Assessment of commercial chromogenic solid media for the detection of non-O157 Shiga toxin-producing Escherichia coli (STEC).

Detection of Shiga toxin-producing Escherichia coli (STEC) has evolved significantly since the introduction of sorbitol-MacConkey agar. This study compares four chromogenic media (CHROMagar™ STEC, Rainbow® O157 agar, CHROMagar™ O157, and Colorex® O157) in their identification of non-O157 STEC. When 161 non-O157 STEC were directly inoculated onto each medium, detection rates on CHROMagar™ STEC, Rainbow® O157 agar, CHROMagar™ O157 and Colorex® O157 were 90%, 70%, 3.

Molecular profiling of Escherichia coli O157:H7 and non-O157 strains isolated from humans and cattle in Alberta, Canada.

Virulence markers in Shiga toxin-producing Escherichia coli (STEC) and their association with diseases remain largely unknown. This study determines the importance of 44 genetic markers for STEC (O157 and non-O157) from human clinical cases and their correlation to disease outcome. STEC isolated from a cattle surveillance program were also included.

Off-pump coronary artery bypass surgery and acute kidney injury: a meta-analysis of randomized controlled trials.

Background And Objectives: Off-pump coronary artery bypass grafting (CABG) has been advocated to cause less inflammation, morbidity, and mortality than the more traditional on-pump technique. This meta-analysis compares these two surgical techniques with respect to causing acute kidney injury (AKI).

Design, Setting, Participants, & Measurements: This study searched for randomized controlled trials in MEDLINE and abstracts from the proceedings of scientific meetings through February 2010.

How Does an Amide-N Chemical Shift Tensor Vary in Peptides?

This study addresses a void in the existing literature on the amide-(15)N chemical shift anisotropy (CSA) tensor of peptides: a systematic investigation of how the tensor varies in different peptides. Amide-(15)N CSA tensors for several dipeptides are obtained using quantum chemical calculations, as well as for a series of model Ala-X and X-Ala sequences in both α-helical and β-sheet conformations (where X is one of the naturally occurring amino acids). The calculated values show a significant variation in both isolated and extended peptide structures.

Identification of separate structural features that affect rate and cation concentration dependence of self-cleavage by the Neurospora VS ribozyme.

The cleavage site of the Neurospora VS ribozyme is located in an internal loop in a hairpin called stem-loop I. Stem-loop I undergoes a cation-dependent structural change to adopt a conformation, termed shifted, that is required for activity. Using site-directed mutagenesis and kinetic analyses, we show here that the insertion of a single-stranded linker between stem-loop I and the rest of the ribozyme increases the observed self-cleavage rate constant by 2 orders of magnitude without affecting the Mg(2+) requirement of the reaction.

Membrane permeabilization, orientation, and antimicrobial mechanism of subtilosin A.

Subtilosin A is an antimicrobial peptide produced by the soil bacterium Bacillus subtilis that possesses bactericidal activity against a diverse range of bacteria, including Listeria monocytogenes. Recent structural studies have found that subtilosin A is posttranslationally modified in a unique way, placing it in a new class of bacteriocins. In this study, in order to understand the mechanism of membrane-disruption by subtilosin A, the interaction of the peptide with model phospholipid bilayers is characterized using fluorescence, solid-state NMR and differential scanning calorimetry (DSC) experiments.

Ab initio study of (13)C(alpha) chemical shift anisotropy tensors in peptides.

This study reports magnitudes and the orientation of the (13)C(alpha) chemical shift anisotropy (CSA) tensors of peptides obtained using quantum chemical calculations. The dependency of the CSA tensor parameters on the energy optimization of hydrogen atom positions and hydrogen bonding effects and the use of zwitterionic peptides in the calculations are examined. Our results indicate that the energy optimization of the hydrogen atom positions in crystal structures is necessary to obtain accurate CSA tensors.

Exceptionally fast self-cleavage by a Neurospora Varkud satellite ribozyme.

Most of the small ribozymes, including those that have been investigated as potential therapeutic agents, appear to be rather poor catalysts. These RNAs use an internal phosphoester transfer mechanism to catalyze site-specific RNA cleavage with apparent cleavage rate constants typically <2 min(-1). We have identified variants of one of these, the Neurospora Varkud satellite ribozyme, that self-cleaves with experimentally measured apparent rate constants of up to 10 s(-1) (600 min(-1)), approximately 2 orders of magnitude faster than any previously characterized self-cleaving RNA.