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3. sj-docx-1-jdr-10.1177_00220345231169434 – Supplemental material for HOCl Rapidly Kills Corona, Flu, and Herpes to Prevent Aerosol Spread

Author

Guan, H., Nuth, M., Weiss, S.R., Fausto, A., Liu, Y., Koo, H., Wolff, M.S., and Ricciardi, R.P.

Subjects
110599 Dentistry not elsewhere classified, FOS: Materials engineering, FOS: Clinical medicine, 91299 Materials Engineering not elsewhere classified
Abstract

Supplemental material, sj-docx-1-jdr-10.1177_00220345231169434 for HOCl Rapidly Kills Corona, Flu, and Herpes to Prevent Aerosol Spread by H. Guan, M. Nuth, S.R. Weiss, A. Fausto, Y. Liu, H. Koo, M.S. Wolff and R.P. Ricciardi in Journal of Dental Research

Published
2023
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11. Water retention behavior of deformable soils – Experiment and modeling

Author

Salager, S., Nuth, M., Alessio, F., Laloui, L., Peyroux, Robert, Laboratoire sols, solides, structures - risques [Grenoble] (3SR), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Université Joseph Fourier - Grenoble 1 (UJF)-Institut National Polytechnique de Grenoble (INPG)-Centre National de la Recherche Scientifique (CNRS), GéoMécanique, and Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Université Joseph Fourier - Grenoble 1 (UJF)-Institut National Polytechnique de Grenoble (INPG)-Centre National de la Recherche Scientifique (CNRS)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Université Joseph Fourier - Grenoble 1 (UJF)-Institut National Polytechnique de Grenoble (INPG)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[PHYS.MECA]Physics [physics]/Mechanics [physics], [PHYS.MECA] Physics [physics]/Mechanics [physics], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2014

15. Constitutive analysis of the mechanical anisotropy of Opalinus Clay

Author

Salager, S., Francois, Bertrand, Nuth, M., Laloui, L., Salager, S., Francois, Bertrand, Nuth, M., and Laloui, L.

Abstract

This paper aims to analyse the anisotropic features of behaviour of Opalinus Clay using the theory of plastic multi-mechanisms. The results of triaxial tests conducted with different load levels and directions showed that the mechanical behaviour of this shale is cross-anisotropic. The stiffer samples are those in which the loading direction is parallel to the bedding plane. This indicates that the preconsolidation stress depends on the orientation of the load with respect to the fabric of Opalinus Clay. It is proposed to interpret the observed cross-anisotropy with an elastoplastic model based on four plastic strain mechanisms that may be successively mobilised depending on the loading direction. The predicted stress-strain responses vary according to the directions of the space as a result of the hardening process, depending on the number of plastic strain mechanisms that have been mobilised. The numerical predictions show overall good agreement with the experimental data in terms of deviatoric stress versus axial strain, demonstrating that multi-mechanism plasticity is a suitable constitutive tool for the interpretation of the mechanical anisotropy of this shale. © 2012 Springer-Verlag., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2012

17. Mechanics of unsaturated soils

Author

Laloui, L., Nuth, M., Francois, Bertrand, Laloui, L., Nuth, M., and Francois, Bertrand

Abstract

info:eu-repo/semantics/published

Published
2010

20. A constitutive approach to address the thermal and hydric impacts in the concept of deep radioactive waste repositories

Author

3rd International Meeting on Clays in Natural and Engineered Barriers for Radioactive Waste Confinement (Lille, France), Francois, Bertrand, Nuth, M., Laloui, L., 3rd International Meeting on Clays in Natural and Engineered Barriers for Radioactive Waste Confinement (Lille, France), Francois, Bertrand, Nuth, M., and Laloui, L.

Abstract

info:eu-repo/semantics/nonPublished

Published
2007

21. Benchmark of constitutive models for unsaturated soils

Author

D'ONZA, F., primary, GALLIPOLI, D., additional, WHEELER, S., additional, CASINI, F., additional, VAUNAT, J., additional, KHALILI, N., additional, LALOUI, L., additional, MANCUSO, C., additional, MAšíN, D., additional, NUTH, M., additional, PEREIRA, J.M., additional, and VASSALLO, R., additional

Published
2011
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27. Water retention behavior of deformable soils-experiment and modeling

Author

Salager, S., Nuth, M., Alessio Ferrari, Laloui, L., Khalili, N, Russell, Ar, and Khoshghalb, A

Abstract

The paper presents an experimental and modelling approach for the soil water retention behaviour of two deformable soils. The objective is to investigate the physical mechanisms that govern the soil water retention properties and to propose a constitutive framework for the soil water retention curve accounting for the initial state of compaction and deformability of soils. A granular soil and a clayey soil were subjected to drying over a wide range of suctions so that the residual state of saturation could be attained. The obtained soil water retention curves are synthesized and compared in terms of water content, void ratio, and degree of saturation, and are expressed as a function of the total suction. The observed features of behaviour are conceptualized into a modelling framework expressing the evolution of the degree of saturation as a function of suction. The proposed retention model makes use of the theory of elasto-plasticity and can thus be generalized into a hysteretic model applicable to drying-wetting cycles.

28. Investigations on water retention behaviour of deformable soils

Author

Salager, S., Alessio Ferrari, Nuth, M., and Laloui, L.

Abstract

The trend in modern unsaturated soil mechanics is to enhance the physical understanding of the soil water retention properties. It is agreed that the retention characteristics depend on the state of compaction and are related to the deformability of the media. Therefore, any appropriate experimental set up and behavioural model shall take into consideration the evolution of the density state in the course of drying or wetting processes. The results from an exhaustive experimental characterization of the retention behaviour of a granular soil is synthesized. The information concerning degree of saturation, suction and void ratio is assessed to quantify in particular the effect of the passed and present states of mechanical stress and strain on the shape of the curves. The void ratio is noticed to exert a clear influence on the air entry value. In the plane water content versus suction, the experimental results highlight the fact that from a certain value of suction, the retention curves corresponding to different densities of the same soil converge into a single curve. The observed features of behaviour are conceptualized into a new modelling framework expressing the evolution of the degree of saturation as a function of suction. The proposed retention model makes use of the theory of elasto-plasticity. The calibration of the model requires experimental retention data for two initial void ratios. The prediction of tests for further ranges of void ratios proves to be accurate which supports the adequacy of formulated concepts.

