Your search keyword '"Gray ER"' showing total 31 results

1. Interval-Based Global Sensitivity Analysis for Epistemic Uncertainty

Author

Miralles-Dolz, Enrique, primary, Gray, er, additional, Angelis, Marco de, additional, and Patelli, Edoardo, additional

Published

2022

2. Platinum nanocatalyst amplification: redefining the gold standard for lateral flow immunoassays with ultra-broad dynamic range

Author

Loynachan, C, Thomas, MR, Gray, ER, Richards, DA, Kim, J, MIller, BS, Brookes, JC, Chudasama, V, McKendry, RA, Stevens, MM, Engineering & Physical Science Research Council (E, Medical Research Council (MRC), Commission of the European Communities, and Engineering & Physical Science Research Council (EPSRC)

Subjects

Technology, Chemistry, Multidisciplinary, Materials Science, HIV Core Protein p24, Metal Nanoparticles, Materials Science, Multidisciplinary, HIV Infections, DIAGNOSTICS, HIGHLY EFFICIENT, Catalysis, enzyme mimic, porous platinum core−shell nanoparticles, broad dynamic range, NANOPARTICLES, DETECTION LIMITS, Humans, Nanoscience & Nanotechnology, HIV detection, Platinum, porous platinum core-shell nanoparticles, PEROXIDASE-LIKE ACTIVITY, Immunoassay, Science & Technology, Chemistry, Physical, lateral flow immunoassay, HIV, biorthogonal chemistry, Equipment Design, nanobodies, ACUTE HIV-INFECTION, Chemistry, ANTIBODY FRAGMENTS, point-of-care, P24 ANTIGEN, Point-of-Care Testing, Physical Sciences, Science & Technology - Other Topics, Gold, POINT, Antibodies, Immobilized, Porosity, SYSTEM

Abstract

Paper-based lateral flow immunoassays (LFIAs) are one of the most widely used point-of-care (PoC) devices; however, their application in early disease diagnostics is often limited due to insufficient sensitivity for the requisite sample sizes and the short time frames of PoC testing. To address this, we developed a serum-stable, nanoparticle catalyst-labeled LFIA with a sensitivity surpassing that of both current commercial and published sensitivities for paper-based detection of p24, one of the earliest and most conserved biomarkers of HIV. We report the synthesis and characterization of porous platinum core–shell nanocatalysts (PtNCs), which show high catalytic activity when exposed to complex human blood serum samples. We explored the application of antibody-functionalized PtNCs with strategically and orthogonally modified nanobodies with high affinity and specificity toward p24 and established the key larger nanoparticle size regimes needed for efficient amplification and performance in LFIA. Harnessing the catalytic amplification of PtNCs enabled naked-eye detection of p24 spiked into sera in the low femtomolar range (ca. 0.8 pg·mL–1) and the detection of acute-phase HIV in clinical human plasma samples in under 20 min. This provides a versatile absorbance-based and rapid LFIA with sensitivity capable of significantly reducing the HIV acute phase detection window. This diagnostic may be readily adapted for detection of other biomolecules as an ultrasensitive screening tool for infectious and noncommunicable diseases and can be capitalized upon in PoC settings for early disease detection.

Published

2017

3. Evaluation of the ASPYRE-Lung targeted variant panel: a rapid, low-input solution for non-small cell lung cancer biomarker testing and experience from three independent sites.

Author

Herlihy SE, Gentile C, Scott SJ, Smith BA, Stoll KA, Schilter KF, Mordaka JM, Palmer RN, Xyrafaki C, Gillon-Zhang E, King C, Evans RT, Green AS, Silva AL, Stolarek-Januszkiewicz M, von Bargen K, Turner I, Ho CH, Collazos A, Potts ND, Nugent D, Jose J, Gray ER, Shapiro E, Levin WJ, Cooke A, Balmforth BW, Osborne RJ, Reddi HV, and Van Deerlin VM

Abstract

Background: Many patients with non-small cell lung cancer (NSCLC) lack access to highly effective approved targeted therapeutics due to multiple gaps in biomarker testing. Challenges in comprehensive molecular testing include complexities associated with the need to assess the presence of multiple variants, costs of running multiple sequential assays per sample, high assay quality control (QC) failure rates, clinical need for rapid turn-around time (TAT) to initiate therapy, and insufficient tissue samples. The ASPYRE-Lung NSCLC assay addresses gaps in multiplexed testing by simultaneously analyzing DNA and RNA, detecting 114 actionable genomic variants across 11 genes, consistent with current NSCLC treatment guidelines. This study was to assess the ease of adoption and performance of ASPYRE-Lung in third-party laboratories, comparing concordance across sites and with orthogonal methods., Methods: ASPYRE-Lung was established at two academic centers with multiple operators per site. Assay concordance was evaluated across three sites using 77 patient samples [61 derived from formalin-fixed paraffin-embedded (FFPE) tissue and 16 from cytology specimens]., Results: Reproducibility for all 77 samples yielded a positive percent agreement (PPA) of 100% and negative percent agreement (NPA) of 99.99%. Concordance with next-generation sequencing (NGS)-based methods across all three sites was high with PPA of 97.2% and NPA of 99.96%., Conclusions: ASPYRE-Lung assay is a cost-effective, easy to adopt testing method requiring no specialized expertise or complicated bioinformatics, with the potential to inform genomic data on small tissue samples, thus enabling all patients with NSCLC to undergo biomarker testing in a timely manner and benefit from appropriate targeted therapies., Competing Interests: Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at https://tlcr.amegroups.com/article/view/10.21037/tlcr-24-525/coif). All authors report that this work was supported by Biofidelity Ltd., UK. S.E.H. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. She served as technical consultant for potential investors at Biofidelity (Oct 2023 to Jan 2024). She received honoraria and travel expenses from ThermoFisher to present on NSCLC at a corporate workshop at AMP 2024. C.G. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. S.J.S. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. B.A.S. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. K.A.S. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. K.F.S. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. J.M.M. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. J.M.M. is an employee of Biofidelity Ltd. and has financial interest including salary, stocks, and stock options. R.N.P. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. R.N.P. is an employee of Biofidelity Ltd. and has financial interest including salary, stocks, and stock options. C.X. reports that Biofidelity provided all materials (reagents, consumables, travel expenses to laboratories) to complete the work. C.X. is an employee of Biofidelity Ltd. and has financial interest including salary, stock, and stock options. E.G.Z. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. E.G.Z. is an employee of Biofidelity Inc. and has financial interest including salary, stock, and stock options. C.K. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. C.K. is an employee of Biofidelity Inc. and has financial interest including salary, stock, and stock options. R.T.E. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. R.T.E. is an employee of Biofidelity Inc. and has financial interest including salary, stock and stock options. A.S.G. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. A.S.G. is an employee of Biofidelity Inc. and has financial interest including salary, stock, and stock options. A.L.S. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. A.L.S. is an employee of Biofidelity Inc. or Biofidelity Ltd. and has financial interest including salary, intellectual property, stock, and stock options. M.S.J. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. M.S.J. is an employee of Biofidelity Ltd. and has financial interest including salary, intellectual property, stock, and stock options. K.v.B. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. K.v.B. is an employee of Biofidelity Ltd. and has financial interest including salary, stock, and stock options. I.T. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. I.T. is an employee of Biofidelity Ltd. and has financial interest including salary, stock, and stock options. C.H.H. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. C.H.H. is an employee of Biofidelity Ltd. and has financial interest including salary, stock, and stock options. A. Collazos reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. A. Collazos is an employee of Biofidelity Ltd. and has financial interest including salary, stock, and stock options. N.D.P. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. N.D.P. is an employee of Biofidelity Ltd. and has financial interest including salary, stock, and stock options. D.N. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. D.N. is an employee of Biofidelity Ltd. and has financial interest including salary, stock, and stock options. J.J. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. J.J. is an employee of Biofidelity Ltd. and has financial interest including salary, stock, and stock options. E.R.G. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. E.R.G. is an employee of Biofidelity Ltd. and has financial interest including salary, stock, and stock options. E.S. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. E.S. is an employee of Biofidelity Inc. and has financial interest including salary, stock, and stock options. E.S. is a former employee of Adaptive Biotechnologies, which have no interests in the work presented herein. W.J.L. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. WJL. is a consultant of Biofidelity Inc. and has financial interest including consultancy fees and work-related travel to AACR 2024 where data from this work was presented. A. Cooke reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. A. Cooke was an employee of Biofidelity Ltd. and has financial interest including salary and stock. B.W.B. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. B.W.B. reports that Biofidelity Ltd. has provided travel expenses for work-related travel to AACR 2024 where data from this work was presented. B.W.B. is an employee of Biofidelity Ltd. and has financial interest including salary, intellectual property, stock, and stock options. R.J.O. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. R.J.O. was an employee of Biofidelity Ltd., and has financial interest including salary, stock, and stock options. H.V.R. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. H.V.R. was a consultant of Biofidelity Inc. and had financial interest including consultancy fees. H.V.R. is a current employee of Belay Diagnostics, which have no interests in the work presented herein. V.M.V.D. reports that Biofidelity provided all materials (reagents, consumables, etc.) to complete the work. The authors have no other conflicts of interest to declare., (2024 AME Publishing Company. All rights reserved.)

