Surface plasmon resonance immunosensor for the detection of Salmonella typhi antibodies in buffer and patient serum

Surface plasmon resonance (SPR) immunosensor using 4-mercaptobenzoic acid (4-MBA) modified gold SPR chip was developed first time for the detection of flagellin specific antibodies of Salmonella typhi (S. typhi). Flagellin protein of S. typhi was prepared by recombinant DNA technology. The modification of gold chip with 4-MBA was in-situ characterized by SPR and electrochemical impedance spectroscopy. By using kinetic evaluation software, K(D) and B(max) values were calculated and found to be 26.3 fM and 62.04 m°, respectively, for the immobilized monoclonal antibody (Moab) of recombinant flagellin (r-fla) protein of S. typhi (r-fla S. typhi). In addition, thermodynamic parameters such as ΔG, ΔH and ΔS were determined first time for r-fla S. typhi and Moab of r-fla S. typhi interactions and the values revealed the interaction between r-fla S. typhi and Moab of r-fla S. typhi as spontaneous, endothermic and entropy driven one. Moreover, healthy human serum samples and patient sera (Widal positive and Widal negative) were subjected to SPR analysis. The present SPR based approach provides an alternative way for S. typhi detection in less than 10 min.     

Rapid and sensitive biosensor for Salmonella

The rapid and sensitive detection of Salmonella typhymurium based on the use of a polyclonal antibody immobilized by the Langmuir-Blodgett method on the surface of a quartz crystal acoustic wave device was demonstrated. The binding of bacteria to the surface changed the crystal resonance parameters; these were quantified by the output voltage of the sensor instrumentation. The sensor had a lower detection limit of a few hundred cells/ml, and a response time of < 100 s over the range of 10(2)-10(10) cells/ml. The sensor response was linear between bacterial concentrations of 10(2)-10(7) cells/ml, with a sensitivity of 18 mV/decade. The binding of bacteria was specific with two binding sites needed to bind a single cell. The sensors preserve approximately 75% of their sensitivity over a period of 32 days.     

Quantitation of Bacteroides forsythus in subgingival plaque comparison of immunoassay and quantitative polymerase chain reaction

Our objective was to compare three methods (enzyme-linked immunosorbent assay [ELISA], endpoint and quantitative polymerase chain reaction [E-PCR and Q-PCR]) for detection and quantitation of Bacteroides forsythus in 56 plaque samples from seven subjects with progressive periodontal disease. Samples collected in buffer were pelleted and resuspended in 500 microl of water. Fifty microl aliquots were removed for an ELISA performed on bacteria or plaque immobilized on 96-well plates and probed with B. forsythus specific antibody. An occurrence of 3.7+/-0.6 x 10(4) or more bacteria were detected by ELISA in pure culture; 26 of 54 plaque samples were positive, two samples could not be analyzed. Samples for PCR were autoclaved for 10 min prior to use. The detection level of E-PCR using primers specific for B. forsythus 16S rRNA was 200 cells and 42 out of 56 samples were positive based on ethidium bromide stained agarose gels. Q-PCR using the same primers combined with a nested fluorescent oligonucleotide probe detected 10+/-0.32 bacteria in pure culture; 43 of 56 plaque samples were positive. The ELISA and Q-PCR obtained identical results with 36 of the 54 samples assayed; there were one false positive and 17 false negative ELISA results using Q-PCR as standard. The positive proportions of plaque samples were almost the same for E-PCR and Q-PCR. We conclude that the PCR methods are more appropriate for a multicenter study because of greater sensitivity and convenience of sample transportation from clinics to a central laboratory.     