30. Understanding the thermo-mechanical response of heat exchanger piles

Author

Claire Silvani, Nuth, M., Laloui, L., Peron, H., Pietruszczak, Stan, Pande, Gyan, Tamagnini, Claudio, and Wan, Richard

Abstract

Although the adaptation of deep foundations into heat exchangers is receiving growing attention, geothermal research is focusing mostly on energy optimization aspects. Meanwhile, the primary bearing function of the foundation must remain unaltered. Also, provided that soils are naturally prone to dilation or contraction upon heating-cooling cycles, ensuring all the time the lateral contact between pile and soil is a critical issue. The paper is a contribution to the verification and optimization of mechanical dimensioning of heat exchanger piles. Besides, the soil behavior in the vicinity of the geothermal structure is assessed with respect to temperature diffusion throughout the medium. An experimental programme is carried out on a real scale instrumented heat exchanger pile, featuring cyclic variations in temperature in the embedded pipes. A thermo-hydro-mechanical (THM) elastoplastic model for unsaturated porous media is introduced to simulate the behavior of the heat pile and soil. A finite element analysis of the in-situ test pile is then carried out to assess the validity and capabilities of the innovative modeling framework. The numerical results show good comparability with field measurements. Further numerical investigation on a pile group predicts the pile and soil response to thermal loads beyond the conventional temperature range seen previously. Simulations predict thermo-plastic behavior which is harmful for the soil-foundation contact.

31. Effective Stress Concept in Unsaturated Soils: Clarification and Validation of an Unified Framework

Author

Nuth, M. and Laloui, L.

Subjects
critical state, effective stress, unsaturated soils, constitutive modelling, stress framework
Abstract

The effective stress principle, conventionally applied in saturated soils, is reviewed for constitutive modelling purposes. The assumptions for the applicability of Terzaghi’s single effective stress are recalled and its advantages are inventoried. The possible stress frameworks applicable to unsaturated soil modelling are reassessed in a comparative manner, specifically the Bishop’s single effective stress, the independent stress variables approach and the generalized stress framework. The latter considerations lead to the definition of a unified stress context, suitable for modelling soils under different saturation states. In order to qualify the implications brought by the proposed stress framework, several experimental data sets are re-examined in the light of the generalized effective stress. The critical state lines (CSLs) at different saturation states tend to converge remarkably towards a unique saturated line in the deviatoric stress versus mean effective stress plane. The effective stress interpretation is also applied to isotropic paths and compared with conventional net stress conception. The accent is finally laid on a second key feature for constitutive frameworks based on a unified stress, namely the sufficiency of a unique mechanical yield surface besides the unique CSL.

32. Investigation into water retention behaviour of deformable soils

Author

NuthMathieu, SalagerSimon, LalouiLyesse, FerrariAlessio, Salager, S., Nuth, M., Ferrari, A., and Laloui, L.

Subjects
Water retention curve, Soil-water retention curve, Soil water, medicine, Environmental science, Deformable media, Unsaturated soil, Geotechnical engineering, medicine.symptom, Geotechnical Engineering and Engineering Geology, Constitutive modelling, Civil and Structural Engineering, Water retention
Abstract

The paper presents an experimental and modelling approach for the soil-water retention behaviour of two deformable soils. The objective is to investigate the physical mechanisms that govern the soil-water retention properties and to propose a constitutive framework for the soil-water retention curve accounting for the initial state of compaction and deformability of soils. A granular soil and a clayey soil were subjected to drying over a wide range of suctions so that the residual state of saturation could be attained. Different initial densities were tested for each material. The soil-water retention curves (SWRCs) obtained are synthesized and compared in terms of water content, void ratio, and degree of saturation, and are expressed as a function of the total suction. The studies enable assessment of the effect of the past and present soil deformation on the shape of the curves. The void ratio exerts a clear influence on the air-entry value, revealing that the breakthrough of air into the pores of the soil is more arduous in denser states. In the plane of water content versus suction, the experimental results highlight the fact that from a certain value of suction, the retention curves corresponding to different densities of the same soil are convergent. The observed features of behaviour are conceptualized into a modelling framework expressing the evolution of the degree of saturation as a function of suction. The proposed retention model makes use of the theory of elastoplasticity and can thus be generalized into a hysteretic model applicable to drying–wetting cycles. The calibration of the model requires the experimental retention data for two initial void ratios. The prediction of tests for further ranges of void ratios proves to be accurate, which supports the adequacy of formulated concepts.

Published
2013
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33. Benchmarking of constitutive models for unsaturated soils

Author

Francesca Casini, Mathieu Nuth, Roberto Vassallo, Simon J. Wheeler, Nasser Khalili, Jean Vaunat, David Mašín, Lyesse Laloui, C. Mancuso, Jean-Michel Pereira, Dominico Gallipoli, Francesca D’Onza, University of Glasgow, Department of Civil Engineering, Institute of Geotechnical Engineering, Universitat Politècnica de Catalunya [Barcelona] (UPC), School of Civil and Environmental Engineering [Sydney], University of New South Wales [Sydney] (UNSW), Ecole Polytechnique Fédérale de Lausanne (EPFL), Dipartimento di Ingegneria Idraulica, Geotecnica ed Ambientale, University of Naples Federico II = Università degli studi di Napoli Federico II, Faculty of Science, Charles University [Prague] (CU), Géotechnique (cermes), Laboratoire Navier (navier umr 8205), Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)-École des Ponts ParisTech (ENPC)-Centre National de la Recherche Scientifique (CNRS)-Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)-École des Ponts ParisTech (ENPC)-Centre National de la Recherche Scientifique (CNRS), Dipartimento di Strutture, Geotecnica, Geologia Applicata, Università degli studi della Basilicata [Potenza] (UNIBAS), European Project: 28277,MUSE, Università degli studi di Napoli Federico II, Università della Basilicata, D’Onza, F., Gallipoli, D., Wheeler, S., Casini, F., Vaunat, J., Khalili, N., Laloui, L., Mancuso, Claudio, Masin, D., Nuth, M., Pereira, J. M., and Vassallo, R.