Published

2024

4. ASPYRE-Lung: validation of a simple, fast, robust and novel method for multi-variant genomic analysis of actionable NSCLC variants in FFPE tissue.

Author

Evans RT, Gillon-Zhang E, Brown JN, Knudsen KE, King C, Green AS, Silva AL, Mordaka JM, Palmer RN, Tomassini A, Collazos A, Xyrafaki C, Turner I, Ho CH, Nugent D, Jose J, Andreazza S, Potts ND, von Bargen K, Gray ER, Stolarek-Januszkiewicz M, Cooke A, Reddi HV, Balmforth BW, and Osborne RJ

Abstract

Introduction: Genomic variant testing of tumors is a critical gateway for patients to access the full potential of personalized oncology therapeutics. Current methods such as next-generation sequencing are costly and challenging to interpret, while PCR assays are limited in the number of variants they can cover. We developed ASPYRE ® (Allele-Specific PYrophosphorolysis REaction) technology to address the urgent need for rapid, accessible and affordable diagnostics informing actionable genomic target variants of a given cancer. The targeted ASPYRE-Lung panel for non-small cell carcinoma covers 114 variants in 11 genes ( ALK, BRAF, EGFR, ERBB2, KRAS, RET, ROS1, MET & NTRK1/2/3 ) to robustly inform clinical management. The assay detects single nucleotide variants, insertions, deletions, and gene fusions from tissue-derived DNA and RNA simultaneously., Methods: We tested the limit of detection, specificity, analytical accuracy and analytical precision of ASPYRE-Lung using FFPE lung tissue samples from patients with non-small cell lung carcinoma, variant-negative FFPE tissue from healthy donors, and FFPE-based contrived samples with controllable variant allele fractions., Results: The sensitivity of ASPYRE-Lung was determined to be ≤ 3% variant allele fraction for single nucleotide variants and insertions or deletions, 100 copies for fusions, and 200 copies for MET exon 14 skipping. The specificity was 100% with no false positive results. The analytical accuracy test yielded no discordant calls between ASPYRE-Lung and expected results for clinical samples (via orthogonal testing) or contrived samples, and results were replicable across operators, reagent lots, runs, and real-time PCR instruments with a high degree of precision., Conclusions: The technology is simple and fast, requiring only four reagent transfer steps using standard laboratory equipment (PCR and qPCR instruments) with analysis via a cloud-based algorithm. The ASPYRE-Lung assay has the potential to be transformative in facilitating access to rapid, actionable molecular profiling of tissue for patients with non-small cell carcinoma., Competing Interests: Authors RE, EG-Z, JB, KK, CK, AG, and BB are employed by the company Biofidelity Inc. Authors A-LS, JM, RP, AT, AC, CX, IT, CH, DN, JJ, SA, NP, KB, EG, MS-J, AC and RO are employees of Biofidelity Ltd, a privately held company. All authors may hold stock or stock options. Author HR was a consultant of Biofidelity Inc at the time of the study. Biofidelity has filed patent applications on aspects of this research WO2021130494A1. The author HR declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision. The authors declare that this study received funding from Biofidelity Ltd. The following had the following involvement in the study: study design, data collection, analysis, decision to publish, and preparation of the manuscript., (Copyright © 2024 Evans, Gillon-Zhang, Brown, Knudsen, King, Green, Silva, Mordaka, Palmer, Tomassini, Collazos, Xyrafaki, Turner, Ho, Nugent, Jose, Andreazza, Potts, von Bargen, Gray, Stolarek-Januszkiewicz, Cooke, Reddi, Balmforth and Osborne.)

