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251. Molecular Recognition in Antibody/Antigen Complexes

Author

HOUSTON UNIV TX, Willson, Richard C., McCammon, J. A., HOUSTON UNIV TX, Willson, Richard C., and McCammon, J. A.

Abstract

The objectives of this project were to characterize the structural features and intermolecular forces governing affinity and selectivity in an antibody-antigen complex of known structure, and to improve methods of simulation of protein- protein interactions. The antilysozyme antibody HyHEL-10, for which the structure of the complex with antigen is known by crystallography, was used as the primary model system. Theory and modeling efforts have included: analysis of the effects of mutations on the free energy of HyHEL-10/lysozyme binding; prediction of the conformations of antibody hypervariable loops based on primary sequence data; and fundamental studies of biomolecular electrostatic interactions in solution, including the development of tools for modeling electrostatically-mediated diffusional encounter. Experimental efforts have focused on development of recombinant expression systems for the lysozyme antigen and for the Fab fragment of the HyHEL-10 antibody, for mutagenic perturbation of key intermolecular contacts and development of biophysical methods of determining thermodynamic driving forces and effects of mutation on affinity and specificity.

Published
1993

254. Development of a quantitative fluorescence lateral flow immunoassay (LFIA) prototype for point-of-need detection of anti-Müllerian hormone

Author

Goux, Heather J., Vu, Binh V., Wasden, Katherine, Alpadi, Kannan, Kumar, Ajay, Kalra, Bhanu, Savjani, Gopal, Brosamer, Kristen, Kourentzi, Katerina, and Willson, Richard C.

Abstract

Anti-Müllerian Hormone (AMH) is a quantitative marker for ovarian reserve and is used to predict response during ovarian stimulation. Streamlining testing to the clinic or even to the physician's office would reduce inconvenience, turnaround time, patient stress and potentially also the total cost of testing, allowing for more frequent monitoring. In this paper, AMH is used as a model biomarker to describe the rational development and optimization of sensitive, quantitative, clinic-based rapid diagnostic tests.

Published
2023
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257. Advanced Approach to Simultaneous Monitoring of Multiple Bacteria in Space

Author

Eggers, Mitchell D., primary, Balch, William J., additional, Mendoza, Leopoldo G., additional, Gangadharan, Ramprasad, additional, Mallik, Arnab K., additional, McMahon, Michael G., additional, Hogan, Michael E., additional, Xaio, Du, additional, Powdrill, Thomas R., additional, Iverson, Bonnie, additional, Fox, George E., additional, Willson, Richard C., additional, Maillard, Karine I., additional, Siefert, Janet L., additional, and Singh, Narinder, additional

Published
1997
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260. VIRGO: Experiment for helioseismology and solar irradiance monitoring

Author

Fr�hlich, Claus, primary, Romero, Jos�, additional, Roth, Hansj�rg, additional, Wehrli, Christoph, additional, Andersen, Bo N., additional, Appourchaux, Thierry, additional, Domingo, Vicente, additional, Telljohann, Udo, additional, Berthomieu, Gabrielle, additional, Delache, Philippe, additional, Provost, Janine, additional, Toutain, Thierry, additional, Crommelynck, Dominique A., additional, Chevalier, Andr�, additional, Fichot, Alain, additional, D�ppen, Werner, additional, Gough, Douglas, additional, Hoeksema, Todd, additional, Jim�nez, Antonio, additional, G�mez, Maria F., additional, Herreros, Jos� M., additional, Cort�s, Teodoro Roca, additional, Jones, Andrew R., additional, Pap, Judit M., additional, and Willson, Richard C., additional

Published
1995
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265. Unified superresolution experiments and stochastic theory provide mechanistic insight into protein ion-exchange adsorptive separations.

Author

Kisley, Lydia, Jixin Chen, Mansur, Andrea P., Bo Shuang, Kourentzi, Katerina, Poongavanam, Mohan-Vivekanandan, Wen-Hsiang Chen, Dhamane, Sagar, Willson, Richard C., and Landes, Christy F.

