S1 Nuclease Digestion Research Articles

Molecular diversity associated with the dissemination of CTX-M-15 beta-lactamase gene in blood culture isolates of Escherichia coli from Edinburgh

Escherichia coli producing the CTX-M-15 β-lactamase are a major cause of infection. We present the characterization of plasmids encoding the CTX-M-15 β-lactamase gene, the genetic environment, and the mode of spread of this gene in blood culture isolates from a single hospital. Blood culture E. coli isolates with extended spectrum β-lactamase (ESBL) phenotype were screened for the presence of the bla(CTX-M) gene, other ESBLs, and aac(6')-Ib-cr genes. The genetic environment of bla(CTX-M) was determined by DNA sequencing. Plasmids were classified by their incompatibility group from polymerase chain reaction (PCR) replicon typing. Plasmid numbers and sizing were assessed by alkaline lysis and S1 nuclease digestion. Genotyping of the strains was determined by pulsed-field gel electrophoresis (PFGE) and ST131 by allele-specific PCR. Seven isolates had bla(CTX-M-15), with these isolates additionally having bla(TEM) (n = 5), bla(OXA) (n = 6), and aac(6')-Ib-cr (n = 6). Insertion sequence ISEcp1 was found upstream of the bla(CTX-M) gene, and in 2 isolates, ISEcp1 was found to be truncated with insertion sequence IS26. Plasmid replicon typing showed bla(CTX-M-15) genes were carried on the IncFII plasmid. All 7 isolates were associated with the O25b-ST131 clone. The PFGE banding pattern showed only 3 isolates were able to demonstrate clonality. This study shows the molecular diversity associated with the dissemination of bla(CTX-M-15) in a single Scottish hospital, which is largely due to horizontal transfer of multi- resistance IncF plasmids rather than clonal spread. It demonstrates that more detailed information is needed to monitor these bacteria to control them appropriately.

Isolation and Molecular Characterization of Vancomycin‐Resistant Enterococcus faecium from Swine in Michigan, USA

In 2008, we identified vancomycin-resistant enterococci (VRE) in Michigan swine, which was the first report of VRE in livestock from North America. Continued sampling in 2009 and 2010 was conducted to determine whether VRE persisted in Michigan. In 2009, swine faecal and feed samples (n=56), county fair pig barn manure samples (n=9) and pooled Michigan State Fair pig barn manure samples (n=18) were screened for VRE. In 2010, swine faecal samples were collected from 26 county fairs (n=73) and nine commercial swine farms in six states (n=28). Recovered VRE isolates were molecularly evaluated by polymerase chain reaction, restriction fragment length polymorphism, pulsed-field gel electrophoresis (PFGE), S1 nuclease digestion and multilocus sequence typing (MLST). Six VRE isolates were identified in 2009 from the State Fair, and another six (8.2%) were recovered from the five county fairs in 2010. All 12 isolates were highly related to the first-reported VRE from Michigan swine: all were confirmed to be vancomycin-resistant Enterococcus faecium (VREf) carrying vanA gene on Tn1546 (Type D), were negative for IS1251, hyl and esp gene, carried a 150-160 kb megaplasmid, and have closely similar PFGE patterns with >80% similarity. Classified as ST5, ST6 or ST185 by MLST, all belong to the clonal complex 5, a strain recognized to be circulating among European pigs. This study reveals that VREf are widespread in Michigan swine and persist in the historical absence of the use of agricultural glycopeptides.

Human DNA damage by the synergistic action of 4‐aminobiphenyl and nitric oxide: An immunochemical study

4-Aminobiphenyl (4-ABP), an aromatic amine is a major environmental carcinogen found mainly in cigarette smoke. It has been vastly implicated in mutagenesis and cancer development. In this study, commercially available human placental DNA was exposed to 4-ABP (1.3 mM) in presence of sodium nitroprusside (SNP; 8 mM) at 37°C for 3 h. The 4-ABP + SNP-mediated structural changes in human DNA were studied by ultraviolet, circular dichroism and fluorescence spectroscopy, thermal melting profile, agarose gel electrophoresis, and nuclease S1 digestibility assay. Spectroscopical analysis and melting temperature studies suggest structural perturbations in the DNA as a result of modification. This might be due to generation of single-stranded regions and destabilization of hydrogen bonds. Modification was also visualized in agarose gel electrophoresis. Furthermore, nuclease S1 digestibility confirmed the generation of single strand breaks. Rabbits challenged with 4-ABP-SNP-modified human DNA-induced high-titer immunogen-specific antibodies, which showed Cross-reaction with modified/unmodified DNA bases and ss-DNA in competitive inhibition assay. The immunogen specificity of induced antibodies against 4-ABP-SNP-modified human DNA was further confirmed in gel retardation assay. It may be concluded that induction of anti-modified DNA antibodies could be due to perturbation in the DNA structure and its subsequent recognition by immunoregulatory cells as a foreign molecule.