Subjects
Engineering, Constitutive equation, constitutive relations, 0211 other engineering and technologies, constitutive model, 02 engineering and technology, Silt, laboratory tests, [PHYS.MECA.MEMA]Physics [physics]/Mechanics [physics]/Mechanics of materials [physics.class-ph], partial, [SPI.MECA.MEMA]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanics of materials [physics.class-ph], Earth and Planetary Sciences (miscellaneous), Geotechnical engineering, Constitutive relations, Laboratory tests, Partial saturation, Plasticity, Suction, Water content, 021101 geological & geomatics engineering, 021110 strategic, defence & security studies, Settore ICAR/07 - Geotecnica, suction, business.industry, Degree of saturation, unsaturated soils, Geotechnical Engineering and Engineering Geology, Oedometer test, partial saturation, plasticity, Soil water, business
Abstract

The paper presents a collaborative piece of research undertaken by seven research teams from different universities within the ‘Mechanics of Unsaturated Soils for Engineering' (MUSE) network. The objective is to benchmark different approaches to constitutive modelling of mechanical and water retention behaviour of unsaturated soils by comparing simulations of suction-controlled and constant water content laboratory tests. A set of 13 triaxial and oedometer laboratory tests, covering the mechanical and water retention behaviour of an unsaturated compacted silty soil under a variety of stress paths, has been provided by one of the seven participating teams. This data set has been used by the other six teams for calibrating a constitutive model of their choice, which has been subsequently employed for predicting strains and degree of saturation in three of the 13 tests used for calibration, as well as in one ‘blind' test for which experimental results had not been previously disclosed. By comparing predictions from all teams among themselves and against experimental data, the work highlights the capability of some of the current modelling approaches to reproduce specific features of the mechanical and water retention behaviour of unsaturated soils helping to identify potential areas of weakness where future research should focus. It also demonstrates the dispersion of results to be expected when different constitutive models, independently calibrated by different teams of researchers, are used to predict soil behaviour along the same stress path.

Published
2011
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34. Potency of a small molecule that targets the molluscum contagiosum virus processivity factor increases when conjugated to a tripeptide.

Author

Guan H, Nuth M, Scott RW, Parker MH, Strobel ED, Reitz AB, Kulp JL 3rd, and Ricciardi RP

Subjects
Humans, Virus Replication drug effects, Molluscum Contagiosum drug therapy, Oligopeptides pharmacology, Oligopeptides chemistry, Animals, Cell Line, Antiviral Agents pharmacology, Antiviral Agents chemistry, Antiviral Agents chemical synthesis, Molluscum contagiosum virus drug effects
Abstract

We recently developed compound FC-7269 for targeting the Molluscum contagiosum virus processivity factor (mD4) and demonstrated its ability to inhibit viral processive DNA synthesis in vitro and cellular infection of an mD4-dependent virus (Antiviral Res 211, 2023,105520). However, despite a thorough medicinal chemistry campaign we were unable to generate a potent second analog as a requisite for drug development. We overcame this impasse, by conjugating a short hydrophobic trivaline peptide to FC-7269 to produce FC-TriVal-7269 which significantly increased antiviral potency and reduced cellular toxicity., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published
2024
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35. A small molecule that targets the processivity factor of molluscum contagiosum virus has therapeutic potential.

Author

Guan H, Nuth M, Isaacs SN, Xiao Y, Scott RW, Parker MH, Strobel ED, Kulp JL 3rd, Bailey TR, Reitz AB, and Ricciardi RP

Subjects
Child, Humans, Viral Proteins genetics, DNA metabolism, Molluscum contagiosum virus genetics, Molluscum contagiosum virus metabolism, Molluscum Contagiosum
Abstract

Molluscum contagiosum (MC) is an infectious disease that occurs only in humans with a tropism that is narrowly restricted to the outermost epidermal layer of the skin. Molluscum contagiosum virus (MCV) is the causative agent of MC which produces skin lesions that can persist for months to several years. MCV is efficiently transmitted by direct physical contact or by indirect contact with fomites. MC is most prevalent in children and immune compromised patients. The failure to develop a drug that targets MCV replication has been hampered for decades by the inability to propagate MCV in cell culture. To address this dilemma, we recently engineered a surrogate poxvirus expressing the MCV processivity factor (mD4) as the drug target. The mD4 protein is essential for viral replication by keeping the viral polymerase tethered to the DNA template. In this study we have designed and synthesized a lead compound (7269) that is able to prevent mD4 dependent processive DNA synthesis in vitro (IC 50  = 6.8 μM) and effectively inhibit propagation of the mD4-VV surrogate virus in BSC-1 cells (EC 50  = 13.2 μM) with negligible cytotoxicity. In human liver microsomes, 7269 was shown to be stable for almost 2 h. When tested for penetration into human cadaver skin in a formulated gel, the level of 7269 in the epidermal layer was nearly 100 times the concentration (EC 50 ) needed to inhibit propagation of the mD4-VV surrogate virus in BSC-1 cells. The gel formulated 7269 was scored as a non-irritant on skin and shown to have a shelf-life that was completely stable after several months. In summary, 7269 is a potential Lead for becoming the first MCV anti-viral compound to treat MC and thereby, addresses this unmet medical need that has persisted for many decades., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2023
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36. Development, testing and validation of a SARS-CoV-2 multiplex panel for detection of the five major variants of concern on a portable PCR platform.

