Makiko Kakikawa

Genome structure of the Lactobacillus temperate phage φg1e: the whole genome sequence and the putative promoter/repressor system

The complete genome sequence of a Lactobacillus temperate phage phi g1e was established. The double-stranded DNA is composed of 42,259 bp, and encodes for sixty-two possible open reading frames (ORF) as well as several potential regulatory sequences. Based on comparative analysis with other related proteins of the Lactobacillus and Lactococcus phages as well as the Escherichia coli phages (such as lambda), functions were putatively assigned to several phi g1e ORFs: cng and cpg (encoding for repressors), hel (helicase), ntp (NTPase), and several ORFs (e.g., minor capsid proteins). An about 1000-bp DNA region of phi g1e containing cpg and cng was inferred to function as a promoter/repressor system for the phi g1e lysogenic and lytic pathway.

Functional and structural features of the holin HOL protein of the Lactobacillus plantarum phage Φg1e: analysis in Escherichia coli system

Lactobacillus plantarum phage phi gle has two consecutive cell lysis genes hol-lys (Oki et al., 1996b). In the present study, functional and structural properties of the hol protein (Hol) were characterized in Escherichia coli. Electron microscopic examinations showed that hol under plac in E. coli XL1-Blue injured the inner membrane to yield empty ghost cells with the bulk of the cell wall undisturbed. Northern blot analysis indicated that hol-lys genes under plac were co-transcribed, although the amount of hol transcript was larger than that of lys, ceasing via an apparently rho-independent terminator just downstream of hol. However, deletion and/or fusion experiments suggested that: (1) the N-terminal half of phi gle Hol composed of three putative transmembrane domains may be responsible for interaction with membrane; (2) the N-terminal end (five amino acids) seems nonessential; and (3) the C-terminal half containing charged amino acids appears to be involved in proper hol function. These results suggest that phi gle Hol is a member of the lambdoid holin family, but divergent in several properties from lambda holin.

Genetic and biochemical characterization of glutamyl endopeptidase of Staphylococcus warneri M

A Staphylococcus warneri strain M, newly isolated from processed seafood (smoked Watasenia scintillans), produced an extracellular protease. The protease, designated to as m-PROM (the mature form of PROM), selectively cleaved the carbonyl side of glutamic acid residues in beta-casein. Sequence of N-terminal 27 amino acids of m-PROM, RANVILPNNDRHQINDTTLGHYAPVTF, was found to be similar to those of other glutamyl endopeptidases, V8 protease (Staphylococcus aureus strain V8) and SPase (S. aureus ATCC 12600). To determine the complete primary structure and precursor of PROM, its gene (proM) was cloned and sequenced. The gene proM was found to encode for a protein of 316 amino acids. The amino acid residues from 64 to 90 completely coincided with the N-terminal 27 amino acids of the m-PROM, suggesting that the N-terminal 63 amino acids region of p-PROM (the precursor form of PROM) might be processed posttranslationally. Moreover, the whole amino acid sequence deduced from the primary structure of proM shows significant similarity to those of other glutamyl endopeptidases, V8 protease and SPase. These results suggested that PROM belongs to the glutamyl endopeptidase class. PROM, however, differs from V8 and SPase proteases in the processing site and the C-terminal region.

Cloning, sequence analysis, and expression of the genes encoding lytic functions of Bacteriophage Fg1e