Acquired immunogenicity of human DNA damaged by N‐hydroxy‐N‐acetyl‐4‐aminobiphenyl

4-Aminobiphenyl, a known carcinogen, has many environmental sources like cigarette smoke, industrial waste, and so forth. It can be metabolized to form a potent mutagen, N-hydroxy-N-acetyl-4-aminobiphenyl (N-OH-AABP) that undergoes further processing to form electrophilic nitrenium ions which interact with DNA-forming covalent adducts, thereby exerting genotoxic effects. While the mutagenicity of N-OH-AABP has been amply reported, no extensive studies have been performed to assess the immunogenicity of N-OH-AABP-modified DNA. In this study, human placental DNA was modified with N-OH-AABP, and the structural perturbations in the DNA molecule were evaluated by ultraviolet spectroscopy and nuclease S1 digestion. Native and N-OH-AABP-modified DNA were used as antigens for immunizing female rabbits. The modified DNA was found to be highly immunogenic, eliciting high titer immunogen-specific antibodies, while the native form was almost nonimmunogenic. The induced antibodies exhibited wide range of heterogeneity in recognizing various nucleic acid conformers and DNA bases. We also detected deposits of immune complex in glomerular basement membrane in rabbits immunized with N-OH-AABP-DNA. Possible role of N-OH-AABP-DNA in the induction of antibodies in cancer patients and the related consequences have been discussed.

Nosocomial Outbreak of VIM-1-Producing Klebsiella pneumoniae Isolates of Multilocus Sequence Type 15: Molecular Basis, Clinical Risk Factors, and Outcome

We study the epidemiology, molecular basis, clinical risk factors, and outcome involved in the clonal dissemination of VIM-1-producing Klebsiella pneumoniae isolates in the hospital setting. All patients infected/colonized by carbapenem-nonsusceptible K. pneumoniae (CNSKP) in 2009 were included. Molecular epidemiology was studied by pulsed-field gel electrophoresis (PFGE) and multilocus sequence typing (MLST). Antibiotic resistance genes were analyzed by PCR and sequencing. Plasmids were studied by PFGE with S1 nuclease digestion and for incompatibility group by a PCR-based replicon typing scheme. Risk factors associated with CNSKP colonization/infection were assessed by an observational case-control study. All 55 patients studied were infected (n = 28) or colonized (n = 27) by VIM-1-producing K. pneumoniae. All but one acquired isolates of a single clone (PFGE cluster 1 [C1], sequence type 15 [ST15]), while another clone (PFGE C2, ST340) was detected in four patients. C1 isolates also produced the new extended-spectrum β-lactamase SHV-134. bla(VIM-1) was carried in a class 1 integron and an untypeable plasmid of ∼50 bp. The number of days that the patient received mechanical ventilation, the use of parenteral nutrition, previous treatment with linezolid, and treatment with extended-spectrum cephalosporins for more than 7 days were detected to be independent risk factors for CNSKP acquisition. The VIM-1-producing K. pneumoniae ST15 clone has a high capacity to spread among intensive care unit patients with severe underlying conditions. A high rate of associated mortality and great difficulty in controlling the spread of this clone, without permanent behavioral changes in the personnel, were observed.