Published

2024

5. Thermodynamic analysis of an entropically driven, high-affinity nanobody-HIV p24 interaction.

Author

Brookes JC, Gray ER, Loynachan CN, Gut MJ, Miller BS, P S Brogan A, and McKendry RA

Subjects

Humans, Thermodynamics, Entropy, Amino Acids metabolism, Protein Binding, Calorimetry, Single-Domain Antibodies, HIV Infections

Abstract

Protein-protein interactions are fundamental to life processes. Complementary computational, structural, and biophysical studies of these interactions enable the forces behind their specificity and strength to be understood. Antibody fragments such as single-chain antibodies have the specificity and affinity of full antibodies but a fraction of their size, expediting whole molecule studies and distal effects without exceeding the computational capacity of modeling systems. We previously reported the crystal structure of a high-affinity nanobody 59H10 bound to HIV-1 capsid protein p24 and deduced key interactions using all-atom molecular dynamics simulations. We studied the properties of closely related medium (37E7) and low (48G11) affinity nanobodies, to understand how changes of three (37E7) or one (48G11) amino acids impacted these interactions; however, the contributions of enthalpy and entropy were not quantified. Here, we report the use of qualitative and quantitative experimental and in silico approaches to separate the contributions of enthalpy and entropy. We used complementary circular dichroism spectroscopy and molecular dynamics simulations to qualitatively delineate changes between nanobodies in isolation and complexed with p24. Using quantitative techniques such as isothermal titration calorimetry alongside WaterMap and Free Energy Perturbation protocols, we found the difference between high (59H10) and medium (37E7) affinity nanobodies on binding to HIV-1 p24 is entropically driven, accounted for by the release of unstable waters from the hydrophobic surface of 59H10. Our results provide an exemplar of the utility of parallel in vitro and in silico studies and highlight that differences in entropic interactions between amino acids and water molecules are sufficient to drive orders of magnitude differences in affinity., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 Biophysical Society. Published by Elsevier Inc. All rights reserved.)

Published

2023

6. Ultra-sensitive molecular detection of gene fusions from RNA using ASPYRE.

Author

Gray ER, Mordaka JM, Christoforou ER, von Bargen K, Potts ND, Xyrafaki C, Silva AL, Stolarek-Januszkiewicz M, Anton K, Powalowska PK, Andreazza S, Tomassini A, Palmer RN, Cooke A, Osborne RJ, and Balmforth BW

Subjects

High-Throughput Nucleotide Sequencing methods, Mutation, Sequence Analysis, RNA, Gene Fusion, RNA genetics

Abstract

Background: RNA is a critical analyte for unambiguous detection of actionable mutations used to guide treatment decisions in oncology. Currently available methods for gene fusion detection include molecular or antibody-based assays, which suffer from either being limited to single-gene targeting, lack of sensitivity, or long turnaround time. The sensitivity and predictive value of next generation sequencing DNA-based assays to detect fusions by sequencing intronic regions is variable, due to the extensive size of introns. The required depth of sequencing and input nucleic acid required can be prohibitive; in addition it is not certain that predicted gene fusions are actually expressed., Results: Herein we describe a method based on pyrophosphorolysis to include detection of gene fusions from RNA, with identical assay steps and conditions to detect somatic mutations in DNA [1], permitting concurrent assessment of DNA and RNA in a single instrument run., Conclusion: The limit of detection was under 6 molecules/ 6 µL target volume. The workflow and instrumentation required are akin to PCR assays, and the entire assay from extracted nucleic acid to sample analysis can be completed within a single day., (© 2022. The Author(s).)

Published

2022

7. Single-copy detection of somatic variants from solid and liquid biopsy.

Author

Silva AL, Powalowska PK, Stolarek M, Gray ER, Palmer RN, Herman B, Frayling CA, and Balmforth BW

Subjects

Circulating Tumor DNA blood, Humans, Liquid Biopsy, Neoplasms blood, Circulating Tumor DNA genetics, High-Throughput Nucleotide Sequencing, Mutation, Neoplasms genetics, Real-Time Polymerase Chain Reaction

Abstract

Accurate detection of somatic variants, against a background of wild-type molecules, is essential for clinical decision making in oncology. Existing approaches, such as allele-specific real-time PCR, are typically limited to a single target gene and lack sensitivity. Alternatively, next-generation sequencing methods suffer from slow turnaround time, high costs, and are complex to implement, typically limiting them to single-site use. Here, we report a method, which we term Allele-Specific PYrophosphorolysis Reaction (ASPYRE), for high sensitivity detection of panels of somatic variants. ASPYRE has a simple workflow and is compatible with standard molecular biology reagents and real-time PCR instruments. We show that ASPYRE has single molecule sensitivity and is tolerant of DNA extracted from plasma and formalin fixed paraffin embedded (FFPE) samples. We also demonstrate two multiplex panels, including one for detection of 47 EGFR variants. ASPYRE presents an effective and accessible method that simplifies highly sensitive and multiplexed detection of somatic variants.

Published

2021

8. Spin-enhanced nanodiamond biosensing for ultrasensitive diagnostics.

Author

Miller BS, Bezinge L, Gliddon HD, Huang D, Dold G, Gray ER, Heaney J, Dobson PJ, Nastouli E, Morton JJL, and McKendry RA

Subjects

Avidin chemistry, Biosensing Techniques instrumentation, Biotin chemistry, Fluorescence, Gold chemistry, HIV-1 isolation & purification, Humans, Limit of Detection, Metal Nanoparticles chemistry, Microfluidics instrumentation, Microfluidics methods, Microwaves, Nucleic Acid Amplification Techniques, Paper, Plasma virology, Quantum Theory, Sensitivity and Specificity, Single Molecule Imaging, Temperature, Biosensing Techniques methods, Early Diagnosis, HIV Infections diagnosis, HIV Infections virology, HIV-1 genetics, Nanodiamonds chemistry, RNA, Viral blood

Abstract

The quantum spin properties of nitrogen-vacancy defects in diamond enable diverse applications in quantum computing and communications 1 . However, fluorescent nanodiamonds also have attractive properties for in vitro biosensing, including brightness 2 , low cost 3 and selective manipulation of their emission 4 . Nanoparticle-based biosensors are essential for the early detection of disease, but they often lack the required sensitivity. Here we investigate fluorescent nanodiamonds as an ultrasensitive label for in vitro diagnostics, using a microwave field to modulate emission intensity 5 and frequency-domain analysis 6 to separate the signal from background autofluorescence 7 , which typically limits sensitivity. Focusing on the widely used, low-cost lateral flow format as an exemplar, we achieve a detection limit of 8.2 × 10 -19 molar for a biotin-avidin model, 10 5  times more sensitive than that obtained using gold nanoparticles. Single-copy detection of HIV-1 RNA can be achieved with the addition of a 10-minute isothermal amplification step, and is further demonstrated using a clinical plasma sample with an extraction step. This ultrasensitive quantum diagnostics platform is applicable to numerous diagnostic test formats and diseases, and has the potential to transform early diagnosis of disease for the benefit of patients and populations.

Published

2020

9. Minor groove binder modification of widely used TaqMan hydrolysis probe for detection of dengue virus reduces risk of false-negative real-time PCR results for serotype 4.