Author

Stanhope BJ, Peterson B, Knight B, Decadiz RN, Pan R, Davis P, Fraser A, Nuth M, vanWestrienen J, Wendlandt E, Goodwin B, Myers C, Stone J, and Sozhamannan S

Subjects
Humans, Pandemics, Polymerase Chain Reaction, SARS-CoV-2 genetics, COVID-19 diagnosis
Abstract

Many SARS-CoV-2 variants have emerged during the course of the COVID-19 pandemic. These variants have acquired mutations conferring phenotypes such as increased transmissibility or virulence, or causing diagnostic, therapeutic, or immune escape. Detection of Alpha and the majority of Omicron sublineages by PCR relied on the so-called S gene target failure due to the deletion of six nucleotides coding for amino acids 69-70 in the spike (S) protein. Detection of hallmark mutations in other variants present in samples relied on whole genome sequencing. However, whole genome sequencing as a diagnostic tool is still in its infancy due to geographic inequities in sequencing capabilities, higher cost compared to other molecular assays, longer turnaround time from sample to result, and technical challenges associated with producing complete genome sequences from samples that have low viral load and/or high background. Hence, there is a need for rapid genotyping assays. In order to rapidly generate information on the presence of a variant in a given sample, we have created a panel of four triplex RT-qPCR assays targeting 12 mutations to detect and differentiate all five variants of concern: Alpha, Beta, Gamma, Delta, and Omicron. We also developed an expanded pentaplex assay that can reliably distinguish among the major sublineages (BA.1-BA.5) of Omicron. In silico , analytical and clinical testing of the variant panel indicate that the assays exhibit high sensitivity and specificity. This panel can help fulfill the need for rapid identification of variants in samples, leading to quick decision making with respect to public health measures, as well as treatment options for individuals. Compared to sequencing, these genotyping PCR assays allow much faster turn-around time from sample to results-just a couple hours instead of days or weeks., Competing Interests: Authors BS, MN, and Jv were employed by company Biomeme, Inc. Author EW was employed by Integrated DNA Technologies. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Stanhope, Peterson, Knight, Decadiz, Pan, Davis, Fraser, Nuth, vanWestrienen, Wendlandt, Goodwin, Myers, Stone and Sozhamannan.)

Published
2022
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37. Debulking SARS-CoV-2 in saliva using angiotensin converting enzyme 2 in chewing gum to decrease oral virus transmission and infection.

Author

Daniell H, Nair SK, Esmaeili N, Wakade G, Shahid N, Ganesan PK, Islam MR, Shepley-McTaggart A, Feng S, Gary EN, Ali AR, Nuth M, Cruz SN, Graham-Wooten J, Streatfield SJ, Montoya-Lopez R, Kaznica P, Mawson M, Green BJ, Ricciardi R, Milone M, Harty RN, Wang P, Weiner DB, Margulies KB, and Collman RG

Subjects
Animals, Chewing Gum, Cricetinae, Cricetulus, Cytoreduction Surgical Procedures, Humans, Protein Binding, SARS-CoV-2, Saliva metabolism, Spike Glycoprotein, Coronavirus chemistry, Spike Glycoprotein, Coronavirus genetics, Virus Internalization, Angiotensin-Converting Enzyme 2 genetics, COVID-19
Abstract

To advance a novel concept of debulking virus in the oral cavity, the primary site of viral replication, virus-trapping proteins CTB-ACE2 were expressed in chloroplasts and clinical-grade plant material was developed to meet FDA requirements. Chewing gum (2 g) containing plant cells expressed CTB-ACE2 up to 17.2 mg ACE2/g dry weight (11.7% leaf protein), have physical characteristics and taste/flavor like conventional gums, and no protein was lost during gum compression. CTB-ACE2 gum efficiently (>95%) inhibited entry of lentivirus spike or VSV-spike pseudovirus into Vero/CHO cells when quantified by luciferase or red fluorescence. Incubation of CTB-ACE2 microparticles reduced SARS-CoV-2 virus count in COVID-19 swab/saliva samples by >95% when evaluated by microbubbles (femtomolar concentration) or qPCR, demonstrating both virus trapping and blocking of cellular entry. COVID-19 saliva samples showed low or undetectable ACE2 activity when compared with healthy individuals (2,582 versus 50,126 ΔRFU; 27 versus 225 enzyme units), confirming greater susceptibility of infected patients for viral entry. CTB-ACE2 activity was completely inhibited by pre-incubation with SARS-CoV-2 receptor-binding domain, offering an explanation for reduced saliva ACE2 activity among COVID-19 patients. Chewing gum with virus-trapping proteins offers a general affordable strategy to protect patients from most oral virus re-infections through debulking or minimizing transmission to others., Competing Interests: Declaration of interests All authors declare no competing interests except the corresponding author (H.D.), who is a patentee in this field but has no specific financial conflict of interest to disclose., (Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2022
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38. Discovery of a potent cytotoxic agent that promotes G 2 /M phase cell cycle arrest and apoptosis in a malignant human pharyngeal squamous carcinoma cell line.

Author

Nuth M, Benakanakere MR, and Ricciardi RP

Subjects
Apoptosis genetics, Cell Cycle drug effects, Cell Line, Tumor drug effects, Cell Line, Tumor metabolism, Cytotoxins metabolism, Growth Inhibitors metabolism, Growth Inhibitors pharmacology, Humans, M Phase Cell Cycle Checkpoints drug effects, Pharyngeal Neoplasms metabolism, Apoptosis drug effects, Cytotoxins pharmacology, Pharyngeal Neoplasms drug therapy
Abstract

Squamous cell carcinoma is the major form of malignancy that arises in head and neck cancer. The modest improvement in the 5‑year survival rate underpins its complex etiology and provides the impetus for the discovery of new therapeutics. The present study describes the discovery of an indole‑based small molecule (24a) that was a potent cytotoxic agent with antiproliferative and pro‑apoptotic properties against a pharyngeal carcinoma cell line, Detroit 562, effectively killing the cells at a half‑maximal inhibitory concentration of 0.03 µM, as demonstrated using cell proliferation studies. The antiproliferative property of 24a was demonstrated by its ability to promote G 2 /M blockade, as assessed by cell cycle analysis using flow cytometry and the monitoring of real‑time cell cycle progression by the fluorescence ubiquitination‑based cell cycle indicator. This pro‑apoptotic property is supported by the promotion of TUNEL‑staining and increase in the activities of caspases‑3/7 and ‑6, in addition to the expression of death receptors and the cleavage of poly (ADP‑ribose) polymerase 1 protein as demonstrated by western blotting. Given that Detroit 562 lacks functional p53, it is suggested that 24a acts independently of the tumor suppressor.