Extended-Spectrum-β-Lactamase-Producing Escherichia coli as a Cause of Pediatric Infections: Report of a Neonatal Intensive Care Unit Outbreak Due to a CTX-M-14-Producing Strain

Little information is available about pediatric infections caused by extended-spectrum-β-lactamase (ESBL)-producing Escherichia coli. We characterized an outbreak caused by a CTX-M-14-producing E. coli isolate in a neonatal intensive care unit (NICU) and studied other infections caused by ESBL-producing E. coli in non-NICU pediatric units. All children ≤4 years old who were infected or colonized by ESBL-producing E. coli isolates between January 2009 and September 2010 were included. Molecular epidemiology was studied by phylogroup analysis, pulsed-field gel electrophoresis (PFGE), and multilocus sequence typing. Antibiotic resistance genes were analyzed by PCR and sequencing. Plasmids were studied by PFGE with S1 nuclease digestion and by incompatibility group analysis using a PCR-based replicon-typing scheme. Of the ESBL-producing E. coli isolates colonizing or infecting the 30 newborns, identical PFGE results were observed for 21 (70%) isolates, which were classified as CTX-M-14-producing E. coli of ST23 phylogroup A. bla(CTX-M-14a) was linked to ISEcp1 and was carried on an ∼80-bp IncK plasmid. A smaller ongoing outbreak due to SHV-12-producing ST131 E. coli was also identified in the same NICU. Fifteen additional infections with ESBL-producing E. coli were identified in non-NICU pediatric units, but none was caused by the CTX-M-14-producing E. coli epidemic clone. Overall, CTX-M-14 (71.1%), CTX-M-15 (13.3%), and SHV-12 (13.3%) were the most important ESBLs causing pediatric infections in this study. Infections of newborns with CTX-M-14-producing E. coli were caused by both clonal and nonclonal isolates.

Epidemiology and molecular characterisation of metallo-β-lactamase-producing Enterobacteriaceae in a university hospital Intensive Care Unit in Greece

The molecular epidemiology of VIM-producing Enterobacteriaceae isolated at the beginning of an epidemic in the Intensive Care Unit (ICU) of a university hospital in Athens, Greece, was studied. All Gram-negative organisms isolated from March 2004 to November 2005 positive for metallo-β-lactamase (MBL) production were submitted to polymerase chain reaction (PCR) and sequencing, to repetitive sequence-based PCR (Rep-PCR) for molecular typing, and to S1 nuclease digestion for plasmid DNA characterisation. Conjugation experiments and isoelectric focusing were performed to identify co-existing β-lactamases. Amongst 23 patients, 12 suffered one or more clinical infections. Eighty-two isolates representing one isolate per clone, source and ICU patient were studied, including Klebsiella pneumoniae (77), Enterobacter cloacae (2), Citrobacter freundii (1) and Pseudomonas aeruginosa (2). High clonal diversity was detected amongst the K. pneumoniae, with 10 distinct clones identified. Conjugation was successful in 54.5% of K. pneumoniae, and five different-sized plasmids were detected. All K. pneumoniae and both E. cloacae isolates shared the same blaVIM-1-containing class 1 integron structure also carrying aacA7, dhfrI and aadA1 gene cassettes. The C. freundii isolate carried a different integron that included blaVIM-1 and aac(6′)-IIc. Both P. aeruginosa isolates were positive for blaVIM-2. It was not possible to identify specific clones with the potential to cause clinical infections. In conclusion, a multiclonal cluster of MBL-producers was responsible for the first cases of colonisation and/or infection in the ICU. A single integron structure, common in Greek hospitals, efficiently disseminated between clones and species, suggesting that the epidemic was mainly the result of successful horizontal transfer of mobile genetic material rather than the result of horizontal transfer of one or a few clones.

Stability Studies on Random Folded RNAs (‘Never Born RNAs’), Implications for the RNA World

AbstractIn the last years, we have developed a method for the study of random RNA sequences with the aim of investigating their capacity to assume folded and possibly functionally active (ribozymes) structures. The RNA Foster assay developed in our laboratory is a powerful, simple, and fast method to investigate the structural properties of RNA by assessing the presence of secondary domains and their thermal stability through the combination of S1 nuclease activity at different temperatures. In this work, we investigated the structural properties of totally de novo random RNAs, 97‐nucleotides‐long, of which 60 nucleotides were completely random. The rationale behind this was to assess whether and to what extent random RNAs would acquire a stable fold as a prerequisite for catalytic activity. A library of random sequences was created, and 18 sequences were randomly selected and analyzed. Surprisingly, most of the RNAs were resistant to S1 nuclease digestion at up to 50°, and two sequences were resistant even at 70°, suggesting that these totally random RNA molecules could posses a stable secondary structure over a broad range of temperatures under the conditions used. We discuss the possible relevance of these data for the general scenario of the RNA world.

