv for detecting HBV preS2 antigen was tested and verified by using Ni-decorated single-walled carbon nanotube (SWNT) field effect transistors.     

Cell division in a minimal bacterium in the absence of ftsZ

Mycoplasma genomes exhibit an impressively low amount of genes involved in cell division and some species even lack the ftsZ gene, which is found widespread in the microbial world and is considered essential for cell division by binary fission. We constructed a Mycoplasma genitalium ftsZ null mutant by gene replacement to investigate the role of this gene and the presence of alternative cell division mechanisms in this minimal bacterium. Our results demonstrate that ftsZ is non‐essential for cell growth and reveal that, in the absence of the FtsZ protein, M. genitalium can manage feasible cell divisions and cytokinesis using the force generated by its motile machinery. This is an alternative mechanism, completely independent of the FtsZ protein, to perform cell division by binary fission in a microorganism. We also propose that the mycoplasma cytoskeleton, a complex network of proteins involved in many aspects of the biology of these microorganisms, may have taken over the function of many genes involved in cell division, allowing their loss in the regressive evolution of the streamlined mycoplasma genomes.     

Synthesis and Secretion of Proteinases by Bacillus intermedius in the Late Stages of Sporulation

In the late stages of sporulation, cells of Bacillus intermedius 3-19 secreted into the medium two proteinases, glutamyl endopeptidase and subtilisin, whose maximum activities were recorded in the 40th and 44th hours of growth, respectively. By estimating -galactosidase activity as a marker of cytoplasmic membrane integrity, it was revealed that the accumulation of these proteinases in the medium was a result of their secretion and not of lysis of the cell envelope. Concentrations of peptone and inorganic phosphate ensuring the maximum production of the enzymes were established. Ammonium ions were shown to inhibit the production of proteinases by the mechanism of repression by nitrogen metabolites.     

落叶型大丽轮枝菌T-DNA插入突变体库的构建

采用ATMT技术建立大丽轮枝菌落叶型菌株XJ2008菌株的T-DNA插入突变体文库,共获得6 043个突变体。从中随机挑选104个突变体,以野生型XJ2008菌株为参照,评价其致病性、菌落生长速率、分生孢子及微菌核的产生能力等。结果表明,有12.5%的突变体丧失产孢能力,4.8%的突变体的生长速率显著减慢,8.7%的突变体的生长速率显著加快,12.5%的突变体丧失产生微菌核的能力,47.1%的突变体的致病性显著低于野生型菌株XJ2008,且突变体2-736、2-740、2-745的病情指数分别约为野生型菌株XJ2008的0.184、0.168和0.197倍。该突变体库突变体遗传稳定性好,性状多样性丰富。     

A lipoprotein modulates activity of the MtrAB two‐component system to provide intrinsic multidrug resistance,cytokinetic control and cell wall homeostasis in Mycobacterium

The MtrAB signal transduction system, which participates in multiple cellular processes related to growth and cell wall homeostasis, is the only two‐component system known to be essential in Mycobacterium. In a screen for antibiotic resistance determinants in Mycobacterium smegmatis, we identified a multidrug‐sensitive mutant with a transposon insertion in lpqB, the gene located immediately downstream of mtrA–mtrB. The lpqB mutant exhibited increased cell–cell aggregation and severe defects in surface motility and biofilm growth. lpqB cells displayed hyphal growth and polyploidism, reminiscent of the morphology of Streptomyces, a related group of filamentous Actinobacteria. Heterologous expression of M. tuberculosis LpqB restored wild‐type characteristics to the lpqB mutant. LpqB interacts with the extracellular domain of MtrB, and influences MtrA phosphorylation and promoter activity of dnaA, an MtrA‐regulated gene that affects cell division. Furthermore, in trans expression of the non‐phosphorylated, inactive form of MtrA in wild‐type M. smegmatis resulted in phenotypes similar to those of lpqB deletion, whereas expression of the constitutively active form of MtrA restored wild‐type characteristics to the lpqB mutant. These results support a model in which LpqB, MtrB and MtrA form a three‐component system that co‐ordinates cytokinetic and cell wall homeostatic processes.     

Cloning and characterization of a β-galactosidase encoding region in Lactobacillus coryniformis CECT 5711

A chromosomal DNA fragment of 7.8 kb from Lactobacillus coryniformis CECT 5711 was cloned in Escherichia coli K-12 and was found to express a functional β-galactosidase. Nucleotide sequence analysis showed that this fragment contained two partially overlapping genes, the lacL (1,881 bp) and the lacM (960 bp), that encode the subunits of a heterodimeric β-galactosidase, with estimated molecular masses of 72,129 and 35,233 Da, respectively. Other three incomplete open reading frames showing homology to another β-galactosidase, an α-galactosidase, and a galactokinase, respectively, were also found. The L. coryniformis β-galactosidase was overproduced in E. coli by using an isopropyl-β-d-thiogalactopyranoside (IPTG) expression system. Two new proteins with an estimated M _r s of approximately 72,000 and 35,000 appeared upon induction with IPTG, and extracts of the recombinant E. coli strain showed β-galactosidase activity.     