Published
2022
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39. Herpes Simplex Virus-1 infection in human primary corneal epithelial cells is blocked by a stapled peptide that targets processive DNA synthesis.

Author

Guan H, Nuth M, Lee V, Lin C, Mitchell CH, Lu W, Scott RW, Parker MH, Kulp JL 3rd, Reitz AB, and Ricciardi RP

Subjects
DNA, Epithelial Cells, Humans, Peptides pharmacology, Herpesvirus 1, Human genetics, Keratitis, Herpetic drug therapy
Abstract

Purpose: Acyclovir is most commonly used for treating ocular Herpes Keratitis, a leading cause of infectious blindness. However, emerging resistance to Acyclovir resulting from mutations in the thymidine kinase gene of Herpes Simplex Virus -1 (HSV-1), has prompted the need for new therapeutics directed against a different viral protein. One novel target is the HSV-1 Processivity Factor which is essential for tethering HSV-1 Polymerase to the viral genome to enable long-chain DNA synthesis., Methods: A series of peptides, based on the crystal structure of the C-terminus of HSV-1 Polymerase, were constructed with hydrocarbon staples to retain their alpha-helical conformation. The stapled peptides were tested for blocking both HSV-1 DNA synthesis and infection. The most effective peptide was further optimized by replacing its negative N-terminus with two hydrophobic valine residues. This di-valine stapled peptide was tested for inhibiting HSV-1 infection of human primary corneal epithelial cells., Results: The stapled peptides blocked HSV-1 DNA synthesis and HSV-1 infection. The unstapled control peptide had no inhibitory effects. Specificity of the stapled peptides was confirmed by their inabilities to block infection by an unrelated virus. Significantly, the optimized di-valine stapled peptide effectively blocked HSV-1 infection in human primary corneal epithelial cells with selectivity index of 11.6., Conclusions: Hydrocarbon stapled peptides that simulate the α-helix from the C-terminus of HSV-1 DNA polymerase can specifically block DNA synthesis and infection of HSV-1 in human primary corneal epithelial cells. These stapled peptides provide a foundation for developing a topical therapeutic for treating human ocular Herpes Keratitis., (Copyright © 2020. Published by Elsevier Inc.)

Published
2021
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40. Unique roles of iron and zinc binding to the yeast Fe-S cluster scaffold assembly protein "Isu1".

Author

Lewis BE, Mason Z, Rodrigues AV, Nuth M, Dizin E, Cowan JA, and Stemmler TL

Subjects
Amino Acid Sequence, Binding Sites, Computer Simulation, Mitochondrial Proteins chemistry, Models, Molecular, Saccharomyces cerevisiae Proteins chemistry, X-Ray Absorption Spectroscopy, Iron metabolism, Iron-Sulfur Proteins metabolism, Mitochondrial Proteins metabolism, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins metabolism, Zinc metabolism
Abstract

Mitochondrial Fe-S cluster biosynthesis is accomplished within yeast utilizing the biophysical attributes of the "Isu1" scaffold assembly protein. As a member of a highly homologous protein family, Isu1 has sequence conservation between orthologs and a conserved ability to assemble [2Fe-2S] clusters. Regardless of species, scaffold orthologs have been shown to exist in both "disordered" and "structured" conformations, a structural architecture that is directly related to conformations utilized during Fe-S cluster assembly. During assembly, the scaffold helps direct the delivery and utilization of Fe(ii) and persulfide substrates to produce [2Fe-2S] clusters, however Zn(ii) binding alters the activity of the scaffold while at the same time stabilizes the protein in its structured state. Additional studies confirm Zn binds to the scaffold's Cys rich active site, and has an impact on the protein's ability to make Fe-S clusters. Understanding the interplay between Fe(ii) and Zn(ii) binding to Isu1 in vitro may help clarify metal loading events that occur during Fe-S cluster assembly in vivo. Here we determine the metal : protein stoichiometry for Isu1 Zn and Fe binding to be 1 : 1 and 2 : 1, respectively. As expected, while Zn binding shifts the Isu1 to its structured state, folding is not influenced by Fe(ii) binding. X-ray absorption spectroscopy (XAS) confirms Zn(ii) binds to the scaffold's cysteine rich active site but Fe(ii) binds at a location distinct from the active site. XAS results show Isu1 binding initially of either Fe(ii) or Zn(ii) does not significantly perturb the metal site structure of alternate metal. XAS confirmed that four scaffold orthologs bind iron as high-spin Fe(ii) at a site composed of ca. 6 oxygen and nitrogen nearest neighbor ligands. Finally, in our report Zn binding dramatically reduces the Fe-S cluster assembly activity of Isu1 even in the presence of frataxin. Given the Fe-binding activity we report for Isu1 and its orthologs here, a possible mechanism involving Fe(ii) transport to the scaffold's active site during cluster assembly has been considered.

Published
2019
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41. Mutation and structure guided discovery of an antiviral small molecule that mimics an essential C-Terminal tripeptide of the vaccinia D4 processivity factor.