Protein switches identified from diverse insertion libraries created using S1 nuclease digestion of supercoiled‐form plasmid DNA

We demonstrate that S1 nuclease converts supercoiled plasmid DNA to unit-length, linear dsDNA through the creation of a single, double-stranded break in a plasmid molecule. These double-stranded breaks occur not only in the origin of replication near inverted repeats but also at a wide variety of locations throughout the plasmid. S1 nuclease exhibits this activity under conditions typically employed for the nuclease's single-stranded nuclease activity. Thus, S1 nuclease digestion of plasmid DNA, unlike analogous digestion with DNaseI, effectively halts after the first double-stranded break. This property makes easier the construction of large domain insertion libraries in which the goal is to insert linear DNA at a variety of locations throughout a plasmid. We used this property to create a library in which a circularly permuted TEM1 β-lactamase gene was inserted throughout a plasmid containing the gene encoding Escherichia coli ribose binding protein. Gene fusions that encode allosteric switch proteins in which ribose modulates β-lactamase catalytic activity were isolated from this library using a combination of a genetic selection and a screen.

Label-free detection of polynucleotide single-base mismatch via pyrene probe excimer emission

The pyrene probe and pyrene-labeled oligonucleotides (ODNs) probe are expected to be candidates as fluorescent probe for DNA assay. In particular, label-free detection is a very hot because of its simpleness, speediness and cheapness. Herein, we have investigated the use of a pyrenylakylammonium salt, a novel fluorescent probe for the detection of one single nucleotide polymorphism (SNP) in double stranded DNA. After S1 nuclease digestion, the pyrene probes bind electrostatically to the perfect complement DNA and emit a strong excimer emission. However, treatment of the non-complementary DNA with S1 nuclease caused nucleotide fragments of less than 5 bases, which could not induce excimer emission. By comparing ratio of excimer to monomer fluorescence between normal and mutant DNA after S1 nuclease digestion, One-base mutation in DNA was detected easily. This new method may be applied to the detection of SNP.

Poly(ADP-ribose) Polymerase-1 (PARP-1) Contributes to the Barrier Function of a Vertebrate Chromatin Insulator

The prototypic chromatin insulator cHS4 has proven effective in reducing silencing chromosomal position effects in a variety of settings. Most of this barrier insulator activity has been mapped to a 250-bp core region, as well as to several proteins that bind this region. However, recent studies from our laboratory demonstrated that an extended 400-bp core region of the cHS4 element is necessary to achieve full barrier insulator activity when used as a single copy in the context of recombinant gammaretroviral and lentiviral vectors. In this study, electrophoretic gel mobility shift assays revealed specific DNA-protein binding activities associated with the distal portion of this extended core region. Affinity purification and tandem mass spectrometry studies led to the identification of one of these proteins as poly(ADP-ribose) polymerase-1 (PARP-1). The identity of this binding activity as PARP-1 was subsequently verified by a variety of biochemical studies in vitro and by chromatin immunoprecipitation studies in vivo. Functional studies with gammaretroviral reporter vectors in cell lines and primary mouse bone marrow progenitor cultures showed that cHS4 barrier activity was abrogated upon mutation of the putative PARP-1-binding site or upon treatment with a PARP inhibitor, respectively. The barrier activity of the cHS4 element was also found to be abrogated in studies using bone marrow from Parp1-null mice. Taken together, this study demonstrates that binding of PARP-1 plays a key functional role in the barrier activity of the extended cHS4 insulator core element.

Emergence of a new antibiotic resistance mechanism in India, Pakistan, and the UK: a molecular, biological, and epidemiological study