Subjects
ION exchange chromatography, ANALYTICAL mechanics, NANOFILMS, CHROMATOGRAPHIC analysis, SURFACE chemistry
Abstract

Chromatographic protein separations, immunoassays, and biosensing all typically involve the adsorption of proteins to surfaces decorated with charged, hydrophobic, or affinity ligands. Despite increasingly widespread use throughout the pharmaceutical industry, mechanistic detail about the interactions of proteins with individual chromatographic adsorbent sites is available only via inference from ensemble measurements such as binding isotherms, calorimetry, and chromatography. In this work, we present the direct superresolution mapping and kinetic characterization of functional sites on ion-exchange ligands based on agarose, a support matrix routinely used in protein chromatography. By quantifying the interactions of single proteins with individual charged ligands, we demonstrate that clusters of charges are necessary to create detectable adsorption sites and that even chemically identical ligands create adsorption sites of varying kinetic properties that depend on steric availability at the interface. Additionally, we relate experimental results to the stochastic theory of chromatography. Simulated elution profiles calculated from the molecular-scale data suggest that, if it were possible to engineer uniform optimal interactions into ion-exchange systems, separation efficiencies could be improved by asmuch as a factor of five by deliberately exploiting clustered interactions that currently dominate the ion-exchange process only accidentally. [ABSTRACT FROM AUTHOR]

Published
2014
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276. Helium beam shadowing for high spatial resolution patterning of antibodies on microstructured diagnostic surfaces.

Author

Cacao, Eliedonna, Sherlock, Tim, Nasrullah, Azeem, Kemper, Steven, Knoop, Jennifer, Kourentzi, Katerina, Ruchhoeft, Paul, Stein, Gila E., Atmar, Robert L., and Willson, Richard C.

Abstract

We have developed a technique for the high-resolution, self-aligning, and high-throughput patterning of antibody binding functionality on surfaces by selectively changing the reactivity of protein-coated surfaces in specific regions of a workpiece with a beam of energetic helium particles. The exposed areas are passivated with bovine serum albumin (BSA) and no longer bind the antigen. We demonstrate that patterns can be formed (1) by using a stencil mask with etched openings that forms a patterned exposure, or (2) by using angled exposure to cast shadows of existing raised microstructures on the surface to form self-aligned patterns. We demonstrate the efficacy of this process through the patterning of anti-lysozyme, anti-Norwalk virus, and anti-Escherichia coli antibodies and the subsequent detection of each of their targets by the enzyme-mediated formation of colored or silver deposits, and also by binding of gold nanoparticles. The process allows for the patterning of three-dimensional structures by inclining the sample relative to the beam so that the shadowed regions remain unaltered. We demonstrate that the resolution of the patterning process is of the order of hundreds of nanometers, and that the approach is well-suited for high throughput patterning. [ABSTRACT FROM AUTHOR]

Published
2013
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277. Tuning the Magnetic Properties of Nanoparticles.

Author

Kolhatkar, Arati G., Jamison, Andrew C., Litvinov, Dmitri, Willson, Richard C., and Lee, T. Randall

Subjects
MAGNETIC properties of nanoparticles, COMPOSITE structures, DRUG side effects, MAGNETIZATION, COERCIVE fields (Electronics), TEMPERATURE
Abstract

The tremendous interest in magnetic nanoparticles (MNPs) is reflected in published research that ranges from novel methods of synthesis of unique nanoparticle shapes and composite structures to a large number of MNP characterization techniques, and finally to their use in many biomedical and nanotechnology-based applications. The knowledge gained from this vast body of research can be made more useful if we organize the associated results to correlate key magnetic properties with the parameters that influence them. Tuning these properties of MNPs will allow us to tailor nanoparticles for specific applications, thus increasing their effectiveness. The complex magnetic behavior exhibited by MNPs is governed by many factors; these factors can either improve or adversely affect the desired magnetic properties. In this report, we have outlined a matrix of parameters that can be varied to tune the magnetic properties of nanoparticles. For practical utility, this review focuses on the effect of size, shape, composition, and shell-core structure on saturation magnetization, coercivity, blocking temperature, and relaxation time. [ABSTRACT FROM AUTHOR]

Published
2013
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282. Mapping discontinuous protein-binding sites via structure-based peptide libraries: combining in silico and in vitro approaches.