Quantitative analysis of carbodiimide modified DNA and immunoprobing by adduct specific antibodies

Antibodies have been raised against N-cyclohexyl-N-(4-methylmorpholinium)ethyl carbodiimide (CMC) modified single-stranded DNA and characterized by competitive and non-competitive immunoassays to be highly specific for CMC base adduct in homopolymers poly(dG), poly(dT) and DNA. The antibodies recognize picogram concentrations of CMC treated DNA with no cross reactivity to at least 1000-fold excess of unmodified DNA or CMC treated poly(dA). The detection limit of antibodies at 1.4 fmol CMC adduct allows quantitation at a CMC/base ratio of 4.6.10(-7). Based upon single modified base-containing synthetic oligomers, a 7-fold higher binding preference is observed for CMC modified thymine than guanine bases. CMC binding to supercoiled DNA is found to depend upon reaction temperature and ionic strength. CMC-modified supercoiled SV40 and ColE1 DNA, exhibit specific antibody binding proportional to the DNA concentration and extent of CMC modification. However, antibody binding observed is independent of the conformation or strandedness of CMC-modified DNA. DNA extensively modified with CMC retains its inherent capacity to specifically and quantitatively hybridize with complementary DNA immobilized to membranes upon direct blotting or Southern transfers from gels. Hybridized CMC-DNA, through antibody binding, provides for the sensitive and non-isotopic detection of the target DNA sequences.     

The possibilities of using variants of immunoenzyme analysis for detecting L-form Salmonella typhi bacteria in biological fluids

The possibility of using, on principle, the enzyme immunoassay (EIA) in different modifications for the detection of S. typhi L-forms in biological fluids (blood, urine) was established. The inhibiting variant of EIA showed the highest sensitivity: 1 ng/ml. The direct sandwich variant permitted the quantitative determination of the antigen of S. typhi L-form in the widest range of 20-500 ng/ml. The indirect enzyme immunometric variant permitted the detection of S. typhi L-forms with a sensitivity of 10(5) colony-forming units per ml only in urine.     

In vitro efficacy of ciprofloxacin alone and in combination with amoxycillin against Salmonella typhi isolates

Combined effect of ciprofloxacin (Ci) and amoxycillin (Ax) has been studied in vitro against 12 clinical isolates of S. typhi that showed Ci minimum inhibitory concentration (MIC) of > or =1 microg/ml. By agar dilution method, MIC values of Ax were 10-16 microg/ml for 11 isolates and 0.5 microg/ml for the remaining one isolate. The isolates, when treated with Ci and Ax in combination, showed fractional inhibitory concentration (FIC) of 0.004-0.256 microg/ml for Ci. FIC of Ax ranged from 6-10 microg/ml, except for a single isolate that showed Ax FIC of 0.25 microg/ml. Thus Ci was more efficacious in combination with Ax against S. typhi than Ci alone. The antibiotic combination exhibited an additive effect for all the isolates showing FIC index 0.504-0.832.     

Development of surface plasmon resonance imaging for detection of Acidovorax avenae subsp. citrulli (Aac) using specific monoclonal antibody

An immunosensor based on surface plasmon resonance imaging (SPR imaging) using a specific monoclonal antibody 11E5 (MAb 11E5) was developed for the detection of the seed-borne bacterium Acidovorax avenae subsp. citrulli (Aac), which causes fruit blotch in watermelons and cantaloupes, and compared to the conventional ELISA technique. The 1:40 mixed self-assembled monolayer (mixed SAM) surface was used for the immobilized MAb 11E5 on sensor surface for the detection of Aac. Both whole cells and broken cells of Aac were tested by using direct and sandwich detection assay. The limit of detection (LOD) of Aac using the SPR imaging technique and a direct detection assay was 10(6)cfu/ml and a subsequent amplification of the SPR signal using a polyclonal antibody (PAb) lowered the LOD to 5×10(5) cfu/ml. The LOD for the ELISA technique was 5×10(4) cfu/ml for the detection of Aac, which was slightly better than that for the SPR technique. However, the sensor surface based on SPR imaging offered a major advantage in terms of surface regeneration, allowing at least five cycles with a shorter time assay, multi-channel analysis with an application on multiplex detection, and an ease of the surface usage for the detection of Aac in the naturally infected plant. The surface was tested against the naturally infected sample and showed good selectivity toward the Aac bacteria.     

