Plasmid copy number mutation in repA gene encoding RepA replication initiator of cryptic plasmid pHM1519 in Corynebacterium glutamicum

ABSTRACT

Cryptic plasmid pHM1519 is a rolling-circular replication mode plasmid of the pCG1 plasmid family in coryneform bacteria. The derived shuttle vector pPK4 is maintained at about 40–50 copies per chromosome in Corynebacterium glutamicum 2256 (ATCC 13869). We found that a mutation (designated copA1) within the repA gene encoding essential initiator protein RepA of the pHM1519-replicon increased the copy number of the mutant plasmid to about 800 copies per chromosome. The mutation was a single G to A base transition, which changed Gly to Glu at position 429 of the amino acid sequence of RepA. In silico secondary structure prediction of RepA suggested that Gly429 is situated in a disordered region in a helix-turn-helix motif, which is a typical DNA-binding domain. This study shows the first example of a high copy number of a C. glutamicum cryptic plasmid caused by an altered replication initiator protein.     

Evidence that metabolism and chromosome copy number control mutually exclusive cell fates in Bacillus subtilis

Bacillus subtilis chooses between matrix production and spore formation, which are both controlled by the regulator Spo0A~P. We report that metabolism and chromosome copy number dictate which fate is adopted. Conditions that favour low Spo0A~P levels promote matrix production, whereas conditions favouring high levels trigger sporulation. Spo0A~P directs the synthesis of SinI, an antirepressor for the SinR repressor of matrix genes. The regulatory region of sinI contains an activator site that Spo0A~P binds strongly and operators that bind Spo0A~P weakly. Evidence shows that low Spo0A~P levels turn sinI ON and high levels turn sinI OFF and instead switch sporulation ON. Cells in which sinI and sinR were transplanted from their normal position near the chromosome replication terminus to positions near the origin and cells that harboured an extra copy of the genes were blocked in matrix production. Thus, matrix gene expression is sensitive to the number of copies of sinI and sinR. Because cells at the start of sporulation have two chromosomes and matrix-producing cells one, chromosome copy number could contribute to cell-fate determination.     

Determination of the complete nucleotide sequence of pNS1, a staphylococcal tetracycline-resistance plasmid propagated in Bacillus subtilis

Abstract The complete nucleotide sequence of pNS1 (3879 bp), a tetracycline-resistance (Tc^R) plasmid drived from staphylococcal plasmid pTP5, has been determined and compared with that of the staphylococcal Tc^R plasmid pT181 [6]. The nucleotide sequences of the 2 plasmids are in agreement, except for 18 nucleotides, but these differences are significant in that they give rise to new open reading frames (ORFs). A short ORF-D is found in the copy control region, and the Tc^R region contains a single large ORF-A, that encodes the Tet protein (50 kDa). The upstream region of ORF-A contains 3 inverted repeat sequences, which can generate structures very similar in conformation of the structure of the control region of the inducible erythromycin-resistance gene of pE194.     

Exceptionally high copy numbers of a staphylococcal plasmid in Bacillus subtilis revealed by a sandwich hybridization technique

Abstract The copy number of a pUB110 derivative, pKTH10, containing the α-amylase gene from Bacillus amyloliquefaciens , was determined, using an assay based on a sandwich hybridization technique. In this method, a known gene on the plasmid is hybridized between two non-overlapping fragments of that same gene, cloned into separate vectors. One fragment is used as a radiolabelled probe and the other bound to a filter, forming a three-component, 'sandwich' hybrid when the relevant gene is present in the sample. Since the hybridization can only take place in the presence of the relevant gene, the amount of radioactivity binding to the filters will be proportional to the concentration of this gene in the sample. We utilized the α-amylase gene on the plasmid to form the sandwich hybrid. The copy number was of a totally different magnitude from what has previously been reported, and ranged from 2500 copies/viable cell in early logrithimic growth phase to about 500 in late stationary phase.     