Author

Jaeger, Ines S., Kretzschmar, Ines, Körner, Jana, Weiser, Armin A., Mahrenholz, Carsten C., Potty, Ajish, Kourentzi, Katerina, Willson, Richard C., Volkmer, Rudolf, and Preissner, Robert

Abstract

To perform their various functions, protein surfaces often have to interact with each other in a specific way. Usually, only parts of a protein are accessible and can act as binding sites. Because proteins consist of polypeptide chains that fold into complex three-dimensional shapes, binding sites can be divided into two different types: linear sites that follow the primary amino acid sequence and discontinuous binding sites, which are made up of short peptide fragments that are adjacent in spatial proximity. Such discontinuous binding sites dominate protein-protein interactions, but are difficult to identify. To meet this challenge, we combined a computational, structure-based approach and an experimental, high-throughput method. SUPERFICIAL is a program that uses protein structures as input and generates peptide libraries to represent the protein's surface. A large number of the predicted peptides can be simultaneously synthesised applying the SPOT technology. The results of a binding assay subsequently help to elucidate protein-protein interactions; the approach is applicable to any kind of protein. The crystal structure of the complex of hen egg lysozyme with the well-characterised murine IgG1 antibody HyHEL-5 is available, and the complex is known to have a discontinuous binding site. Using SUPERFICIAL, the entire surface of lysozyme was translated into a peptide library that was synthesised on a cellulose membrane using the SPOT technology and tested against the HyHEL-5 antibody. In this way, it was possible to identify two peptides (longest common sequence and peptide 19) that represented the discontinuous epitope of lysozyme. Copyright © 2012 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published
2013
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283. An Automated Microfluidic Chip System for Detection of Piscine Nodavirus and Characterization of Its Potential Carrier in Grouper Farms.

Author

Hsiao-Che Kuo, Ting-Yu Wang, Hao-Hsuan Hsu, Szu-Hsien Lee, Young-Mao Chen, Tieh-Jung Tsai, Ming-Chang Ou, Hsiao-Tung Ku, Gwo-Bin Lee, Tzong-Yueh Chen, and Willson, Richard C.

Subjects
EPINEPHELUS, AQUACULTURE, NODAVIRUSES, NECROSIS, MICROFLUIDICS, FISHES, BIRDS
Abstract

Groupers of the Epinephelus spp. are an important aquaculture species of high economic value in the Asia Pacific region. They are susceptible to piscine nodavirus infection, which results in viral nervous necrosis disease. In this study, a rapid and sensitive automated microfluidic chip system was implemented for the detection of piscine nodavirus; this technology has the advantage of requiring small amounts of sample and has been developed and applied for managing grouper fish farms. Epidemiological investigations revealed an extremely high detection rate of piscine nodavirus (89% of fish samples) from 5 different locations in southern Taiwan. In addition, positive samples from the feces of fish-feeding birds indicated that the birds could be carrying the virus between fish farms. In the present study, we successfully introduced this advanced technology that combines engineering and biological approaches to aquaculture. In the future, we believe that this approach will improve fish farm management and aid in reducing the economic loss experienced by fish farmers due to widespread disease outbreaks. [ABSTRACT FROM AUTHOR]

Published
2012
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284. PCR detection of nearly any dengue virus strain using a highly sensitive primer 'cocktail'.

Author

Gijavanekar, Charul, Añez-Lingerfelt, Maria, Feng, Chen, Putonti, Catherine, Fox, George E., Sabo, Aniko, Fofanov, Yuriy, and Willson, Richard C.

Subjects
DIAGNOSTIC use of polymerase chain reaction, DENGUE viruses, DNA primers, PATHOGENIC microorganisms, NUCLEOTIDE sequence, BIOLOGY experiments, COMPUTATIONAL biology
Abstract

PCR detection of viral pathogens is extremely useful, but suffers from the challenge of detecting the many variant strains of a given virus that arise over time. Here, we report the computational derivation and initial experimental testing of a combination of 10 PCR primers to be used in a single high-sensitivity mixed PCR reaction for the detection of dengue virus. Primer sequences were computed such that their probability of mispriming with human DNA is extremely low. A 'cocktail' of 10 primers was shown experimentally to be able to detect cDNA clones representing the four serotypes and dengue virus RNA spiked into total human whole blood RNA. Computationally, the primers are predicted to detect 95% of the 1688 dengue strains analyzed (with perfect primer match). Allowing up to one mismatch and one insertion per primer, the primer set detects 99% of strains. Primer sets from three previous studies have been compared with the present set of primers and their relative sensitivity for dengue virus is discussed. These results provide the formulation and demonstration of a mixed primer PCR reagent that may enable the detection of nearly any dengue strain irrespective of serotype, in a single PCR reaction, and illustrate an approach to the broad problem of detecting highly mutable RNA viruses. PCR detection of dengue virus suffers from the challenge of detecting the many variant strains which arise over time. We report computational derivation and experimental testing of a combination of ten PCR primers used in a single PCR reaction, for detection of nearly any of the thousands of known dengue virus strains irrespective of serotype [ABSTRACT FROM AUTHOR]

Published
2011
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285. DNAzyme-mediated recovery of small recombinant RNAs from a 5S rRNA-derived chimera expressed in Escherichia coli.