SummaryBackgroundGram-negative Enterobacteriaceae with resistance to carbapenem conferred by New Delhi metallo-β-lactamase 1 (NDM-1) are potentially a major global health problem. We investigated the prevalence of NDM-1, in multidrug-resistant Enterobacteriaceae in India, Pakistan, and the UK.MethodsEnterobacteriaceae isolates were studied from two major centres in India—Chennai (south India), Haryana (north India)—and those referred to the UK's national reference laboratory. Antibiotic susceptibilities were assessed, and the presence of the carbapenem resistance gene blaNDM-1 was established by PCR. Isolates were typed by pulsed-field gel electrophoresis of XbaI-restricted genomic DNA. Plasmids were analysed by S1 nuclease digestion and PCR typing. Case data for UK patients were reviewed for evidence of travel and recent admission to hospitals in India or Pakistan.FindingsWe identified 44 isolates with NDM-1 in Chennai, 26 in Haryana, 37 in the UK, and 73 in other sites in India and Pakistan. NDM-1 was mostly found among Escherichia coli (36) and Klebsiella pneumoniae (111), which were highly resistant to all antibiotics except to tigecycline and colistin. K pneumoniae isolates from Haryana were clonal but NDM-1 producers from the UK and Chennai were clonally diverse. Most isolates carried the NDM-1 gene on plasmids: those from UK and Chennai were readily transferable whereas those from Haryana were not conjugative. Many of the UK NDM-1 positive patients had travelled to India or Pakistan within the past year, or had links with these countries.InterpretationThe potential of NDM-1 to be a worldwide public health problem is great, and co-ordinated international surveillance is needed.FundingEuropean Union, Wellcome Trust, and Wyeth.

Prevalence and characterization of plasmids carrying sulfonamide resistance genes among Escherichia coli from pigs, pig carcasses and human.

BackgroundSulfonamide resistance is very common in Escherichia coli. The aim of this study was to characterize plasmids carrying sulfonamide resistance genes (sul1, sul2 and sul3) in E. coli isolated from pigs and humans with a specific objective to assess the genetic diversity of plasmids involved in the mobility of sul genes.MethodsA total of 501 E. coli isolates from pig feces, pig carcasses and human stools were tested for their susceptibility to selected antimicrobial. Multiplex PCR was conducted to detect the presence of three sul genes among the sulfonamide-resistant E. coli isolates. Fifty-seven sulfonamide-resistant E. coli were selected based on presence of sul resistance genes and subjected to conjugation and/or transformation experiments. S1 nuclease digestion followed by pulsed-field gel electrophoresis was used to visualize and determine the size of plasmids. Plasmids carrying sul genes were characterized by PCR-based replicon typing to allow a comparison of the types of sul genes, the reservoir and plasmid present.ResultsA total of 109/501 isolates exhibited sulfonamide resistance. The relative prevalences of sul genes from the three reservoirs (pigs, pig carcasses and humans) were 65%, 45% and 12% for sul2, sul1, and sul3, respectively. Transfer of resistance through conjugation was observed in 42/57 isolates. Resistances to streptomycin, ampicillin and trimethoprim were co-transferred in most strains. Class 1 integrons were present in 80% of sul1-carrying plasmids and 100% of sul3-carrying plasmids, but only in 5% of sul2-carrying plasmids. The sul plasmids ranged from 33 to 160-kb in size and belonged to nine different incompatibility (Inc) groups: FII, FIB, I1, FIA, B/O, FIC, N, HI1 and X1. IncFII was the dominant type in sul2-carrying plasmids (52%), while IncI1 was the most common type in sul1 and sul3-carrying plasmids (33% and 45%, respectively). Multireplicons were found associated with all three sul genes.ConclusionsSul genes were distributed widely in E. coli isolated from pigs and humans with sul2 being most prevalent. Sul-carrying plasmids belonged to diverse replicon types, but most of detected plasmids were conjugative enabling horizontal transfer. IncFII seems to be the dominant replicon type in sul2-carrying plasmids from all three sources.

Spread of plasmids containing the blaVIM-1 and blaCTX-M genes and the qnr determinant in Enterobacter cloacae, Klebsiella pneumoniae and Klebsiella oxytoca isolates