Enrichment of plasmid DNA in cell membranes of Bacillus subtilis

Abstract The discrepancy between previously reported copy numbers for the plasmid pUB110 in Bacillus subtilis and the copy number determined by nucleic acid sandwich hybridization of a pUB110-derivative, pKTH10, was studied. The bulk of plasmid DNA was found to be enriched in the cell membranes in a non-covalently closed circular (ccc) form. The binding was strong enough to resist standard solubilization procedures. The conventional methods for copy number determination fail to detect plasmid DNA in this form, which explains the discrepancy we encountered. The copy number of the parental plasmid, pUB110, was also determined by the sandwich hybridization method and found to be of the same order of magnitude as that of pKTH10.     

Enhancement of bovine growth hormone gene expression by increasing the plasmid copy number

Effect of copy number on the expression of bovine growth hormone gene (bGH) was investigated using the copy number mutants such as pKBJ10, pBJ( tet)10, pUBJ10-1, and pUBJ10 plasmids. The cells harboring plasmids below 84 copies/cell did not produced detectable levels of bGH. When the ColE1 replicon was replaced with the mutated ColE1 replicon originated from pUC19 plasmid, the copy number was increased to about 300 copies/cell and bGH production was enhanced by 11.5% (pUBJ10-1) and 12.3% of total cell protein (pUBJ10). A large amount of mRNA caused by increment of copy number would be needed to overcome some inhibitory threshold and might be an important factor for regulating bGH expression.     

Complete nucleotide sequences of Bacillus plasmids pUB110dB, pRBH1 and its copy mutants

Summary The deletion plasmids, pRBH1 (1.5 MDa, kanamycin resistance, Km^r) and pUB110dB (1.5 MDa, Km^r), were obtained from pTB913 (2.9 MDa, Km^r, isolated from a thermophilic bacillus) and pUB110 (3.0 MDa, Km^r, from Staphylococcus aureus), respectively. All the nucleotide sequences of these deletion plasmids were determined. Replication origin regions of pRBH1 and pUB110dB contained, respectively, 63 base-pair inverted repeat and a large open reading frame, encoding RepB protein (235 amino acid residues). The nucleotide sequences were identical to each other except for one base in the center of the inverted repeat. Two copy number mutant plasmids, pRBHC3 and pRBHC7, were obtained from pRBH1. The mutation points were located at different positions in the RepB protein coding region (Gly to Asp for pRBHC3 and Gly to Glu for pRBHC7). RepB protein was shown to be involved in the copy number control of these plasmids.     

Isolation and characterization of a conditional replication mutant of the antibiotic resistance factor R1 affected in the gene of the replication protein RepA

Summary In vitro mutagenesis with hydroxylamine of a ParD^- miniderivative of R1, pAB174, yielded mutants that were less stable in the cell than pAB174. Some of these mutants had a thermosensitive phenotype. The replication of pAB2623, one of the thermosensitive mutants, was inhibited in the cell at the restrictive temperature of 42° C. The efficiency of the RepA protein of pAB2623 to promote replication of R1 in an in vitro assay was greatly reduced. Sequence analysis indicated that the repA gene of pAB2623 contains, close to its 3 end, two GC-AT transitions, separated by a single base, that change two consecutive codons of the gene. These results indicate that the phenotype of the mutant is the consequence of a mutated RepA protein and is consistent with the requirement of RepA for the in vivo replication of this plasmid.     

利用蛋白酶产生菌固态发酵去除豆粕中抗原蛋白

从实验室保藏的菌种中,筛选出固态发酵所需的高产蛋白酶菌株,进行豆粕发酵。以抗源蛋白去除情况作为考察指标,通过条件优化发现,在豆粕水分质量分数为45%,颗粒直径在1.0-2.0 mm,发酵温度35℃,发酵时间为50 h时,抗原蛋白的去除率在90%以上。通过十二烷基磺酸钠（SDS）聚丙烯酰胺凝胶电泳,发现抗源蛋白得到有效降解,分解为相对分子质量小于10 000的肽类物质。     

Isolation of a gene essential for biosynthesis of the lipopeptide antibiotics plipastatin B1 and surfactin in Bacillus subtilis YB8