Author

Yamei Liu, Stepanov, Victor G., Strych, Ulrich, Willson, Richard C., Jackson, George W., and Fox, George E.

Subjects
RNA, ESCHERICHIA coli, MOSAICISM, GENE expression, CHROMATOGRAPHIC analysis
Abstract

Background: Manufacturing large quantities of recombinant RNAs by overexpression in a bacterial host is hampered by their instability in intracellular environment. To overcome this problem, an RNA of interest can be fused into a stable bacterial RNA for the resulting chimeric construct to accumulate in the cytoplasm to a sufficiently high level. Being supplemented with cost-effective procedures for isolation of the chimera from cells and recovery of the recombinant RNA from stabilizing scaffold, this strategy might become a viable alternative to the existing methods of chemical or enzymatic RNA synthesis. Results: Sequence encoding a 71-nucleotide recombinant RNA was inserted into a plasmid-borne deletion mutant of the Vibrio proteolyticus 5S rRNA gene in place of helix III - loop C segment of the original 5S rRNA. After transformation into Escherichia coli, the chimeric RNA (3xpen aRNA) was expressed constitutively from E. coli rrnB P1 and P2 promoters. The RNA chimera accumulated to levels that exceeded those of the host's 5S rRNA. A novel method relying on liquid-solid partitioning of cellular constituents was developed for isolation of total RNA from bacterial cells. This protocol avoids toxic chemicals, and is therefore more suitable for large scale RNA purification than traditional methods. A pair of biotinylated 8-17 DNAzymes was used to bring about the quantitative excision of the 71-nt recombinant RNA from the chimera. The recombinant RNA was isolated by sequence-specific capture on beads with immobilized complementary deoxyoligonucleotide, while DNAzymes were recovered by biotin affinity chromatography for reuse. Conclusions: The feasibility of a fermentation-based approach for manufacturing large quantities of small RNAs in vivo using a "5S rRNA scaffold" strategy is demonstrated. The approach provides a route towards an economical method for the large-scale production of small RNAs including shRNAs, siRNAs and aptamers for use in clinical and biomedical research. [ABSTRACT FROM AUTHOR]

Published
2010
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290. Compaction Agent Protection of Nucleic Acids during Mechanical Lysis.

Author

Murphy, Jason C., Cano, Tony, Fox, George E., and Willson, Richard C.

Abstract

Mechanical lysis is an efficient and widely used method of liberating the contents of microbial cells, but the sensitivity of large nucleic acids to shear damage has prevented the application of mechanical lysis to DNA purification. It is demonstrated that polycationic compaction agents can protect DNA from shear damage and allow chromosomal and plasmid DNA purification by mechanical lysis. In addition to being substantially protected during mechanical lysis, the compacted DNA can be separated with the insoluble cell debris, washed, and selectively resolubilized, yielding a substantially purified DNA product. An additional benefit of this method is that lysate viscosity is greatly reduced, allowing the use of much smaller processing volumes when compared with traditional lysis methods used in nucleic acid purification. [ABSTRACT FROM AUTHOR]

Published
2006
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291. Human-blind probes and primers for dengue virus identification.

Author

Putonti, Catherine, Chumakov, Sergei, Mitra, Rahul, Fox, George E., Willson, Richard C., and Fofanov, Yuriy

Subjects
PATHOGENIC microorganisms, MICROORGANISMS, MICROBIAL virulence, DNA, DEOXYRIBOSE, GENES
Abstract

Reliable detection and identification of pathogens in complex biological samples, in the presence of contaminating DNA from a variety of sources, is an important and challenging diagnostic problem for the development of field tests. The problem is compounded by the difficulty of finding a single, unique genomic sequence that is present simultaneously in all genomes of a species of closely related pathogens and absent in the genomes of the host or the organisms that contribute to the sample background. Here we describe ‘host-blind probe design’– a novel strategy of designing probes based on highly frequent genomic signatures found in the pathogen genomes of interest but absent from the host genome. Upon hybridization, an array of such informative probes will produce a unique pattern that is a genetic fingerprint for each pathogen strain. This multiprobe approach was applied to 83 dengue virus genome sequences, available in public databases, to design and perform in silico microarray experiments. The resulting patterns allow one to unequivocally distinguish the four major serotypes, and within each serotype to identify the most similar strain among those that have been completely sequenced. In an environment where dengue is indigenous, this would allow investigators to determine if a particular isolate belongs to an ongoing outbreak or is a previously circulating version. Using our probe set, the probability that misdiagnosis at the serotype level would occur is ≈ 1 : 10150. [ABSTRACT FROM AUTHOR]

Published
2006
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293. Comparison of cyanide-degrading nitrilases.