Author

Gray ER, Heaney J, Ferns RB, Sequeira PC, Nastouli E, and Garson JA

Subjects

Binding Sites, Dengue blood, False Negative Reactions, Humans, Hydrolysis, RNA, Viral blood, Sensitivity and Specificity, Serogroup, DNA Probes genetics, Dengue diagnosis, Dengue Virus isolation & purification, Real-Time Polymerase Chain Reaction methods

Abstract

Dengue is a vector-transmitted viral infection that is a significant cause of morbidity and mortality in humans worldwide, with over 50 million apparent cases and a fatality rate of 2.5 % of 0.5 million severe cases per annum in recent years. Four serotypes are currently co-circulating. Diagnosis of infection may be by polymerase chain reaction, serology or rapid antigen test for NS1. Both pan-serotype and serotype-specific genome detection assays have been described, however, achieving adequate sensitivity with pan-serotype assays has been challenging. Indeed, as we show here, inspection of components and cycling parameters of a pan-serotype RT-qPCR assay in use in laboratories worldwide revealed insufficient probe stability to accommodate potential nucleotide mismatches, resulting in false-negatives. A minor-groove binder (MGB)-modified version of the probe was designed and its performance compared with that of the original probe in 32 samples. Eight of the samples were undetected by the original probe but detected by the MGB modified probe and six out of seven of these that could be serotyped belonged to serotype 4. Sequencing of the region targeted by the probe in these samples revealed two mismatches which were also universally present in all other serotype 4 sequences in a public database. We therefore recommend adoption of this MGB modification in order to reduce the risk of false-negative results, especially with dengue serotype 4 infections., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

10. p24 revisited: a landscape review of antigen detection for early HIV diagnosis.

Author

Gray ER, Bain R, Varsaneux O, Peeling RW, Stevens MM, and McKendry RA

Subjects

Humans, Early Diagnosis, Diagnostic Tests, Routine methods, HIV Core Protein p24 blood, HIV Infections diagnosis, Point-of-Care Testing

Abstract

: Despite major advances in HIV testing, early detection of infection at the point of care (PoC) remains a key challenge. Although rapid antibody PoC and laboratory-based nucleic acid amplification tests dominate the diagnostics market, the viral capsid protein p24 is recognized as an alternative early virological biomarker of infection. However, the detection of ultra-low levels of p24 at the PoC has proven challenging. Here we review the landscape of p24 diagnostics to identify knowledge gaps and barriers and help shape future research agendas. Five hundred and seventy-four research articles to May 2018 that propose or evaluate diagnostic assays for p24 were identified and reviewed. We give a brief history of diagnostic development, and the utility of p24 as a biomarker in different populations such as infants, the newly infected, those on preexposure prophylaxis and self-testers. We review the performance of commercial p24 assays and consider elements such as immune complex disruption, resource-poor settings, prevalence, and assay antibodies. Emerging and ultrasensitive assays are reviewed and show a number of promising approaches but further translation has been limited. We summarize studies on the health economic benefits of using antigen testing. Finally, we speculate on the future uses of high-performance p24 assays, particularly, if available in self-test format.

Published

2018

11. Ultra-rapid, sensitive and specific digital diagnosis of HIV with a dual-channel SAW biosensor in a pilot clinical study.

Author

Gray ER, Turbé V, Lawson VE, Page RH, Cook ZC, Ferns RB, Nastouli E, Pillay D, Yatsuda H, Athey D, and McKendry RA

Abstract

Despite widened access to HIV testing, around half of those infected worldwide are unaware of their HIV-positive status and linkage to care remains a major challenge. Current rapid HIV tests are typically analogue risking incorrect interpretation, no facile electronic data capture, poor linkage to care and data loss for public health. Smartphone-connected diagnostic devices have potential to dramatically improve access to testing and patient retention with electronic data capture and wireless connectivity. We report a pilot clinical study of surface acoustic wave biosensors based on low-cost components found in smartphones to diagnose HIV in 133 patient samples. We engineered a small, portable, laboratory prototype and dual-channel biochips, with in-situ reference control coating and miniaturised configuration, requiring only 6 µL plasma. The dual-channel biochips were functionalized by ink-jet printing with capture coatings to detect either anti-p24 or anti-gp41 antibodies, and a reference control. Biochips were tested with 31 plasma samples from patients with HIV, and 102 healthy volunteers. SH-SAW biosensors showed excellent sensitivity, specificity, low sample volumes and rapid time to result, and were benchmarked to commercial rapid HIV tests. Testing for individual biomarkers found sensitivities of 100% (anti-gp41) and 64.5% (anti-p24) (combined sensitivity of 100%) and 100% specificity, within 5 min. All positive results were recorded within 60 s of sample addition with an electronic readout. Next steps will focus on a smartphone-connected device prototype and user-friendly app interface for larger scale evaluation and field studies, towards our ultimate goal of a new generation of affordable, connected point-of-care HIV tests., Competing Interests: Competing interestsD.A., V.L., R.P., Z.C. and H.Y. are employed by OJ-Bio which produces the SH-SAW prototype. A studentship to V.T. was part-funded by OJ-Bio. The remaining authors declare no competing interests.

Published

2018

12. Quantifying Biomolecular Binding Constants using Video Paper Analytical Devices.

Author

Miller BS, Parolo C, Turbé V, Keane CE, Gray ER, and McKendry RA

Subjects

Antigens metabolism, Kinetics, Antigens chemistry, Microfluidics, Nanoparticles chemistry

Abstract

A novel ultra-low-cost biochemical analysis platform to quantify protein dissociation binding constants and kinetics using paper microfluidics is reported. This approach marries video imaging with one of humankind's oldest materials: paper, requiring no large, expensive laboratory equipment, complex microfluidics or external power. Temporal measurements of nanoparticle-antibody conjugates binding on paper is found to follow the Langmuir Adsorption Model. This is exploited to measure a series of antibody-antigen dissociation constants on paper, showing excellent agreement with a gold-standard benchtop interferometer. The concept is demonstrated with a camera and low-end smartphone, 500-fold cheaper than the reference method, and can be multiplexed to measure ten reactions in parallel. These findings will help to widen access to quantitative analytical biochemistry, for diverse applications spanning disease diagnostics, drug discovery, and environmental analysis in resource-limited settings., (© 2018 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2018

13. Self-Swabbing for Virological Confirmation of Influenza-Like Illness Among an Internet-Based Cohort in the UK During the 2014-2015 Flu Season: Pilot Study.