Author

Nuth M, Guan H, Xiao Y, Kulp JL 3rd, Parker MH, Strobel ED, Isaacs SN, Scott RW, Reitz AB, and Ricciardi RP

Subjects
Antiviral Agents pharmacology, Drug Discovery, Inhibitory Concentration 50, Thiophenes chemistry, Vaccinia virus physiology, Virus Replication drug effects, Antiviral Agents chemistry, Molecular Mimicry, Mutation, Oligopeptides chemistry, Vaccinia virus drug effects, Viral Proteins chemistry
Abstract

The smallpox virus (variola) remains a bioterrorism threat since a majority of the human population has never been vaccinated. In the event of an outbreak, at least two drugs against different targets of variola are critical to circumvent potential viral mutants that acquire resistance. Vaccinia virus (VACV) is the model virus used in the laboratory for studying smallpox. The VACV processivity factor D4 is an ideal therapeutic target since it is both essential and specific for poxvirus replication. Recently, we identified a tripeptide (Gly-Phe-Ile) motif at the C-terminus of D4 that is conserved among poxviruses and is necessary for maintaining protein function. In the current work, a virtual screening for small molecule mimics of the tripeptide identified a thiophene lead that effectively inhibited VACV, cowpox virus, and rabbitpox virus in cell culture (EC 50  = 8.4-19.7 μM) and blocked in vitro processive DNA synthesis (IC 50  = 13.4 μM). Compound-binding to D4 was demonstrated through various biophysical methods and a dose-dependent retardation of the proteolysis of D4 proteins. This study highlights an inhibitor design strategy that exploits a susceptible region of the protein and identifies a novel scaffold for a broad-spectrum poxvirus inhibitor., (Copyright © 2018. Published by Elsevier B.V.)

Published
2019
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42. A Conserved Tripeptide Sequence at the C Terminus of the Poxvirus DNA Processivity Factor D4 Is Essential for Protein Integrity and Function.

Author

Nuth M, Guan H, and Ricciardi RP

Subjects
Amino Acid Sequence, Crystallography, X-Ray, DNA Replication, DNA-Directed DNA Polymerase chemistry, DNA-Directed DNA Polymerase genetics, DNA-Directed DNA Polymerase metabolism, Models, Molecular, Mutagenesis, Site-Directed, Mutation genetics, Peptide Fragments genetics, Protein Conformation, Protein Domains, Sequence Homology, Amino Acid, Uracil-DNA Glycosidase chemistry, Uracil-DNA Glycosidase genetics, Uracil-DNA Glycosidase metabolism, Viral Proteins genetics, DNA, Viral genetics, Peptide Fragments chemistry, Peptide Fragments metabolism, Poxviridae metabolism, Viral Proteins chemistry, Viral Proteins metabolism
Abstract

Vaccinia virus (VACV) is a poxvirus, and the VACV D4 protein serves both as a uracil-DNA glycosylase and as an essential component required for processive DNA synthesis. The VACV A20 protein has no known catalytic function itself but associates with D4 to form the D4-A20 heterodimer that functions as the poxvirus DNA processivity factor. The heterodimer enables the DNA polymerase to efficiently synthesize extended strands of DNA. Upon characterizing the interaction between D4 and A20, we observed that the C terminus of D4 is susceptible to perturbation. Further analysis demonstrated that a conserved hexapeptide stretch at the extreme C terminus of D4 is essential for maintaining protein integrity, as assessed by its requirement for the production of soluble recombinant protein that is functional in processive DNA synthesis. From the known crystal structures of D4, the C-terminal hexapeptide is shown to make intramolecular contact with residues spanning the inner core of the protein. Our mutational analysis revealed that a tripeptide motif ( 215 GFI 217 ) within the hexapeptide comprises apparent residues necessary for the contact. Prediction of protein disorder identified the hexapeptide and several regions upstream of Gly 215 that comprise residues of the interface surfaces of the D4-A20 heterodimer. Our study suggests that 215 GFI 217 anchors these potentially dynamic upstream regions of the protein to maintain protein integrity. Unlike uracil-DNA glycosylases from diverse sources, where the C termini are disordered and do not form comparable intramolecular contacts, this feature may be unique to orthopoxviruses., (© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published
2016
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43. Poxvirus uracil-DNA glycosylase-An unusual member of the family I uracil-DNA glycosylases.

Author

Schormann N, Zhukovskaya N, Bedwell G, Nuth M, Gillilan R, Prevelige PE, Ricciardi RP, Banerjee S, and Chattopadhyay D

Subjects
Amino Acid Motifs, DNA Replication physiology, DNA, Viral biosynthesis, DNA, Viral genetics, Poxviridae genetics, Uracil-DNA Glycosidase genetics, Viral Proteins genetics, Poxviridae enzymology, Uracil-DNA Glycosidase metabolism, Viral Proteins metabolism
Abstract

Uracil-DNA glycosylases are ubiquitous enzymes, which play a key role repairing damages in DNA and in maintaining genomic integrity by catalyzing the first step in the base excision repair pathway. Within the superfamily of uracil-DNA glycosylases family I enzymes or UNGs are specific for recognizing and removing uracil from DNA. These enzymes feature conserved structural folds, active site residues and use common motifs for DNA binding, uracil recognition and catalysis. Within this family the enzymes of poxviruses are unique and most remarkable in terms of amino acid sequences, characteristic motifs and more importantly for their novel non-enzymatic function in DNA replication. UNG of vaccinia virus, also known as D4, is the most extensively characterized UNG of the poxvirus family. D4 forms an unusual heterodimeric processivity factor by attaching to a poxvirus-specific protein A20, which also binds to the DNA polymerase E9 and recruits other proteins necessary for replication. D4 is thus integrated in the DNA polymerase complex, and its DNA-binding and DNA scanning abilities couple DNA processivity and DNA base excision repair at the replication fork. The adaptations necessary for taking on the new function are reflected in the amino acid sequence and the three-dimensional structure of D4. An overview of the current state of the knowledge on the structure-function relationship of D4 is provided here., (© 2016 The Protein Society.)

Published
2016
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44. The processivity factor complex of feline herpes virus-1 is a new drug target.