Author

Jandhyala, Dakshina M., Willson, Richard C., Sewell, B. Trevor, and Benedik, Michael J.

Subjects
*CYANIDES, *BACILLUS (Bacteria), *PSEUDOMONAS, *GENES, *CHROMATOGRAPHIC analysis
Abstract

Recombinant forms of three cyanide-degrading nitrilases, CynD from Bacillus pumilus C1, CynD from Pseudomonas stutzeri, and CHT from Gloeocercospora sorghi, were prepared after their genes were cloned with C-terminal hexahistidine purification tags and expressed in Escherichia coli, and the enzymes purified using nickel-chelate affinity chromatography. The enzymes were compared with respect to their pH stability, thermostability, metal tolerance, and kinetic constants. The two bacterial genes, both cyanide dihydratases, were similar with respect to pH range, retaining greater than 50% activity between pH 5.2 and pH 8 and kinetic properties, having similar Km (6–7 mM) and Vmax (0.1 mmol min−1 mg−1). They also exhibited similar metal tolerances. However, the fungal CHT enzyme had notably higher Km (90 mM) and Vmax (4 mmol min−1 mg−1) values. Its pH range was slightly more alkaline (retaining nearly full activity above 8.5), but exhibited a lower thermal tolerance. CHT was less sensitive to Hg2+ and more sensitive to Pb2+ than the CynD enzymes. These data describe, in part, the current limits that exist for using nitrilases as agents in the bioremediation of cyanide-containing waste effluent, and may help serve to determine where and under what conditions these nitrilases may be applied. [ABSTRACT FROM AUTHOR]

Published
2005
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294. Metal chelate affinity precipitation of RNA and purification of plasmid DNA.

Author

Balan, Sindhu, Murphy, Jason, Galaev, Igor, Kumar, Ashok, Fox, George E., Mattiasson, Bo, and Willson, Richard C.

Subjects
CHELATES, METALS, AMINO acids, NUCLEIC acids, PURINES, DNA, PLASMIDS
Abstract

The affinity of metal chelates for amino acids, such as histidine, is widely used in purifying proteins, most notably through six-histidine `tails'. We have found that metal affinity interactions can also be applied to separation of single-stranded nucleic acids through interactions involving exposed purines. Here we describe a metal affinity precipitation method to resolve RNA from linear and plasmid DNA. A copper-charged copolymer of N-isopropyl acrylamide (NIPAM) and vinyl imidazole (VI) is used to purify plasmid from an alkaline lysate of E. coli. The NIPAM units confer reversible solubility on the copolymer while the imidazole chelates metal ions in a manner accessible to interaction with soluble ligands. RNA was separated from the plasmid by precipitation along with the polymer in the presence of 800 mM NaCl. Bound RNA could be recovered by elution with imidazole and separated from copolymer by a second precipitation step. RNA binding showed a strong dependence on temperature and on the type of buffer used. [ABSTRACT FROM AUTHOR]

Published
2003
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295. Recombinant carbazole-degrading strains for enhanced petroleum processing.

Author

Riddle, Robert R., Gibbs, Phillip R., Willson, Richard C., and Benedik, Michael J.

Subjects
MICROBIAL biotechnology, FOSSIL fuels
Abstract

Biotechnological upgrading of fossil fuels is of increasing interest as remaining stocks of petroleum show increasing levels of contaminants such as heavy metals, sulfur and nitrogen-containing heteroaromatic compounds. Carbazole is of particular interest as a major petroleum component known to reduce refining yields through catalyst poisoning. In this study, the biotransformation of carbazole was successfully demonstrated in a liquid two-phase system, when solubilized in either 1-methylnaphthalene or in diesel fuel. The effects of solvent toxicity were investigated by expressing the carbazole-transformation genes from MB1332, a rifampicin-resistant derivative of Pseudomonas sp. LD2, in a solvent-resistant heterologous host, P. putida Idaho [1]. This solvent-resistant strain successfully degraded carbazole solubilized in 1-methylnaphthalene and in the presence of 10 vol% xylenes similar to the nonrecombinant strain Pseudomonas sp. LD2. Identification of a suitable recombinant host, however, was essential for further investigations of partial pathway transformations. Recombinant P. putida Idaho expressing only the initial dioxygenase enzymes transformed carbazole to an intermediate well retained in the oil phase. Partial carbazole transformation converts carbazole to nonaromatic species; their effect is unknown on refinery catalyst poisoning, but would allow almost complete retention of carbon content and fuel value. [ABSTRACT FROM AUTHOR]

