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 Φg1e 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 Φg1e 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 Φg1e containing cpg and cng was inferred to function as a promoter/repressor system for the Φg1e lysogenic and lytic pathway

Prospective study of daily low-dose nedaplatin and continuous 5-fluorouracil infusion combined with radiation for the treatment of esophageal squamous cell carcinoma

<p>Abstract</p> <p>Background</p> <p>Protracted low-dose concurrent chemotherapy combined with radiation has been proposed for enhanced treatment results for esophageal cancer. We evaluated the efficacy and the toxicity of a novel regimen of daily low-dose nedaplatin (cis-diammine-glycolatoplatinum) and continuous infusion of 5-fluorouracil (5-FU) with radiation in patients with esophageal squamous cell carcinoma.</p> <p>Methods</p> <p>Between January 2003 and June 2008, 33 patients with clinical stage I to IVB esophageal squamous cell carcinoma were enrolled. Nedaplatin (10 mg/body/day) was administered daily and 5-FU (500 mg/body/day) was administered continuously for 20 days. Fractionated radiotherapy for a total dose of 50.4-66 Gy was administered together with chemotherapy. Additional chemotherapy with nedaplatin and 5-FU was optionally performed for a maximum of 5 courses after chemoradiotherapy. The primary end-point of this study was to evaluate the tumor response, and the secondary end-points were to evaluate the toxicity and the overall survival.</p> <p>Results</p> <p>Twenty-two patients (72.7%) completed the regimen of chemoradiotherapy. Twenty patients (60.6%) achieved a complete response, 10 patients (30.3%) a partial response. One patient (3.0%) had a stable disease, and 2 (6.1%) a progressive disease. The overall response rate was 90.9% (95% confidence interval: 75.7%-98.1%). For grade 3-4 toxicity, leukopenia was observed in 75.8% of the cases, thrombocytopenia in 24.2%, anemia in 9.1%, and esophagitis in 36.4%, while late grade 3-4 cardiac toxicity occurred in 6.1%. Additional chemotherapy was performed for 26 patients (78.8%) and the median number of courses was 3 (range, 1-5). The 1-, 2- and 3-year survival rates were 83.9%, 76.0% and 58.8%, respectively. The 1- and 2-year survival rates were 94.7% and 88.4% in patients with T1-3 M0 disease, and 66.2% and 55.2% in patients with T4/M1 disease.</p> <p>Conclusion</p> <p>The treatment used in our study may yield a high complete response rate and better survival for each stage of esophageal squamous cell carcinoma.</p> <p>Trial registration</p> <p>ClinicalTrials.gov Identifier: NCT00197444</p

Aureolysin of <i>Staphylococcus warneri</i> M accelerates its proteolytic cascade, and participates in biofilm formation

<p>The aureolysin (Aur) gene of <i>S. warneri</i> M (<i>aurWM</i>) was cloned and sequenced. Analyses of the <i>aurWM</i>-inactivated mutant (<i>S. warneri</i> Mau) suggested that AurWM was probably associated with efficient processing of the PROM protease (homolog of V8/SspA serine protease), whereas considerable amount of mature-PROC protease (homolog of SspB cysteine protease) accumulated without AurWM. Additionally, AurWM appeared to affect biofilm formation in an uncertain suppressive way.</p

Cloning and nucleotide sequence of the major capsid proteins of Lactobacillus bacteriophage Φgle

Bacteriophage Φgle was induced from a lysogenic Lactobacillus strain Gle. Φgle 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

Photomanipulation of antibiotic susceptibility and biofilm formation of Escherichia coli heterologously expressing photoactivated adenylyl cyclase

A cyaA-deficient Escherichia coli strain was transformed by a plasmid carrying the gene for BsPAC, a photoactivated adenylyl cyclase identified from a Beggiatoa sp., and was subjected to an antibiotic susceptibility assay and biofilm formation assay under a light or dark condition. Cells expressing BsPAC that were incubated under blue light (470 nm) were more susceptible to fosfomycin, nalidixic acid and streptomycin than were cells incubated in the dark. Cells expressing BsPAC formed more biofilms when incubated under the light than did cells cultured in the dark. We concluded from these observations that it is possible to determine the importance of cAMP in antibiotic susceptibility and biofilm formation of E. coli by photomanipulating the cellular cAMP level by the use of BsPAC. A site-directed mutant of BsPAC in which Tyr7 was replaced by Phe functioned even in the dark, indicating that Tyr7 plays an important role in photoactivation of BsPAC. Results of mutational analysis of BsPAC should contribute to an understanding of the molecular basis for photoactivation of the protein