Phage immobilized magnetoelastic sensor for the detection of Salmonella typhimurium

In this article, a phage-based magnetoelastic sensor for the detection of Salmonella typhimurium is reported. Filamentous bacteriophage specific to S. typhimurium was used as a biorecognition element in order to ensure specific and selective binding of bacteria onto the sensor surface. Phage was immobilized onto the surface of the sensors by physical adsorption. The phage immobilized magnetoelastic sensors were exposed to S. typhimurium cultures with different concentrations ranging from 5x10(1) to 5x10(8) cfu/ml, and the corresponding changes in resonance frequency response of the sensor were studied. It was experimentally established that the sensitivity of the magnetoelastic sensors was higher for sensors with smaller physical dimensions. An increase in sensitivity from 159 Hz/decade for a 2 mm sensor to 770 Hz/decade for a 1 mm sensor was observed. Scanning electron microscopy (SEM) analysis of previously assayed biosensors provided visual verification of frequency changes that were caused by S. typhimurium binding to phage immobilized on the sensor surface. The detection limit on the order of 10(3) cfu/ml was obtained for a sensor with dimensions 1x0.2x0.015 mm.     

A Sensitive Serodiagnosis of Hepatitis C Virus (HCV) Infection with Two Non-Fused Peptides: Comparison of Antibody Responses Detected with a Newly Developed Assay and a Commercial Second-Generation Test

An enzyme-linked immunosorbent assay (ELISA) was developed for the detection of anti-HCV antibody. We assayed for antibodies against either oligopeptide (S29-1) deduced from the nucleocapsid gene or the product of nonstructural region (NS3) synthesized in a recombinant Escherichia coli (S4). To reduce false-positive results induced by non-specific binding of antibodies with a carrier protein and to increase the sensitivity of an immunoassay, non-fused S4 peptide was prepared by the recombinant DNA technique and site-specific proteolysis (by factor Xa). In 71 non-A, non-B hepatitis patients with chronic liver disease, 70 (98.5%) were positive by S29-1/S4 ELISA as well as by a second-generation test (Abbott II). On the other hand, of 40 serum samples from blood donors, in which anti-N14 (core) and C100-3 antibodies were not detected but hepatitis C virus (HCV) RNA was detectable by polymerase chain reaction (PCR), 24 (60%) were positive by S29-1/S4 ELISA, whereas only 18 (45%) were diagnosed by Abbott II. In addition, based on results in a small group of 92 blood donors, detection of anti-S29-1/S4 antibody correlated well with HCV viremia as confirmed by PCR. These results indicated that the preparation of non-fused protein (S4) by recombinant DNA technique and a combination of S29-1 and S4 as immobilized antigens in an ELISA provide a sensitive and specific diagnosis for HCV infection with good correlation with the presence of viral RNA as confirmed by PCR.     

The detection of Salmonella using a combined immunomagnetic separation and ELISA end-detection procedure

The aim of this study was to develop a rapid immunoassay to detect Salmonella bacteria. Skimmed milk powder (SMP) in buffered peptone water was inoculated with six Salmonella strains (Salm. typhimurium, Salm. virchow, Salm. enteritidis, Salm. give, Salm. ealing and Salm. arizonae) at three inoculum levels (about 2-200 cfu 25 g(-1) SMP) and incubated (37 degrees C) overnight. Heat-treated salmonella cells were immobilized on paramagnetic particles and detected within 3 h using the Salmonella genus-specific monoclonal antibody M105 in a microtitre plate based assay. The rapid Salmonella detection method combining immunomagnetic separation and ELISA had a total isolation and detection time of less than 24 h, which is significantly shorter than the conventional techniques requiring 72-96 h. The technique had a sensitivity limit of 10(5)-10(6) cfu ml(-1).     