We describe 12 VIM-1-producing strains (7 Enterobacter cloacae, 2 Klebsiella pneumoniae and 3 clonal Klebsiella oxytoca strains) detected among clinically relevant Enterobacteriaceae isolates from routine cultures at the Hospital del Mar (Barcelona, Spain) from December 2006 to May 2007. Susceptibility to carbapenems was evaluated with the MicroScan system. beta-Lactamases were identified by PCR and sequencing. Clonal relationships between the isolates were analysed by PFGE. Transferability of the enzymes was tested by conjugation. Plasmid characterization was performed by PCR-based replicon typing and PFGE with S1 nuclease digestion of whole genomic DNA. The PFGE gels were then transferred and hybridized. The disc diffusion method correctly identified five of the seven E. cloacae isolates as intermediate or resistant strains. All isolates produced the VIM-1 enzyme. Three E. cloacae and three K. oxytoca strains were also CTX-M-9-producing strains, and one E. cloacae was also a CTX-M-3-producing strain. The plasmids carrying the bla(VIM) gene, of unknown incompatibility group, had a size of approximately 75 kb (eight strains) or 40 kb (three strains) and also contained the qnrS and the aac(6')-Ib-cr genes. In the remaining strain the bla(VIM-1) gene was found in an HI2 plasmid of 290 kb together with bla(CTX-M-9), qnrA, qnrS and the aac(6')-Ib-cr genes. The results showed a linkage between the bla(VIM-1) and the qnrS and the aac(6')-Ib-cr genes, and between the bla(CTX-M-9) and the qnrA genes.

Two chromosomally located qnrB variants, qnrB6 and the new qnrB16, in Citrobacter spp. isolates causing bacteraemia

The objective of this study was to determine the prevalence of the plasmid-borne quinolone resistance genes qnrA, qnrB and qnrS in a collection of Enterobacteriaceae causing bacteraemia. The presence of the three genes was tested for using multiplex PCR in 306 clinical isolates. Plasmid analysis was performed using I-CeuI and S1 nuclease digestion and hybridization with specific probes for the qnr and 23S rRNA genes. Five strains were found to carry a qnr gene, one of which, qnrB 16, a new variant of qnrB, was detected in a Citrobacter freundii isolate. The qnrB6 variant was found in two C. freundii isolates and in one Citrobacter werkmanii isolate. The qnrS2 gene was found in one Klebsiella pneumoniae isolate. The qnrA gene was not found in any of the isolates studied. The qnrS2 gene was located on a plasmid of c. 50 kb, whereas qnrB6 and qnrB16 were inserted in the chromosome between pspF and the orf2, which had previously been found in a complex integron. In the Hospital Clinic of Barcelona, Spain, the prevalence of qnrB was higher than that of qnrA and qnrS. The importance of the description of the new qnrB16 is emphasized.

PCR-Free Quantification of Multiple Splice Variants in a Cancer Gene by Surface-Enhanced Raman Spectroscopy

We demonstrate a surface-enhanced Raman spectroscopy (SERS) based array platform to monitor gene expression in cancer cells in a multiplex and quantitative format without amplification steps. A strategy comprising DNA/RNA hybridization, S1 nuclease digestion, and alkaline hydrolysis was adopted to obtain DNA targets specific to two splice junction variants, Delta(9,10) and Delta(5), of the breast cancer susceptibility gene 1 from MCF-7 and MDA-MB-231 breast cancer cell lines. These two targets were identified simultaneously, and their absolute quantities were estimated by a SERS strategy utilizing the inherent plasmon-phonon Raman mode of gold nanoparticle probes as a self-referencing standard to correct for the variability in surface enhancement. The results were then validated by reverse-transcription polymerase chain reaction. Our proposed methodology could be expanded to a higher level of multiplexing for quantitative gene expression analysis of any gene without any amplification steps.

Attenuated expression of SECIS binding protein 2 causes loss of telomeric reserve without affecting telomerase

The family of selenoproteins have a broad range of functions, including protection against oxidative damage. Previous studies have shown that elevated levels of oxidative damage can induce accelerated loss of telomeric DNA during proliferation of mammalian cells. The incorporation of selenocysteine (Sec) into proteins in mammalian cells requires the Sec insertion sequence (SECIS) binding protein 2 (SBP2). Thus in the present study we have assessed the effect of knocking down the expression of SBP2 on telomere length. Following knock-down of SBP2 expression in two different human cell lines, the MSTO mesothelioma cell line (∼5 Kb average telomere length) and SY5Y neuroblastoma cell line (∼4.2 Kb average telomere length), we observed a significant reduction (−0.6 to −1.1 Kb; P ⩽ 0.01) in telomere length as compared to control cells. This reduction in telomere length was independent of affects on telomerase, since both telomerase activity levels and Tert mRNA expression levels were not altered by knock-down of SBP2 expression. Furthermore, telomeres were particularly sensitive to S1 nuclease digestion following SBP2 knock-down, indicating an increased frequency of oxidative damage-induced lesions in the telomeric DNA in these cells. Together, these observations imply that selenoproteins may help protect telomeric reserve in mammalian cells.