Author

Zhukovskaya NL, Guan H, Saw YL, Nuth M, and Ricciardi RP

Subjects
Amino Acid Sequence, Animals, Cats, Cell Line, Cloning, Molecular, DNA Replication drug effects, DNA-Directed DNA Polymerase genetics, Exodeoxyribonucleases genetics, Varicellovirus genetics, Viral Proteins genetics, Antiviral Agents pharmacology, DNA, Viral biosynthesis, DNA-Directed DNA Polymerase metabolism, Exodeoxyribonucleases metabolism, Sulfonamides pharmacology, Thiadiazoles pharmacology, Varicellovirus drug effects, Varicellovirus metabolism, Viral Proteins metabolism
Abstract

Feline herpes virus-1 (FHV-1) is ubiquitous in the cat population and is a major cause of blindness for which antiviral drugs, including acyclovir, are not completely effective. Recurrent infections, due to reactivation of latent FHV-1 residing in the trigeminal ganglia, can lead to epithelial keratitis and stromal keratitis and eventually loss of sight. This has prompted the medical need for an antiviral drug that will specifically inhibit FHV-1 infection. A new antiviral target is the DNA polymerase and its associated processivity factor, which forms a complex that is essential for extended DNA strand synthesis. In this study we have cloned and expressed the FHV-1 DNA polymerase (f-UL30) and processivity factor (f-UL42) and demonstrated that both proteins are required to completely synthesize the 7249 nucleotide full-length DNA from the M13 primed-DNA template in vitro. Significantly, a known inhibitor of human herpes simplex virus-1 (HSV-1) processivity complex was shown to inhibit FHV-1 processive DNA synthesis in vitro and block infection of cells. This validates using f-UL42/f-UL30 as a new antiviral drug target to treat feline ocular herpes infection., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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45. A novel target and approach for identifying antivirals against molluscum contagiosum virus.

Author

Guan H, Nuth M, Zhukovskaya N, Saw YL, Bell E, Isaacs SN, and Ricciardi RP

Subjects
Animals, Antiviral Agents chemistry, Antiviral Agents pharmacology, Biological Assay, Cell Line, Chlorocebus aethiops, Cloning, Molecular, DNA-Directed DNA Polymerase metabolism, Drug Discovery, Epithelial Cells drug effects, Epithelial Cells pathology, Epithelial Cells virology, Gene Expression, Humans, Kidney drug effects, Kidney pathology, Kidney virology, Molecular Targeted Therapy, Molluscum contagiosum virus drug effects, Molluscum contagiosum virus metabolism, Plasmids chemistry, Plasmids metabolism, Rabbits, Reassortant Viruses drug effects, Reassortant Viruses metabolism, Recombinant Proteins, Small Molecule Libraries chemistry, Small Molecule Libraries pharmacology, Vaccinia virus drug effects, Vaccinia virus genetics, Vaccinia virus metabolism, Viral Proteins antagonists & inhibitors, Viral Proteins metabolism, DNA, Viral, DNA-Directed DNA Polymerase genetics, Molluscum contagiosum virus genetics, Reassortant Viruses genetics, Viral Proteins genetics
Abstract

The dermatological disease molluscum contagiosum (MC) presents as lesions restricted solely to the skin. The poxvirus molluscum contagiosum virus (MCV) is responsible for this skin disease that is easily transmitted through casual contact among all populations, with greater frequency in children and immunosuppressed individuals. In addition, sexual transmission of MCV in adolescents and adults is a health concern. Although the skin lesions ultimately resolve in immunocompetent individuals, they can persist for extended periods, be painful, and result in scarring. Treatment is problematic, and there is no drug that specifically targets MCV. The inability of MCV to propagate in cell culture has impeded drug development. To overcome these barriers, we integrated three new developments. First, we identified a new MCV drug target (mD4) that is essential for processive DNA synthesis in vitro. Second, we discovered a small chemical compound that binds to mD4 and prevents DNA synthesis in vitro. Third, and most significant, we engineered a hybrid vaccinia virus (mD4-VV) in which the natural vaccinia D4 (vD4) gene is replaced by the mD4 target gene. This hybrid virus is dependent on mD4 for viral growth in culture and is inhibited by the small compound. This target system provides, for the first time, a platform and approach for the discovery and evaluation of new therapeutics that can be used to treat MC., (Copyright © 2014, American Society for Microbiology. All Rights Reserved.)

Published
2014
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46. Mitigating effects of L-selenomethionine on low-dose iron ion radiation-induced changes in gene expression associated with cellular stress.

Author

Nuth M and Kennedy AR

Abstract

Ionizing radiation associated with highly energetic and charged heavy (HZE) particles poses a danger to astronauts during space travel. The aim of the present study was to evaluate the patterns of gene expression associated with cellular exposure to low-dose iron ion irradiation, in the presence and absence of L-selenomethionine (SeM). Human thyroid epithelial cells (HTori-3) were exposed to low-dose iron ion (1 GeV/n) irradiation at 10 or 20 cGy with or without SeM pretreatment. The cells were harvested 6 and 16 h post-irradiation and analyzed by the Affymetrix U133Av2 gene chip arrays. Genes exhibiting a 1.5-fold expression cut-off and 5% false discovery rate (FDR) were considered statistically significant and subsequently analyzed using the Database for Annotation, Visualization and Integrated Discovery (DAVID) for pathway analysis. Representative genes were further validated by real-time RT-PCR. Even at low doses of radiation from iron ions, global genome profiling of the irradiated cells revealed the upregulation of genes associated with the activation of stress-related signaling pathways (ubiquitin-mediated proteolysis, p53 signaling, cell cycle and apoptosis), which occurred in a dose-dependent manner. A 24-h pretreatment with SeM was shown to reduce the radiation effects by mitigating stress-related signaling pathways and downregulating certain genes associated with cell adhesion. The mechanism by which SeM prevents radiation-induced transformation in vitro may involve the suppression of the expression of genes associated with stress-related signaling and certain cell adhesion events.