Author

Wenham C, Gray ER, Keane CE, Donati M, Paolotti D, Pebody R, Fragaszy E, McKendry RA, and Edmunds WJ

Subjects

Adult, Cohort Studies, Female, History, 21st Century, Humans, Male, Middle Aged, Pilot Projects, United Kingdom epidemiology, Influenza, Human epidemiology, Internet statistics & numerical data, Population Surveillance methods, Virology methods

Abstract

Background: Routine influenza surveillance, based on laboratory confirmation of viral infection, often fails to estimate the true burden of influenza-like illness (ILI) in the community because those with ILI often manage their own symptoms without visiting a health professional. Internet-based surveillance can complement this traditional surveillance by measuring symptoms and health behavior of a population with minimal time delay. Flusurvey, the UK's largest crowd-sourced platform for surveillance of influenza, collects routine data on more than 6000 voluntary participants and offers real-time estimates of ILI circulation. However, one criticism of this method of surveillance is that it is only able to assess ILI, rather than virologically confirmed influenza., Objective: We designed a pilot study to see if it was feasible to ask individuals from the Flusurvey platform to perform a self-swabbing task and to assess whether they were able to collect samples with a suitable viral content to detect an influenza virus in the laboratory., Methods: Virological swabbing kits were sent to pilot study participants, who then monitored their ILI symptoms over the influenza season (2014-2015) through the Flusurvey platform. If they reported ILI, they were asked to undertake self-swabbing and return the swabs to a Public Health England laboratory for multiplex respiratory virus polymerase chain reaction testing., Results: A total of 700 swab kits were distributed at the start of the study; from these, 66 participants met the definition for ILI and were asked to return samples. In all, 51 samples were received in the laboratory, 18 of which tested positive for a viral cause of ILI (35%)., Conclusions: This demonstrated proof of concept that it is possible to apply self-swabbing for virological laboratory testing to an online cohort study. This pilot does not have significant numbers to validate whether Flusurvey surveillance accurately reflects influenza infection in the community, but highlights that the methodology is feasible. Self-swabbing could be expanded to larger online surveillance activities, such as during the initial stages of a pandemic, to understand community transmission or to better assess interseasonal activity., (©Clare Wenham, Eleanor R Gray, Candice E Keane, Matthew Donati, Daniela Paolotti, Richard Pebody, Ellen Fragaszy, Rachel A McKendry, W John Edmunds. Originally published in the Journal of Medical Internet Research (http://www.jmir.org), 01.03.2018.)

Published

2018

14. Platinum Nanocatalyst Amplification: Redefining the Gold Standard for Lateral Flow Immunoassays with Ultrabroad Dynamic Range.

Author

Loynachan CN, Thomas MR, Gray ER, Richards DA, Kim J, Miller BS, Brookes JC, Agarwal S, Chudasama V, McKendry RA, and Stevens MM

Subjects

Catalysis, Equipment Design, Gold chemistry, HIV Infections diagnosis, HIV Infections virology, Humans, Metal Nanoparticles ultrastructure, Porosity, Antibodies, Immobilized chemistry, HIV isolation & purification, HIV Core Protein p24 analysis, HIV Infections blood, Immunoassay instrumentation, Metal Nanoparticles chemistry, Platinum chemistry, Point-of-Care Testing

Abstract

Paper-based lateral flow immunoassays (LFIAs) are one of the most widely used point-of-care (PoC) devices; however, their application in early disease diagnostics is often limited due to insufficient sensitivity for the requisite sample sizes and the short time frames of PoC testing. To address this, we developed a serum-stable, nanoparticle catalyst-labeled LFIA with a sensitivity surpassing that of both current commercial and published sensitivities for paper-based detection of p24, one of the earliest and most conserved biomarkers of HIV. We report the synthesis and characterization of porous platinum core-shell nanocatalysts (PtNCs), which show high catalytic activity when exposed to complex human blood serum samples. We explored the application of antibody-functionalized PtNCs with strategically and orthogonally modified nanobodies with high affinity and specificity toward p24 and established the key larger nanoparticle size regimes needed for efficient amplification and performance in LFIA. Harnessing the catalytic amplification of PtNCs enabled naked-eye detection of p24 spiked into sera in the low femtomolar range (ca. 0.8 pg·mL -1 ) and the detection of acute-phase HIV in clinical human plasma samples in under 20 min. This provides a versatile absorbance-based and rapid LFIA with sensitivity capable of significantly reducing the HIV acute phase detection window. This diagnostic may be readily adapted for detection of other biomolecules as an ultrasensitive screening tool for infectious and noncommunicable diseases and can be capitalized upon in PoC settings for early disease detection.

Published

2018

15. Tuneable plasmonic gold dendrimer nanochains for sensitive disease detection.

Author

Ruiz-Sanchez AJ, Parolo C, Miller BS, Gray ER, Schlegel K, and McKendry RA

Abstract

We report the development of a tuneable plasmonic nanochain immunoassay with increased sensitivity over traditional monodisperse nanoparticle lateral flow tests. Our approach takes advantage of the unique self-assembling properties of polyamidoamine dendrimers with gold nanoparticles in aqueous media to create one-dimensional nanochains, with a distinct red to blue colour change, attributable to a longitudinal plasmon resonance, which can be readily detected by eye and a digital camera. We optimise and characterise nanochain formation and stability using UV-visible spectroscopy, transmission electron microscopy and dynamic light scattering. As a proof-of-principle we focus on the application of nanochains for point-of-care diagnostics for p24, an important biomarker of early HIV infections and successfully detect p24 with a limit of detection of 5 ng ml -1 in pseudo-serum, 4 fold more sensitive than comparable studies with gold nanoparticles. These findings and underlying concepts highlight the potential of advanced functional organic-inorganic composite nanomaterials to diagnose infections, with broad applicability to non-communicable diseases.

Published

2017

16. Towards an ultra-rapid smartphone- connected test for infectious diseases.

Author

Turbé V, Gray ER, Lawson VE, Nastouli E, Brookes JC, Weiss RA, Pillay D, Emery VC, Verrips CT, Yatsuda H, Athey D, and McKendry RA

Subjects

Humans, Sensitivity and Specificity, Time, Biosensing Techniques methods, HIV Infections diagnosis, Point-of-Care Systems, Smartphone

Abstract

The development is reported of an ultra-rapid, point-of-care diagnostic device which harnesses surface acoustic wave (SAW) biochips, to detect HIV in a finger prick of blood within 10 seconds (sample-in-result-out). The disposable quartz biochip, based on microelectronic components found in every consumer smartphone, is extremely fast because no complex labelling, amplification or wash steps are needed. A pocket-sized control box reads out the SAW signal and displays results electronically. High analytical sensitivity and specificity are found with model and real patient blood samples. The findings presented here open up the potential of consumer electronics to cut lengthy test waiting times, giving patients on the spot access to potentially life-saving treatment and supporting more timely public health interventions to prevent disease transmission.