Biological activity of 4-hydroxy-5-formylbenzoic acid derivatives. II. Esters and Schiff bases with antimicrobial activity

A number of hitherto undescribed 4-hydroxy-5-formylbenzoic acid derivatives (A), have been prepared and characterized. (formula; see text) Esters (X = CH3) and Schiff's bases (Z = N-aryl) were prepared by conventional methods and were obtained in satisfactory yield and in a good state of purity. The prepared compounds have been tested for "in vitro" activity against Gram+ bacteria (S.epidermidis, B.subtilis, B.anthracis, M.paratuberculosis), Gram- bacteria (P.aeruginosa, S.typhi murium, E.coli Bb, S.typhi O, S.typhi infantis, S.paratyphi A, S.paratyphi B) and fungi (C.albicans, A.niger, S.cerevisiae) by agar-diffusion method (Kirby-Bauer modified). The prepared compounds, generally, showed inhibitory activity against Gram+ bacteria. Esters (A: X = CH3) showed antibacteric and antimycotic activity. The greatest activity was observed in the methyl ester (XV) of 4-hydroxy-5-formylbenzoic acid (I).     

Solid phase immunoenzyme analysis of the immunospecificity of DNA from calf spleen alkylated by thiophosphamide

DNA binding activity of rabbit antiserum against calf spleen DNA's modified by thiophosphamide (DNA-T) was studied by means of solid enzyme immunoassays (ELISA). The studies demonstrated the preferential binding of the immobilized DNA-T compared to immobilized single-stranded DNA (ss-DNA) and only small preference compared to native DNA. Two antisera against DNA-T were purified by affinity chromatography on a ss-DNA-CNBr agarose from antibodies to calf spleen ss-DNA. They interacted only with the immobilized DNA-T, but not with ss-DNA or native DNA. These results demonstrated that DNA modification by thiophosphamide, decreases the immunogenicity of usual nitrogen-containing DNA bases, but detected new immunogenic specificity for adducts. Detection of new immunogenic specificity in DNA's alkylated by thiophosphamide, resulted in the development of a sensitive enzyme immunoassay for the detection of these adducts in nucleic acids, in monitoring their formation, persistence and repair damages in DNA.     

Integrated microfluidic systems with an immunosensor modified with carbon nanotubes for detection of prostate specific antigen (PSA) in human serum samples

This paper describes the development of an immunosensor coupled to glassy carbon electrode (GCE) modified with multiwall carbon nanotubes (MWCNT) (CNT-GCE) integrated with microfluidic systems for rapid and sensitive quantification of prostate specific antigen (PSA) in human serum samples. Mouse monoclonal (5G6) to PSA antibodies were immobilized on a rotating disk. PSA in the serum sample are allowed to react immunologically with the immobilized anti-tPSA and horseradish peroxidase (HRP) enzyme-labeled second antibodies specific to PSA. HRP, in the presence of hydrogen peroxide (H(2)O(2)) catalyzes the oxidation of 4-tert-butylcatechol (4-TBC), whose back electrochemical reduction was detected on CNT-GCE at -0.15 V. The electrochemical detection can be done within 1 min and total assay time was 30 min. The calculated detection limits for electrochemical detection and the ELISA procedure are 0.08 and 0.5 microg L(-1), respectively and the intra- and inter-assay coefficients of variation were below 4.5%. The electrochemical immunosensor showed higher sensitivity and lower time consumed than the standard spectrophotometric detection ELISA method, which shows potential for detecting PSA in clinical diagnosis.     

Identification and evaluation of a novel peptide binding to the cell surface of Staphylococcus aureus

Identification of short peptides that serve as specific ligands to biological materials such as microbial cell surfaces has major implications in better understanding the molecular recognition of cell surfaces. In this study we screened a commercially available random phage-display library against Staphylococcus aureus cells and identified peptides specifically binding to the bacteria. A synthetic peptide (SA5-1) representing the consensus sequence (VPHNPGLISLQG) of the bacteria-binding peptide was evaluated for its binding potential against S. aureus. Dot-blot, immunoblot assay and ELISA results revealed the SA5-1 peptide to be highly specific to S. aureus. The SA5-1 peptide binding was optimal between pH 6.0 and 8.0. Nanogold Transmission Electron Microscopy demonstrated that the SA5-1 binds to the outer membrane surface of S. aureus. Diagnostic potential of the SA5-1 peptide was evaluated in human platelet samples spiked with S. aureus and specific detection of the bacteria by biotinylated-SA5-1 and streptavidin-conjugated fluorescent quantum dots. Fluorometry results indicated that the peptide was able to detect ～100 organisms per ml in a spiked biological sample providing a proof-of-concept towards potential of this peptide as a S. aureus diagnostic tool that can be of use in different detection platforms.     