Abstract The lysis genes of a Lactobacillus phage Fgle were cloned, sequenced, and expressed in Escherichia coli . Nucleotide sequencing of a 3813-bp Fgle DNA revealed five successive open reading frames (ORF), Rorf50, Rorf118, hol , and lys and Rorf175 , in the same DNA strand. By comparative analysis of the DNA sequence, the putative hol product (holin) has an estimated molecular weight is 14.2 kDa, and contains two potential transmembrane helices and highly charged N- and C-termini, resembling predicted holins (which are thought to be a cytoplasmic membrane-disrupting protein) encoded by other phages such as mvl from Lactobacillus bulgaricus , Fadh from Lactobacillus gasseri , as well as monocins from Listeria . On the other hand, the putative Fgle lys product (lysin) of 48.4 kDa shows significant similarity with presumed muramidase, known as a cell wall peptidoglycandegrading enzyme, encoded by the Lactobacillus phage mvl and Fadh, the Lactococcus lactis phage FLC3, and the Streptococcus pneumoniae phages Cp-1, Cp-7 and Cp-9. When expressed in E. coli , the Fgle lysin and/or holin decreased the cell turbidity significantly, suggesting that the Fgle hol-lys system is involved in cytolytic process.

Cloning and nucleotide sequence of the major capsid proteins of Lactobacillus bacteriophage phi gle.

Bacteriophage phi gle was induced from a lysogenic Lactobacillus strain Gle. phi gle genome is double-stranded DNA of approximately 42.5 kilo-base (kb) pairs. SDS poly-acrylamide gel electrophoresis demonstrated that the phage particles contain 4 major structural (capsid) proteins, gpB, gpG, gpO, and gpP, whose molecular weights (MW) are estimated to be 64, 43, 29 and 26 kilodaltons (kDa), respectively. More than 16 minor proteins ranging from 113 to 9.6 kDa were also detected. The genes for the major capsid proteins were cloned and each DNA sequence was determined. N-terminal amino acid alignments determined by protein sequencing completely coincided with those deduced from the nucleotide sequences.

Promoter/repressor system of Lactobacillus plantarum phage øg1e: characterization of the promoters pR49–pR–pL and overproduction of the Cro-like protein Cng in Escherichia coli

The Lactobacillus plantarum phage og1e (42259bp) has two repressor-like genes cng and cpg oriented oppositely, accompanied by three potential promoters pR, pL and pR49, and seven operator-like sequences (GATAC-boxes) (Kodaira et al., 1997). In this study, the og1e putative promoters were introduced into the Escherichia coli promoter-detecting plasmid pKK232-8. In E. coli CK111, pR (pKPR1), pL (pKPL1) and pR49 (pKPR49) exhibited distinct CAT activities. When pKPR1 or pKPL1 was coexistent with a compatible plasmid pACYC184 carrying pR-cng (pA4PRCN1), the CAT activity was decreased significantly. On the other hand, cng directed a protein (Cng) of 10.1 kDa in E. coli under the control of T7 promoter. Gel mobility-shift assays demonstrated that Cng binds specifically to a DNA region containing the GATAC-boxes. In addition, primer extension analyses demonstrated that the two sequences pR and pL act as a promoter in L. plantarum as well as in E. coli. These results suggested that the potential promoters pR and pL probably function for the lytic and lysogenic pathways, respectively, and Cng may act as a repressor presumably through the GATAC-boxes as operators.

The genetic switch for the regulatory pathway of Lactobacillus plantarum phage φg1e: characterization of the promoter PL, the repressor gene cpg, and the cpg-encoded protein Cpg in Escherichia coli

The structural and functional features of the approximately 530 bp P(L)/Gb5-Gb6-cpg-Gb7 region (P(L) overlaps Gb5) for the lysogenic pathway of L. plantarum phage (phi)gle were investigated using the cat gene of E. coli plasmid pKK232-8 as a reporter. In E. coli XL1-Blue, a recombinant plasmid pKPL2 (cat under P(L)/Gb5-Gb6) exhibited distinct CAT activity, whereas the activity of pKPLCP1 (cat under P(L)/Gb5-Gb6-cpg) was only marginal. When pKPL2 was coexistent with a compatible derivative of plasmid pACYC177 carrying P(L)/Gb5-Gb6-cpg, the CAT activity was declined to the level of pKPLCP1. On the other hand, the cpg-encoded protein Cpg was overproduced in E. coli under P(T7). The molecular mass of the purified Cpg (14.5 kDa on a SDS gel) corresponded well with that (15.1 kDa) predicted from the DNA sequence. Gel-shift and footprinting assays demonstrated that Cpg selectively binds to about 25 bp bases centered around the GATAC-box (from 1 to 7). Moreover, protein crosslinking experiments using glutaraldehyde showed that Cpg most likely functions as a dimeric form. Thus, the present results indicate that Cpg probably represses P(L) through binding to the operator GATAC-box(es), and the P(L)/cpg region might participate in the lysogenic pathway.