Published

2017

17. Mn 2+ -ZnSe/ZnS@SiO₂ Nanoparticles for Turn-on Luminescence Thiol Detection.

Author

Yazdanparast MS, Jeffries WR, Gray ER, and McLaurin EJ

Abstract

Biological thiols are antioxidants essential for the prevention of disease. For example, low levels of the tripeptide glutathione are associated with heart disease, cancer, and dementia. Mn 2+ -doped wide bandgap semiconductor nanocrystals exhibit luminescence and magnetic properties that make them attractive for bimodal imaging. We found that these nanocrystals and silica-encapsulated nanoparticle derivatives exhibit enhanced luminescence in the presence of thiols in both organic solvent and aqueous solution. The key to using these nanocrystals as sensors is control over their surfaces. The addition of a ZnS barrier layer or shell produces more stable nanocrystals that are isolated from their surroundings, and luminescence enhancement is only observed with thinner, intermediate shells. Tunability is demonstrated with dodecanethiol and sensitivities decrease with thin, medium, and thick shells. Turn-on nanoprobe luminescence is also generated by several biological thiols, including glutathione, N -acetylcysteine, cysteine, and dithiothreitol. Nanoparticles prepared with different ZnS shell thicknesses demonstrated varying sensitivity to glutathione, which allows for the tuning of particle sensitivity without optimization. The small photoluminescence response to control amino acids and salts indicates selectivity for thiols. Preliminary magnetic measurements highlight the challenge of optimizing sensors for different imaging modalities. In this work, we assess the prospects of using these nanoparticles as luminescent turn-on thiol sensors and for MRI., Competing Interests: The authors declare no conflict of interest.

Published

2017

18. Unravelling the Molecular Basis of High Affinity Nanobodies against HIV p24: In Vitro Functional, Structural, and in Silico Insights.

Author

Gray ER, Brookes JC, Caillat C, Turbé V, Webb BLJ, Granger LA, Miller BS, McCoy LE, El Khattabi M, Verrips CT, Weiss RA, Duffy DM, Weissenhorn W, and McKendry RA

Subjects

Amino Acid Sequence, Animals, Antibodies, Monoclonal biosynthesis, Antibodies, Monoclonal immunology, Antibodies, Monoclonal isolation & purification, Antibody Specificity, Binding Sites, Camelids, New World, Cloning, Molecular, Crystallography, X-Ray, Escherichia coli genetics, Escherichia coli metabolism, Gene Expression, HIV Antibodies biosynthesis, HIV Antibodies immunology, HIV Antibodies isolation & purification, HIV Core Protein p24 genetics, HIV Core Protein p24 immunology, Humans, Kinetics, Molecular Dynamics Simulation, Peptide Library, Plasmids chemistry, Plasmids metabolism, Protein Binding, Protein Conformation, alpha-Helical, Protein Conformation, beta-Strand, Protein Interaction Domains and Motifs, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins immunology, Single-Domain Antibodies biosynthesis, Single-Domain Antibodies immunology, Single-Domain Antibodies isolation & purification, Static Electricity, Antibodies, Monoclonal chemistry, HIV Antibodies chemistry, HIV Core Protein p24 chemistry, HIV-1 chemistry, Single-Domain Antibodies chemistry

Abstract

Preventing the spread of infectious diseases remains an urgent priority worldwide, and this is driving the development of advanced nanotechnology to diagnose infections at the point of care. Herein, we report the creation of a library of novel nanobody capture ligands to detect p24, one of the earliest markers of HIV infection. We demonstrate that these nanobodies, one tenth the size of conventional antibodies, exhibit high sensitivity and broad specificity to global HIV-1 subtypes. Biophysical characterization indicates strong 690 pM binding constants and fast kinetic on-rates, 1 to 2 orders of magnitude better than monoclonal antibody comparators. A crystal structure of the lead nanobody and p24 was obtained and used alongside molecular dynamics simulations to elucidate the molecular basis of these enhanced performance characteristics. They indicate that binding occurs at C-terminal helices 10 and 11 of p24, a negatively charged region of p24 complemented by the positive surface of the nanobody binding interface involving CDR1, CDR2, and CDR3 loops. Our findings have broad implications on the design of novel antibodies and a wide range of advanced biomedical applications.

Published

2017

19. Dynamic Perturbations of the T-Cell Receptor Repertoire in Chronic HIV Infection and following Antiretroviral Therapy.

Author

Heather JM, Best K, Oakes T, Gray ER, Roe JK, Thomas N, Friedman N, Noursadeghi M, and Chain B

Abstract

HIV infection profoundly affects many parameters of the immune system and ultimately leads to AIDS, yet which factors are most important for determining resistance, pathology, and response to antiretroviral treatment - and how best to monitor them - remain unclear. We develop a quantitative high-throughput sequencing pipeline to characterize the TCR repertoires of HIV-infected individuals before and after antiretroviral therapy, working from small, unfractionated samples of peripheral blood. This reveals the TCR repertoires of HIV(+) individuals to be highly perturbed, with considerably reduced diversity as a small proportion of sequences are highly overrepresented. HIV also causes specific qualitative changes to the repertoire including an altered distribution of V gene usage, depletion of public TCR sequences, and disruption of TCR networks. Short-term antiretroviral therapy has little impact on most of the global damage to repertoire structure, but is accompanied by rapid changes in the abundance of many individual TCR sequences, decreases in abundance of the most common sequences, and decreases in the majority of HIV-associated CDR3 sequences. Thus, high-throughput repertoire sequencing of small blood samples that are easy to take, store, and process can shed light on various aspects of the T-cell immune compartment and stands to offer insights into patient stratification and immune reconstitution.

Published

2016

20. Evolution of cocirculating varicella-zoster virus genotypes during a chickenpox outbreak in Guinea-Bissau.

Author

Depledge DP, Gray ER, Kundu S, Cooray S, Poulsen A, Aaby P, and Breuer J

Subjects

Adolescent, Adult, Child, Child, Preschool, Cluster Analysis, DNA, Viral chemistry, DNA, Viral genetics, Evolution, Molecular, Female, Genome, Viral, Genotype, Guinea-Bissau epidemiology, Herpesvirus 3, Human isolation & purification, Humans, Infant, Male, Molecular Sequence Data, Phylogeny, Sequence Analysis, DNA, Chickenpox epidemiology, Chickenpox virology, Disease Outbreaks, Genetic Variation, Herpesvirus 3, Human classification, Herpesvirus 3, Human genetics

Abstract

Unlabelled: Varicella-zoster virus (VZV), a double-stranded DNA alphaherpesvirus, is associated with seasonal outbreaks of varicella in nonimmunized populations. Little is known about whether these outbreaks are associated with a single or multiple viral genotypes and whether new mutations rapidly accumulate during transmission. Here, we take advantage of a well-characterized population cohort in Guinea-Bissau and produce a unique set of 23 full-length genome sequences, collected over 7 months from eight households. Comparative sequence analysis reveals that four distinct genotypes cocirculated among the population, three of which were present during the first week of the outbreak, although no patients were coinfected, which indicates that exposure to infectious virus from multiple sources is common during VZV outbreaks. Transmission of VZV was associated with length polymorphisms in the R1 repeat region and the origin of DNA replication. In two cases, these were associated with the formation of distinct lineages and point to the possible coevolution of these loci, despite the lack of any known functional link in VZV or related herpesviruses. We show that these and all other sequenced clade 5 viruses possess a distinct R1 repeat motif that increases the acidity of an ORF11p protein domain and postulate that this has either arisen or been lost following divergence of the major clades. Thus, sequencing of whole VZV genomes collected during an outbreak has provided novel insights into VZV biology, transmission patterns, and (recent) natural history., Importance: VZV is a highly infectious virus and the causative agent of chickenpox and shingles, the latter being particularly associated with the risk of painful complications. Seasonal outbreaks of chickenpox are very common among young children, yet little is known about the dynamics of the virus during person-to-person to transmission or whether multiple distinct viruses seed and/or cocirculate during an outbreak. In this study, we have sequenced chickenpox viruses from an outbreak in Guinea-Bissau that are supported by detailed epidemiological data. Our data show that multiple different virus strains seeded and were maintained throughout the 6-month outbreak period and that viruses transmitted between individuals accumulated new mutations in specific genomic regions. Of particular interest is the potential coevolution of two distinct parts of the genomes and our calculations of the rate of viral mutation, both of which increase our understanding of how VZV evolves over short periods of time in human populations., (Copyright © 2014 Depledge et al.)