A Specific Method for the Detection of Hiochi Bacteria Using an Enzyme-linked Immunosorbent Assay System with Anti-hiochi Bacteria Monoclonal Antibodies

Ten standard strains of hiochi bacteria were selected based on the SDS-PAGE patterns of their cellular proteins. We then obtained ten hybridoma systems that secreted highly reactive monoclonal antibodies (MAbs) to the whole cells of each strain. It was apparent that these MAbs were highly reactive and specific for hiochi bacterial whole cells when using an enzyme-linked immunosorbent assay (ELISA). Three MAbs (two against the homo-fermentative hiochi lactobacilli and an MAb against the hetero-fermentative true hiochi bacilli) showed cross-reactivity to some of the other strains of lactobacilli tested. However, the other MAbs did not react with strains other than the immunogen. A sensitive ELISA method for the detection of hiochi bacteria was examined. It was possible to detect the order of 10³ cells of the ten standard strains. Using this procedure and a mixture of the ten MAbs, a detection limit of 10⁴ cells or less could be obtained for 98.2% of the hiochi bacteria isolated from sake brewing factories. Thus, this immunological technique using MAbs specific for hiochi bacteria is a sensitive and rapid detection method for hiochi bacteria, which can be used in the quality control of sake.     

Development of a one-step immunochromatographic strip test using gold nanoparticles for the rapid detection of Salmonella typhi in human serum

An immunochromatographic strip test using gold nanoparticles was developed for the rapid detection of Salmonella typhi (S. typhi) in human serum. The strip test based on the principle of sandwich immunoassay by the specific binding of antigens from S. typhi O901 and antibody of S. typhi O901 on a nitrocellulose membrane. Antibody-gold nanoparticle conjugate was used as the label and was coated onto a glass fiber membrane, which was used as a conjugate pad. To create a test and control zone, antibody of S. typhi O901 and an anti-IgG were dotted on the nitrocellulose membrane, respectively. Positive samples were displayed as red dots at the test and control zones of the nitrocellulose membrane, while negative samples resulted in a red dot only in the control zone. The limit of detection (LOD) was found to be 1.14×10(5) cfu mL(-1), which could be visually detected by the naked eye within 15 min. This strip test provided a lower detection limit and analysis time than a dot blot immunoassay (8.88×10(6) cfu mL(-1) for LOD and 110 min for reaction time). In addition, our immunochromatographic strip test was employed to detect S. typhi in human serum effectively, with high accuracy. This strip test offers great promise for a rapid, simple and low-cost analysis of S. typhi.     

A self-assembled monolayer-based piezoelectric immunosensor for rapid detection of Escherichia coli O157:H7

A piezoelectric immunosensor was developed for rapid detection of Escherichia coli O157:H7. It was based on the immobilization of affinity-purified antibodies onto a monolayer of 16-mercaptohexadecanoic acid (MHDA), a long-chain carboxylic acid-terminating alkanethiol, self-assembled on an AT-cut quartz crystal's Au electrode surface with N-hydroxysuccinimide (NHS) ester as a reactive intermediate. The binding of target bacteria onto the immobilized antibodies decreased the sensor's resonant frequency, and the frequency shift was correlated to the bacterial concentration. The stepwise assembly of the immunosensor was characterized by means of both quartz crystal microbalance (QCM) and cyclic voltammetry techniques. Three analytical procedures, namely immersion, dip-and-dry and flow-through methods, were investigated. The immunosensor could detect the target bacteria in a range of 10(3)-10(8)CFU/ml within 30-50 min, and the sensor-to-sensor reproducibility obtained at 10(3) and 10(5) colony-forming units (CFU)/ml was 18 and 11% R.S.D., respectively. The proposed sensor was comparable to Protein A-based piezoelectric immunosensor in terms of the amount of immobilized antibodies and detection sensitivity.     