Published
2013
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47. Design of potent poxvirus inhibitors of the heterodimeric processivity factor required for viral replication.

Author

Nuth M, Guan H, Zhukovskaya N, Saw YL, and Ricciardi RP

Subjects
Antiviral Agents pharmacology, DNA, Viral biosynthesis, Drug Design, Humans, Indoles pharmacology, Inhibitory Concentration 50, Structure-Activity Relationship, Vaccinia prevention & control, Virus Replication drug effects, Antiviral Agents chemical synthesis, Indoles chemical synthesis, Vaccinia virus drug effects, Viral Proteins drug effects
Abstract

Smallpox constitutes a major bioterrorism threat, which underscores the need to develop antiviral drugs for rapid response in the event of an attack. Viral processivity factors are attractive drug targets in being both specific and essential for their cognate DNA polymerases to synthesize extended strands of DNA. An in silico model of the vacinnia virus processivity factor, comprised of the A20 and D4 heterocomplex, was constructed and used for lead optimization of an indole-based scaffold identified earlier from a high-throughput screening. On the basis of this model, a new class of potent antivirals against vaccinia virus was designed and synthesized, of which two (24a and 24b) exhibited superior improvement over the parent scaffold (IC50 = 42 and 46 vs 82000 nM, respectively). The ability of 24a to suppress vaccinia DNA synthesis is supported by the inhibition of late viral gene expression, as well as by the diminished incorporation of bromodeoxyuridine into viral replication factories.

Published
2013
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48. Crystallization and preliminary X-ray diffraction analysis of three recombinant mutants of Vaccinia virus uracil DNA glycosylase.

Author

Sartmatova D, Nash T, Schormann N, Nuth M, Ricciardi R, Banerjee S, and Chattopadhyay D

Subjects
Amino Acid Sequence, Amino Acids genetics, Crystallization, Crystallography, X-Ray, Escherichia coli chemistry, Escherichia coli genetics, Models, Molecular, Molecular Sequence Data, Mutagenesis, Site-Directed, Protein Structure, Secondary, Protein Structure, Tertiary, Recombinant Proteins chemistry, Recombinant Proteins genetics, Uracil-DNA Glycosidase genetics, Vaccinia virus enzymology, Vaccinia virus genetics, Viral Proteins genetics, Amino Acids chemistry, Uracil-DNA Glycosidase chemistry, Vaccinia virus chemistry, Viral Proteins chemistry
Abstract

Amino-acid residues located at a highly flexible area in the uracil DNA glycosylase of Vaccinia virus were mutated. In the crystal structure of wild-type D4 these residues lie at the dimer interface. Specifically, three mutants were generated: (i) residue Arg167 was replaced with an alanine (R167AD4), (ii) residues Glu171, Ser172 and Pro173 were substituted with three glycine residues (3GD4) and (iii) residues Glu171 and Ser172 were deleted (Δ171-172D4). Mutant proteins were expressed, purified and crystallized in order to investigate the effects of these mutations on the structure of the protein.

Published
2013
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49. Identification of protein-protein interaction inhibitors targeting vaccinia virus processivity factor for development of antiviral agents.

Author

Schormann N, Sommers CI, Prichard MN, Keith KA, Noah JW, Nuth M, Ricciardi RP, and Chattopadhyay D

Subjects
Cell Line, DNA Glycosylases metabolism, Humans, Protein Binding, Antiviral Agents pharmacology, Vaccinia virus drug effects, Viral Proteins metabolism
Abstract

Poxvirus uracil DNA glycosylase D4 in association with A20 and the catalytic subunit of DNA polymerase forms the processive polymerase complex. The binding of D4 and A20 is essential for processive polymerase activity. Using an AlphaScreen assay, we identified compounds that inhibit protein-protein interactions between D4 and A20. Effective interaction inhibitors exhibited both antiviral activity and binding to D4. These results suggest that novel antiviral agents that target the protein-protein interactions between D4 and A20 can be developed for the treatment of infections with poxviruses, including smallpox.

Published
2011
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50. Identification of inhibitors that block vaccinia virus infection by targeting the DNA synthesis processivity factor D4.

Author

Nuth M, Huang L, Saw YL, Schormann N, Chattopadhyay D, and Ricciardi RP

Subjects
Aminophenols pharmacology, Animals, Antiviral Agents pharmacology, Cell Line, Chlorocebus aethiops, Heterocyclic Compounds, 4 or More Rings pharmacology, Models, Molecular, Multiprotein Complexes antagonists & inhibitors, Multiprotein Complexes metabolism, Protein Binding, Smallpox metabolism, Structure-Activity Relationship, Vaccinia virus genetics, Vaccinia virus pathogenicity, Viral Plaque Assay, Viral Proteins metabolism, Aminophenols chemistry, Antiviral Agents chemistry, DNA, Viral biosynthesis, Heterocyclic Compounds, 4 or More Rings chemistry, Smallpox prevention & control, Vaccinia virus metabolism, Viral Proteins antagonists & inhibitors
Abstract

Smallpox was globally eradicated 30 years ago by vaccination. The recent threat of bioterrorism demands the development of improved vaccines and novel therapeutics to effectively preclude a reemergence of smallpox. One new therapeutic target is the vaccinia poxvirus processivity complex, comprising D4 and A20 proteins that enable the viral E9 DNA polymerase to synthesize extended strands. Five compounds identified from an AlphaScreen assay designed to disrupt A20:D4 binding were shown to be effective in: (i) blocking vaccinia processive DNA synthesis in vitro, (ii) preventing cellular infection with minimal cytotoxicity, and (iii) binding to D4, as evidenced by ThermoFluor. The EC(50) values for inhibition of viral infectivity ranged from 9.6 to 23 μM with corresponding selectivity indices (cytotoxicity CC(50)/viral infectivity EC(50)) of 3.9 to 17.8. The five compounds are thus potential therapeutics capable of halting smallpox DNA synthesis and infectivity through disruptive action against a component of the vaccinia processivity complex.

Published
2011
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