Published

2014

21. Deep sequencing of viral genomes provides insight into the evolution and pathogenesis of varicella zoster virus and its vaccine in humans.

Author

Depledge DP, Kundu S, Jensen NJ, Gray ER, Jones M, Steinberg S, Gershon A, Kinchington PR, Schmid DS, Balloux F, Nichols RA, and Breuer J

Subjects

Alleles, Evolution, Molecular, Exanthema virology, Genotype, High-Throughput Nucleotide Sequencing, Humans, Molecular Sequence Data, Mutation Rate, Phylogeny, Polymorphism, Single Nucleotide, Selection, Genetic, Viral Vaccines adverse effects, Genome, Viral, Herpesvirus 3, Human genetics, Herpesvirus 3, Human pathogenicity, Skin virology, Viral Vaccines genetics

Abstract

Immunization with the vOka vaccine prevents varicella (chickenpox) in children and susceptible adults. The vOka vaccine strain comprises a mixture of genotypes and, despite attenuation, causes rashes in small numbers of recipients. Like wild-type virus, the vaccine establishes latency in neuronal tissue and can later reactivate to cause Herpes zoster (shingles). Using hybridization-based methodologies, we have purified and sequenced vOka directly from skin lesions. We show that alleles present in the vaccine can be recovered from the lesions and demonstrate the presence of a severe bottleneck between inoculation and lesion formation. Genotypes in any one lesion appear to be descended from one to three vaccine-genotypes with a low frequency of novel mutations. No single vOka haplotype and no novel mutations are consistently present in rashes, indicating that neither new mutations nor recombination with wild type are critical to the evolution of vOka rashes. Instead, alleles arising from attenuation (i.e., not derived from free-living virus) are present at lower frequencies in rash genotypes. We identify 11 loci at which the ancestral allele is selected for in vOka rash formation and show genotypes in rashes that have reactivated from latency cannot be distinguished from rashes occurring immediately after inoculation. We conclude that the vOka vaccine, although heterogeneous, has not evolved to form rashes through positive selection in the mode of a quasispecies, but rather alleles that were essentially neutral during the vaccine production have been selected against in the human subjects, allowing us to identify key loci for rash formation.

Published

2014

22. Binding of more than one Tva800 molecule is required for ASLV-A entry.

Author

Gray ER, Illingworth CJ, Coffin JM, and Stoye JP

Subjects

Animals, Cell Line, Cell Membrane metabolism, HEK293 Cells, Humans, Mice, Models, Biological, Viral Envelope Proteins metabolism, Alpharetrovirus physiology, Avian Proteins metabolism, Receptors, Virus metabolism, Virus Attachment, Virus Internalization

Abstract

Background: Understanding the mechanism by which viruses enter their target cell is an essential part of understanding their infectious cycle. Previous studies have focussed on the multiplicity of viral envelope proteins that need to bind to their cognate receptor to initiate entry. Avian sarcoma and leukosis virus Envelope protein (ASLV Env) mediates entry via a receptor, Tva, which can be attached to the cell surface either by a phospholipid anchor (Tva800) or a transmembrane domain (Tva950). In these studies, we have now investigated the number of target receptors necessary for entry of ASLV Env-pseudotyped virions., Results: Using titration and modelling experiments we provide evidence that binding of more than one receptor, probably two, is needed for entry of virions via Tva800. However, binding of just one Tva950 receptor is sufficient for successful entry., Conclusions: The different modes of attachment of Tva800 and Tva950 to the cell membrane have important implications for the utilisation of these proteins as receptors for viral binding and/or uptake.

Published

2011

23. No evidence of XMRV or related retroviruses in a London HIV-1-positive patient cohort.

Author

Gray ER, Garson JA, Breuer J, Edwards S, Kellam P, Pillay D, and Towers GJ

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Cohort Studies, DNA analysis, DNA genetics, Female, Genome, Viral genetics, Humans, Leukocytes metabolism, London, Male, Middle Aged, Polymerase Chain Reaction, Young Adult, HIV Seropositivity virology, HIV-1 immunology, Xenotropic murine leukemia virus-related virus genetics

Abstract

Background: Several studies have implicated a recently discovered gammaretrovirus, XMRV (Xenotropic murine leukaemia virus-related virus), in chronic fatigue syndrome and prostate cancer, though whether as causative agent or opportunistic infection is unclear. It has also been suggested that the virus can be found circulating amongst the general population. The discovery has been controversial, with conflicting results from attempts to reproduce the original studies., Methodology/principal Findings: We extracted peripheral blood DNA from a cohort of 540 HIV-1-positive patients (approximately 20% of whom have never been on anti-retroviral treatment) and determined the presence of XMRV and related viruses using TaqMan PCR. While we were able to amplify as few as 5 copies of positive control DNA, we did not find any positive samples in the patient cohort., Conclusions/significance: In view of these negative findings in this highly susceptible group, we conclude that it is unlikely that XMRV or related viruses are circulating at a significant level, if at all, in HIV-1-positive patients in London or in the general population.

Published

2011

24. Specific capture and whole-genome sequencing of viruses from clinical samples.

Author

Depledge DP, Palser AL, Watson SJ, Lai IY, Gray ER, Grant P, Kanda RK, Leproust E, Kellam P, and Breuer J

Subjects

Cell Line, Tumor, DNA, Viral chemistry, Herpesviridae classification, Herpesviridae Infections blood, Herpesviridae Infections cerebrospinal fluid, Herpesviridae Infections virology, Herpesvirus 3, Human genetics, Herpesvirus 4, Human genetics, Herpesvirus 8, Human genetics, Humans, Mutation, Polymerase Chain Reaction, Reproducibility of Results, Saliva virology, Species Specificity, DNA, Viral genetics, Genome, Viral genetics, Herpesviridae genetics, Sequence Analysis, DNA methods

Abstract

Whole genome sequencing of viruses directly from clinical samples is integral for understanding the genetics of host-virus interactions. Here, we report the use of sample sparing target enrichment (by hybridisation) for viral nucleic acid separation and deep-sequencing of herpesvirus genomes directly from a range of clinical samples including saliva, blood, virus vesicles, cerebrospinal fluid, and tumour cell lines. We demonstrate the effectiveness of the method by deep-sequencing 13 highly cell-associated human herpesvirus genomes and generating full length genome alignments at high read depth. Moreover, we show the specificity of the method enables the study of viral population structures and their diversity within a range of clinical samples types.