An ELISA for the detection of Bacillus subtilis L-form bacteria confirms their symbiosis in strawberry

AIMS: To develop an ELISA for the detection of antigens derived from stable Bacillus subtilis L-form bacteria and to detect these in plants injected with L-form bacteria. METHODS AND RESULTS: A sandwich ELISA was developed and its specificity was investigated using L-forms and cell-walled forms of B. subtilis, different Bacillus species and a range of bacteria isolated from glasshouse-grown strawberry plants. The detection limits of the ELISA were approximately 10(3) viable cells ml(-1) for L-forms compared with 10(7) viable cells ml(-1) for cell-walled forms. Results showed that L-forms survived and moved within strawberry tissues injected with L-form bacteria. CONCLUSION: An ELISA that selectively detects B. subtilis L-form bacteria was developed and shown to confirm the presence of L-forms in plants. SIGNIFICANCE AND IMPACT OF THE STUDY: This will be a valuable rapid method to further studies on L-form plant interactions.     

Use of Clq enzyme-linked immunosorbent assay to detect plant viruses and their serologically different strains

Clq was prepared from bovine serum using a simple method involving repeated dialysis at low ionic strength in the presence of chelating agents (yield c. 3 mg/100 ml serum). It was viable when stored at -18°C for up to 2 months, and at 4°C for at least 10 wk in a storage buffer containing 10% sucrose. When used in Clq ELISA this test was as sensitive as the direct double antibody sandwich form of ELISA (direct ELISA) in detecting purified potato virus Y (PVY), with a limit of detection in both methods of c. 15 ng/ml, and slightly more sensitive in detecting purified cocksfoot mild mosaic virus (CMMV), with limits of detection of c. 15 ng/ml and c. 15–60 ng/ml respectively. Using an antiserum to one strain of each virus, Clq ELISA readily detected strains of PVY, CMMV, Andean potato latent virus (APLV) and barley yellow dwarf virus (BYDV). This included detection of APLV-Hu by APLV-Caj antibodies and CMMV(G) by PMV(S) antibodies, neither of which system gives detection in direct ELISA. Clq ELISA was therefore less specific than direct ELISA in detecting serologically different virus strains. Virus detection by Clq ELISA was inhibited when sap of tobacco, Nicotiana clevelandii and Setaria italica was used at low dilution. Inhibition by N. clevelandii sap was alleviated by using increased concentrations of virus specific antibody to detect APLV and plum pox virus. Also, extracting APLV infective N. clevelandii or CMMV infective S. italica saps in a minimum of buffer, centrifuging at low speed and diluting the supernatant before testing, partially overcame the inhibition. The inhibitory substance(s) in sap may act by preventing the binding of Clq to virus-antibody aggregates. Sap of wheat, oat and barley did not appear to have an inhibitory effect and BYDV was readily detected in naturally infected field grown plants of these species.     

Enzyme Immunoassay for Cholecystokinin Octapeptide Sulfate and Its Application

A sensitive and specific enzyme-linked immunosorbent assay (ELISA) for cholecystokinin octapeptide sulfate (CCK-8S) has been developed using N-terminal specific antibody for CCK-8S. In this assay CCK-8S coupled with poly-L-Glu (CCK-poly-Glu), which is adsorbed on a solid phase, competes with CCK-8S for the binding sites of rabbit anti-CCK antibody, and the complex of the immobilized antibody and CCK-poly-Glu is measured using goat anti-rabbit immunoglobulin G conjugated with horseradish peroxidase. The total time for completion of the assay is less than 24 h. Near 50% bound levels, the intraassay coefficient of variation is 5.2-6.2% and the interassay coefficient of variation is 5.9-8.5%. This assay is sensitive enough to detect 9 pg of CCK-8S, and the data from rat brain regions using this ELISA are very similar to the data from those using radioimmunoassay (RIA). Therefore, this ELISA is simpler and more rapid in comparison with conventional RIA. In the preliminary experiments, we applied this method for determination of CCK content in the brain regions of adult rats treated with 6-hydroxy-dopamine or in newborn rats subjected to anoxia, and showed that this system is applicable to detection of changes of endogenous CCK content.