Purification and DNA-binding properties of the Cro-type regulatory repressor protein Cng encoded by the Lactobacillus plantarum phage φg1e

The putative repressor protein Cng (10kDa on an SDS gel) for the lytic pathway of Lactobacillus plantarum phage φg1e was purified using the Escherichia coli Pt7 system, and its DNA-binding ability for the seven operator-like sequences, the GATAC-boxes (Gb1 to Gb7), was investigated in vitro. In gel-shift assays, Cng selectively bound to the DNA fragments containing the GATAC-box(es). In addition, DNase I footprinting analysis with supercoiled DNA demonstrated that Cng can specifically cover about a 25bp region centered around each of the GATAC-boxes, although two boxes, Gb4 and Gb6, were only partially protected. Moreover, protein crosslinking experiments using glutaraldehyde suggested that Cng most likely functions as a dimer. On the other hand, the binding ability of Cpg for the GATAC-boxes in supercoiled DNA was also examined under the same conditions as in Cng; unlike Cng, Cpg covered Gb4 and Gb6 completely sufficiently as well as the other five boxes. Thus, the present and previous [Kakikawa et al., Gene 215 (1998) 371-379; 242 (2000) 155-166] results indicate a possibility that the two proteins Cng and Cpg selectively bind to the GATAC-boxes that act as operators, and can decide between the lytic or lysogenic pathways through repression of the promoter activity of P(R) as well as P(L).

Characterization of the genes encoding integrative and excisive functions of Lactobacillus phage øg1e: cloning, sequence analysis, and expression in Escherichia coli

øg1e is a temperate phage of the Lactobacillus strain G1e. The phage-host junctions attR and attL cloned from the lysogen have a 24-bp common (core) sequence implicated in recombination. DNA sequencing analysis of a 5.2-kbp SacI fragment of the øg1e phage genome (42.5 kbp) revealed two possible open reading frames (ORF), xis and int, and the phage attachment (recombination) site (attP), whose 24-bp sequence is identical to the core sequence detected in attR and attL. The deduced int product (Int) is a basic protein of 391 amino acids with an estimated pI of 9.70, and significantly resembles other presumed integrases encoded by the Lactobacillus and Lactococcus phages including øadh and øLC3, as well as the Escherichia coli phages such as lambda. The predicted øg1e xis protein (Xis) is small and very acidic (66 amino acids; pI 4.55), and shows a resemblance (32% overall identity) with a putative excisionase encoded by the Staphylococcus phage ø11. The øg1e Int with a deduced molecular mass of 45.5 kDa was overproduced in E. coli cells, and electrophoretically analyzed.

Purification and biochemical properties of an N-hydroxyarylamine O-acetyltransferase from Escherichia coli.

The N-hydroxyarylamine O-acetyltransferase of Escherichia coli has been expressed as a histidine tagged fusion protein and purified using immobilized nickel column chromatography. The molecular mass of the histidine tagged N-hydroxyarylamine O-acetyltransferase was estimated to be 60.0 kDa by gel filtration and 34.0 kDa by SDS-PAGE and DNA sequence, suggesting that the native enzyme exists as homo dimer. The catalytic properties were investigated using o-aminobenzoic acid as a substrate. No difference in acetyltransfer activity was observed between histidine tagged protein and untagged enzyme. Kinetic studies indicated a ping-pong bi bi mechanism of the catalysis. Inhibition by N-ethylmaleimide and salicylic acid was competitive with o-aminobenzoic acid and non-competitive with acetyl-CoA.