Published

2011

25. Disease-associated XMRV sequences are consistent with laboratory contamination.

Author

Hué S, Gray ER, Gall A, Katzourakis A, Tan CP, Houldcroft CJ, McLaren S, Pillay D, Futreal A, Garson JA, Pybus OG, Kellam P, and Towers GJ

Subjects

Animals, DNA, Viral chemistry, DNA, Viral genetics, Humans, Male, Mice, Molecular Sequence Data, Polymerase Chain Reaction methods, Sequence Analysis, DNA, DNA Contamination, Fatigue Syndrome, Chronic virology, Prostatic Neoplasms virology, Virology methods, Xenotropic murine leukemia virus-related virus genetics, Xenotropic murine leukemia virus-related virus isolation & purification

Abstract

Background: Xenotropic murine leukaemia viruses (MLV-X) are endogenous gammaretroviruses that infect cells from many species, including humans. Xenotropic murine leukaemia virus-related virus (XMRV) is a retrovirus that has been the subject of intense debate since its detection in samples from humans with prostate cancer (PC) and chronic fatigue syndrome (CFS). Controversy has arisen from the failure of some studies to detect XMRV in PC or CFS patients and from inconsistent detection of XMRV in healthy controls., Results: Here we demonstrate that Taqman PCR primers previously described as XMRV-specific can amplify common murine endogenous viral sequences from mouse suggesting that mouse DNA can contaminate patient samples and confound specific XMRV detection. To consider the provenance of XMRV we sequenced XMRV from the cell line 22Rv1, which is infected with an MLV-X that is indistinguishable from patient derived XMRV. Bayesian phylogenies clearly show that XMRV sequences reportedly derived from unlinked patients form a monophyletic clade with interspersed 22Rv1 clones (posterior probability >0.99). The cell line-derived sequences are ancestral to the patient-derived sequences (posterior probability >0.99). Furthermore, pol sequences apparently amplified from PC patient material (VP29 and VP184) are recombinants of XMRV and Moloney MLV (MoMLV) a virus with an envelope that lacks tropism for human cells. Considering the diversity of XMRV we show that the mean pairwise genetic distance among env and pol 22Rv1-derived sequences exceeds that of patient-associated sequences (Wilcoxon rank sum test: p = 0.005 and p < 0.001 for pol and env, respectively). Thus XMRV sequences acquire diversity in a cell line but not in patient samples. These observations are difficult to reconcile with the hypothesis that published XMRV sequences are related by a process of infectious transmission., Conclusions: We provide several independent lines of evidence that XMRV detected by sensitive PCR methods in patient samples is the likely result of PCR contamination with mouse DNA and that the described clones of XMRV arose from the tumour cell line 22Rv1, which was probably infected with XMRV during xenografting in mice. We propose that XMRV might not be a genuine human pathogen.

Published

2010

26. Pigeons encode absolute distance but relational direction from landmarks and walls.

Author

Gray ER and Spetch ML

Subjects

Animals, Behavior, Animal, Columbidae, Distance Perception, Space Perception, Spatial Behavior

Abstract

In recent studies, researchers have examined animals' use of absolute or relational distances in finding a hidden goal. When trained with an array of landmarks, most animals use the default strategy of searching at an absolute distance from 1 or more landmarks. In contrast, when trained in enclosures, animals often use the relationship among walls. In the present study, pigeons were trained to find the center of an array of landmarks or a set of short walls that did not block external cues. Expansion tests showed that both groups of pigeons primarily used an absolute distance strategy. However, on rotational tests, pigeons continued to search in the center of the array, suggesting that direction was learned in relation to array., (Copyright 2006 APA.)

Published

2006

27. Spatial encoding in mountain chickadees: features overshadow geometry.

Author

Gray ER, Bloomfield LL, Ferrey A, Spetch ML, and Sturdy CB

Subjects

Animals, Orientation physiology, Passeriformes physiology, Pattern Recognition, Visual physiology, Space Perception physiology, Spatial Behavior physiology

Abstract

Encoding the global geometric shape of an enclosed environment is a principal means of orientation in human and non-human animals. Animals spontaneously encode the geometry of an enclosure even when featural information is available. Although features can be used, they typically do not overshadow geometry. However, all previously tested organisms have been reared in human-made environments with salient geometrical cues. Here, we show that wild-caught mountain chickadees (Poecile gambeli) do not spontaneously encode the geometry of an enclosure when salient features are present near the goal. However, chickadees trained without salient features encode geometric information, but this encoding is overshadowed by features.

Published

2005

28. Searching in the center: pigeons (Columba livid) encode relative distance from walls of an enclosure.

Author

Gray ER, Spetch ML, Kelly DM, and Nguyen A

Subjects

Animals, Columbidae, Cues, Recognition, Psychology, Reinforcement, Psychology, Videotape Recording, Behavior, Animal, Distance Perception, Exploratory Behavior

Abstract

Pigeons (Columba livia) searched for food hidden in the center of a square enclosure. On occasional tests without food, the enclosure was (a) unchanged from training (control tests), (b) moved to different corners of the testing room (corner tests), or (c) doubled in size (expansion tests). The birds showed localized search in the center of the enclosure on control and corner tests. On expansion tests, some birds searched near the center of the enclosure, suggesting relative-distance encoding. Other birds searched at locations that maintained the training distance from walls, suggesting absolute-distance encoding. These results are consistent with previous studies on chicks (Gallus gallus) in similar enclosures and contrast with previous results on pigeons' responses to expansions of discrete landmark arrays., (((c) 2004 APA, all rights reserved))

Published

2004

29. Conscious control of motor units in a tonic muscle. The effect of motor unit training.

Author

Gray ER

Subjects

Action Potentials, Adult, Humans, Anal Canal

Published

1971

30. Conscious control of motor units in a neuromuscular disorder.

Author

Gray ER

Subjects

Adult, Electromyography, Humans, Male, Neural Conduction, Neuromuscular Diseases physiopathology, Physical Therapy Modalities, Neuromuscular Diseases therapy

Published

1971

31. The role of leg muscles in variations of the arches in normal and flat feet.

Author

Gray ER

Subjects

Electromyography, Flatfoot congenital, Humans, Male, Flatfoot physiopathology, Foot physiopathology, Leg, Muscles physiopathology

Published

1969