Quantitative Surface-Enhanced Raman for Gene Expression Estimation

We demonstrate for the first time, to our knowledge, a unique gene expression assay by surface-enhanced Raman scattering (SERS) using nonfluorescent Raman labels to quantify gene expression at the resolution of alternative splicing using RNA extracted from cancer cells without any amplification steps. Our approach capitalizes on the inherent plasmon-phonon mode of SERS substrates as a self-referencing standard for the detection and quantification of genetic materials. A strategy integrating S1 nuclease digestion with SERS detection was developed to quantify the expression levels of splice junction Δ(9,10), a segment of the breast cancer susceptibility gene 1 (BRCA1) from MCF-7 and MDA-MB-231 cells. Quantification results were cross-validated using two Raman tags and qualitatively confirmed by RT-PCR. Our methodology based on SERS technology provides reliable gene expression data with high sensitivity, bypassing the intricacies involved in fabricating a consistent SERS substrate.

Conjugated Polyelectrolyte Amplified Thiazole Orange Emission for Label Free Sequence Specific DNA Detection with Single Nucleotide Polymorphism Selectivity

We report a simple label-free method for sequence specific DNA detection using cationic conjugated polyelectrolyte (CCP) amplified thiazole orange (TO) emission as the signal. The discrimination of perfectly complementary DNA from a one-base mismatched sequence is accomplished by S1 nuclease digestion of the hybridized peptide nucleic acid (PNA)/DNA complexes. When the target DNA is complementary to the PNA probe, the DNA/PNA complexes remain after digestion, which allows TO intercalation to give fluorescence. Addition of CCP to this solution leads to enhanced TO emission due to fluorescence resonance energy transfer (FRET) from the CCP to TO, and the solution fluorescence appears yellow. In the presence of even one base mismatched DNA or double-stranded DNA molecules, S1 nuclease can effectively digest the DNA sequences into small fragments and no dye intercalation occurs. Addition of CCP to these solutions does not induce any polymer fluorescence change, and the solution fluorescent color is blue. This method allows visual detection of target DNA with a detection limit of 5 microM, which provides good groundwork for the future exploration of real-time instrument free single nucleotide polymorphism (SNP) diagnosis.

Emergence of clonally related Klebsiella pneumoniae isolates of sequence type 258 producing plasmid-mediated KPC carbapenemase in Norway and Sweden

The class A carbapenemase KPC has disseminated rapidly worldwide, challenging the treatment of Gram-negative infections. This report describes the first KPC-producing Klebsiella pneumoniae isolates identified in Norway (n=6) and the second isolate from Sweden. Antimicrobial susceptibility profiles were determined using Etest. PCR and sequencing were used to determine the bla(KPC) variant, the surrounding genetic structure and the presence of AmpC and extended-spectrum beta-lactamase genes. PFGE and multilocus sequence typing (MLST) were used for epidemiological comparisons. Localization of bla(KPC) was investigated by S1 nuclease digestion, followed by PFGE and Southern blot hybridization. All isolates expressed a multidrug-resistant phenotype with some variability in the carbapenem susceptibility profile. The Norwegian isolates carried bla(KPC-2), while the Swedish isolate carried bla(KPC-3). All isolates carried TEM-1, but were negative for bla(CTX-M) and bla(AmpC) genes. SHV-11 and SHV-12 were detected in the Norwegian isolates, while the Swedish isolate carried only SHV-11. Isolates from four patients were associated with import from Greece (n=3) and Israel. The other isolates were probably associated with local transmissions. PFGE and MLST showed that the isolates were clonally related, with three isolates displaying ST258, a single locus variant of ST11 previously associated with the clonal spread of CTX-M-15-producing K. pneumoniae in Hungary. In all isolates, bla(KPC) was located on plasmids as part of isoform a of Tn4401. The emergence of KPC-producing isolates of K. pneumoniae in Norway and Sweden is associated with multiple import events and probable local transmission of a successful multiresistant ST258 clone, closely related to the CTX-M-15-producing ST11 clone previously described in Hungary.