Published
2003
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296. Immunochemical pulsed-labeling characterization of intermediates during hen lysozyme oxidative folding.

Author

Jarrett, Nicole M., Djavadi-Ohaniance, Lisa, Willson, Richard C., Tachibana, Hideki, and Goldberg, Michel E.

Abstract

Previous studies have shown that reduced hen egg white lysozyme refolds and oxidizes according to a linear model, in which the number of disulfide bonds increases sequentially. In this study, we describe the kinetics of native tertiary structure formation during the oxidative-renaturation of reduced hen egg white lysozyme, as monitored using an immunochemical pulsed-labeling method based on enzyme-linked immunosorbent assay (ELISA) in conjuction with two monoclonal antibodies (mAb). Each of these antibodies recognizes a separate face of the native lysozyme surface and, more importantly, each epitope is composed of discontinuous regions of the polypeptide chain. Renaturation kinetics were studied under the same refolding conditions as previous investigations of the kinetics of the regain of far-UV CD, fluorescence, enzymatic activity, and disulfide bonds. Comparison of our results with the results from those studies showed that the immunoreactivity (i.e., the native fold) of the α-domain appeared in intermediates containing two SS bonds only (C6-C127 and C30-C115), while the immunoreactivity of the β-domain appeared together with the formation of the third SS bond (C64-C80). Thus, the α-domain folds before the β-domain during the oxidative folding of reduced lysozyme. [ABSTRACT FROM AUTHOR]

Published
2002
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298. Microbial Detection with Low Molecular Weight RNA.

Author

Kourentzi, Katerina D., Fox, George E., and Willson, Richard C.

Subjects
RNA, MOLECULAR weights, NUCLEIC acids, MICROORGANISMS, ESCHERICHIA coli, GRAM-negative bacteria
Abstract

The need to monitor microorganisms in the environment has increased interest in assays based on hybridization probes that target nucleic acids (e.g., rRNA). We report the development of liquid-phase assays for specific bacterial 5S rRNA sequences or similarly sized artificial RNAs (aRNAs) using molecular beacon technology. These beacons fluoresce only in the presence of specific target sequences, rendering as much as a 27-fold fluorescence enhancement. The assays can be used with both crude cell lysates and purified total RNA preparations. Minimal sample preparation (e.g., heating to promote leakage from cells) is sufficient to detect many Gram-negative bacteria. Using this approach it was possible to detect an aRNA-labeled Escherichia coli strain in the presence of a large background of an otherwise identical E. coli strain. Finally, by using a longer wavelength carboxytetramethylrhodamine beacon it was possible to reduce the fraction of the signal due to cellular autofluorescence to below 0.5%. [ABSTRACT FROM AUTHOR]

Published
2001
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300. Expression of Marker RNAs in Pseudomonas putida.

Author

D'Souza, Lisa M., Willson, Richard C., and Fox, George E.

Subjects
BACTERIAL genetics, ESCHERICHIA coli, RNA, RIBOSOMES, GENE expression, BIOMARKERS
Abstract

A broad-host-range vector that expresses a unique artificial RNA in Pseudomonas putida has been developed. This vector was derived from the plasmid pBBR1MCS and incorporates regulatory regions from the Escherichia coli ribosomal operon, rrnB. These include the promoters P1 and P2, and the terminators T1 and T2. The gene for the artificial RNA was derived from Vibrio proteolyticus 5S rRNA. The artificial RNA product accumulates to a level that is 10–20% of the total 5S rRNA in P. putida. The RNA product is not incorporated into ribosomes and has a minimal effect on cell growth rate. In contrast, when wild-type V. proteolyticus 5S rRNA was expressed from the vector, it was incorporated into ribosomes. It is expected that this new vector system will allow artificial RNA expression systems to be readily developed for a large variety of species. [ABSTRACT FROM AUTHOR]

Published
2000
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