Early stages in development of the Escherichia coli cell-division site

Development of the Escherichia coli cell division site was studied in wild-type cells and in non-septate filaments of ftsZ null and ftsZTs mutant cells. Localized regions of plasmolysis were used as markers for the positions of annular structures that are thought to be related to the periseptal annuli that flank the ingrowing septum during cytokinesis. The results show that these structures are localized at potential division sites in non-septate filaments of FtsZ^- cells, contrary to previous reports. The positions of the structures along the long axis of the cells in both wild-type cells and FtsZ^- filaments were unaffected by the presence of plasmolysis bays at the cell poles. These results do not agree with a previous suggestion that the apparent association of plasmolysis bays with future division sites was artefactual. They support the view that division sites begin to differentiate before the initiation of septal ingrowth and that plasmolysis bays and the annular attachments that define them, mark the locations of these early events in the division process.     

Increased poly-β-hydroxybutyrate (PHB) chain length by the modulation of PHA synthase activity in recombinant Escherichia coli

A second promoter (P1) was inserted to the PHA (poly--hydroxyalkanoate) operon (pSP2) of Esherichia coli DH5 with an optimal E. coli ribosome binding site and a trc strong promoter (pSJS1) to obtain poly--hydroxybutyrate (PHB) with long chain length. When the inducer, IPTG was added to the culture at 0.4 mM, the average molecular weight was 1.1 × 10⁶ Da. However, an even greater increase of the PHB average molecular weight to 2.5 × 10⁷ Da was observed without IPTG being added.     

Isolation and characterization of a sporeless mutant in <Emphasis Type="Italic">Pleurotus eryngii</Emphasis>

 A sporeless mutant dikaryon, completely defective in sporulation, was isolated from mycelial protoplasts of Pleurotus eryngii mutagenized by UV irradiation. Newly established dikaryons between one component monokaryon from the mutant, and 12 different wild type monokaryons from 3 other wild type dikaryons, all exhibited the sporeless phenotype, whereas those between the other monokaryon and the same wild type monokaryons all produced normal fruiting bodies. These results indicated that the sporeless mutation was induced in one of two nuclei of the mutant and was dominant. In the wild type basidia, the pattern of nuclear behavior during sporulation corresponded to the pattern C nuclear behavior as defined by Duncan and Galbraith. Cytological observation revealed that in the sporeless mutant meiosis was blocked at the meta-anaphase I in most basidia and hence basidiospores and sterigmata were not produced. Although fruiting bodies of the sporeless mutant showed a somewhat leaning growth, their gross morphology and its fruiting body productivity were comparable to that of the original wild type strain. Based on these results, it was considered that the sporeless mutant could serve as a potential material in breeding of sporeless P. eryngii commercial strains. Received: September 5, 2002 / Accepted: October 16, 2002 Acknowledgments We are grateful to Mrs. Motoe Masuda for her skillful technical assistance. Contribution no. 358 from the Tottori Mycological Institute Correspondence to:Y. Obatake     

Erythromycin resistant mutations in Bacillus subtilis cause temperature sensitive sporulation.

Summary All of several hundred erythromycin resistant (ery^R) single site mutants ofBacillus subtilis W168 are temperature sensitive for sporulation (spo^ts). The mutants and wild type cells grow vegetatively at essentially the same rates at both permissive (30° C) and nonpermissive (47° C) temperatures. In addition, cellular protein synthesis, cell mass increases and cell viabilities are similar in mutant and wild type strains for several hours after the end of vegetative growth (47° C). In the mutants examined, the temperature sensitive periods begin when the sporulation process is approximately 40% completed, and end when the process is 90% complete. At nonpermissive temperatures, the mutants produce serine and metal proteases at 50% of the wild type rate, accumulate serine esterase at 16% of the wild type rate, and do not demonstrate a sporulation related increase in alkaline phosphatase activity.The ery^R and spo^ts phenotypes cotransform 100%, and cotransduce 100% using phage PBS1. Revertants selected for ability to sporulate normally at 47° C (spo⁺), simultaneously regain parental sensitivity to erythromycin. No second site revertants are found.Ribosomes from ery^R spo^ts strains bind erythromycin at less than 1% of the wild type rate. A single 50S protein (L17) from mutant ribosomes shows an altered electrophoretic mobility. Ribosomes from spo⁺ revertants bind erythromycin like parental ribosomes and their proteins are electrophoretically identical to wild type. These data indicate that the L17 protein of the 50S ribosomal subunit fromBacillus subtilis may participate specifically in the sporulation process.