Bacillus subtilis YB8 was found to produce the lipopeptide antibiotics surfactin and plipastatin B1. A gene, lpa-8, required for the production of both lipopeptides was cloned from strain YB8. When this gene was inactivated in strain YB8, neither surfactin nor plipastatin B1 was produced. However, the defective strain transformed with an intact lpa-8 gene had restored ability to produce both peptides. Nucleotide sequence analysis of the region essential for the production of the peptides revealed the presence of a large open reading frame. The deduced amino acid sequence of lpa-8 (224 amino acid residues) showed sequence similarity to that of sfp (from surfactin-producing B. subtilis), lpa-14 (from iturin A- and surfactin-producing B. subtilis), psf-1 (from surfactin-producing Bacillus pumilus), gsp (from gramicidin-S-producing Bacillus brevis), and entD (from siderophore-enterobactin-producing Escherichia coli), which are able to complement a defect in the sfp gene and promote production of the lipopeptide antibiotic surfactin. The sequence similarity among these proteins and the product similarity of cyclic peptides suggests that they might be involved in the biosynthesis or secretion of the peptides. Received: 14 July 1995 / Accepted: 22 December 1995     

Assembly of the CotSA coat protein into spores requires CotS in Bacillus subtilis

The CotSA protein, encoded by cotSA (ytxN) of Bacillus subtilis, was detected from the cells at 5 h after the onset of sporulation (T5) and in the spore coat of wild-type cells, but not in cotE, cotS, gerE, or cotSA mutant spores. CotSA was also detected in the sporangium at T5 to T7 but not in the sporangium at T18 of cotS mutant cells, while the incorporation of CotS into the coat was not dependent upon CotSA. These results suggested that CotSA was synthesized simultaneously with CotS during T5 to T7 of sporulation and assembled into the coat dependent upon CotS.     

Purification and characterization of RepA, a protein involved in the copy number control of plasmid pLS1.

The promiscuous streptococcal plasmid pLS1 encodes for the 5.1 kDa RepA protein, involved in the regulation of the plasmid copy number. Synthesis of RepA was observed both in Bacillus subtilis minicells and in an Escherichia coli expression system. From this system, the protein has been purified and it appears to be a dimer of identical subunits. The amino acid sequence of RepA has been determined. RepA shows the alpha helix-turn-alpha helix motif typical of many DNA-binding proteins and it shares homology with a number of repressors, specially with the TrfB repressor encoded by the broad-host-range plasmid RK2. DNase I footprinting revealed that the RepA target is located in the region of the promoter for the repA and repB genes. Trans-complementation analysis showed that in vivo, RepA behaves as a repressor by regulating the plasmid copy number. We propose that the regulatory role of RepA is by limitation of the synthesis of the initiator protein RepB.     

Effect of depletion of FtsY on spore morphology and the protein composition of the spore coat layer in Bacillus subtilis

Bacillus subtilis FtsY is a homolog of the alpha-subunit of mammalian signal recognition particle (SRP) receptor, and is essential for protein translocation and vegetative cell growth. An FtsY conditional null mutant (strain ISR39) can express ftsY during the vegetative stage but not during spore formation. Spores of ISR39 have the same resistance to heat and chloroform as the wild-type, while their resistance to lysozyme is reduced. Electron microscopy showed that the outer coat of spores was incompletely assembled. The coat protein profile of the ftsY mutant spores was different from that of wild-type spores. The amounts of CotA, and CotE were reduced in spore coat proteins of ftsY mutant spores and the molecular mass of CotB was reduced. In addition, CotA, CotB, and CotE are present in normal form at T(8) of sporulation in ftsY mutant cells. These results suggest that FtsY has a pivotal role in assembling coat proteins onto the coat layer during spore morphogenesis.     

Nucleotide sequence and characterization of a maize cytoplasmic ribosomal protein S11 cDNA

We isolated a Zea mays cDNA encoding the 40S subunit cytoplasmic ribosomal protein S11. The nucleotide sequence was determined and the derived amino acid sequence compared to the corresponding Arabidopsis thaliana protein showing an homology of 90%. This ribosomal protein is encoded by a small multigene family of at least two members. The mRNA steady-state level is about one order of magnitude higher in rapidly growing parts of the plant such as the roots and shoots of seedlings compared to fully expanded leaf tissue.