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3. Synthesis of two fluorescent GTPγS molecules and their biological relevance

Author

Trans, Denise J, Bai, Ruoli, Addison, J Bennet, Liu, Ruiwu, Hamel, Ernest, Coleman, Matthew A, and Henderson, Paul T

Subjects
Biochemistry and Cell Biology, Organic Chemistry, Chemical Sciences, Biological Sciences, Generic health relevance, Chemistry Techniques, Synthetic, Energy Transfer, Fluorescent Dyes, GTP-Binding Proteins, Guanosine 5'-O-(3-Thiotriphosphate), Protein Multimerization, Protein Structure, Quaternary, Tubulin, Nucleoside and nucleotide analogs, fluorescent nucleotide analogs, FRET, NMR and tubulin polymerization, Biochemistry and cell biology, Medicinal and biomolecular chemistry
Abstract

Fluorescent GTP analogues are utilized for an assortment of nucleic acid and protein characterization studies. Non-hydrolysable analogues such as GTPγS offer the advantage of keeping proteins in a GTP-bound conformation due to their resistance to hydrolysis into GDP. Two novel fluorescent GTPγS molecules were developed by linking fluorescein and tetramethylrhodamine to the γ-thiophosphate of GTPγS. Chemical and biological analysis of these two compounds revealed their successful synthesis and ability to bind to the nucleotide-binding site of tubulin. These two new fluorescent non-hydrolysable nucleotides offer new possibilities for biophysical and biochemical characterization of GTP-binding proteins.

Published
2017

6. Kinetic and Structural Characterization of Sialidases (Kdnases) from Ascomycete Fungal Pathogens

Author

Benjamin Noyovitz, Stephen A. McMahon, Nick P G Gauthier, Andrew J. Bennet, Tracey M. Gloster, Kobra Khazaei, Brock W. Byers, Jason R. Nesbitt, Verena Oehler, Nicholas J. Thornton, Jamie Baker, Ali Nejatie, Margo M. Moore, Wesley F. Zandberg, and Elizabeth Steves

Subjects
Glycan, Protein Conformation, Neuraminidase, Sialidase, Biochemistry, Catalysis, Substrate Specificity, Aspergillus fumigatus, 03 medical and health sciences, chemistry.chemical_compound, Ascomycota, Catalytic Domain, Enzyme Stability, Glycoside hydrolase, Aspergillus terreus, skin and connective tissue diseases, Fluorescent Dyes, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, biology, 030306 microbiology, Temperature, Glycoside, General Medicine, Hydrogen-Ion Concentration, bacterial infections and mycoses, biology.organism_classification, Culture Media, Sialic acid, Kinetics, Enzyme, chemistry, biology.protein, Molecular Medicine
Abstract

Sialidases catalyze the release of sialic acid from the terminus of glycan chains. We previously characterized the sialidase from the opportunistic fungal pathogen, Aspergillus fumigatus, and showed that it is a Kdnase. That is, this enzyme prefers 3-deoxy-d-glycero-d-galacto-non-2-ulosonates (Kdn glycosides) as the substrate compared to N-acetylneuraminides (Neu5Ac). Here, we report characterization and crystal structures of putative sialidases from two other ascomycete fungal pathogens, Aspergillus terreus (AtS) and Trichophyton rubrum (TrS). Unlike A. fumigatus Kdnase (AfS), hydrolysis with the Neu5Ac substrates was negligible for TrS and AtS; thus, TrS and AtS are selective Kdnases. The second-order rate constant for hydrolysis of aryl Kdn glycosides by AtS is similar to that by AfS but 30-fold higher by TrS. The structures of these glycoside hydrolase family 33 (GH33) enzymes in complex with a range of ligands for both AtS and TrS show subtle changes in ring conformation that mimic the Michaelis complex, transition state, and covalent intermediate formed during catalysis. In addition, they can aid identification of important residues for distinguishing between Kdn and Neu5Ac substrates. When A. fumigatus, A. terreus, and T. rubrum were grown in chemically defined media, Kdn was detected in mycelial extracts, but Neu5Ac was only observed in A. terreus or T. rubrum extracts. The C8 monosaccharide 3-deoxy-d-manno-oct-2-ulosonic acid (Kdo) was also identified in A. fumigatus and T. rubrum samples. A fluorescent Kdn probe was synthesized and revealed the localization of AfS in vesicles at the cell surface.

Published
2021
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7. Fundamental Insight into Glycoside Hydrolase-Catalyzed Hydrolysis of the Universal Koshland Substrates–Glycopyranosyl Fluorides

Author

Marco Farren-Dai, Andrew J. Bennet, Vicent Moliner, Katarzyna Świderek, and Natalia Sannikova

Subjects
0303 health sciences, 03 medical and health sciences, Hydrolysis, Stereochemistry, Chemistry, Glycoside hydrolase, General Chemistry, 010402 general chemistry, 01 natural sciences, Catalysis, 030304 developmental biology, 0104 chemical sciences
Published
2021
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8. Intrinsic Nucleophilicity of Inverting and Retaining Glycoside Hydrolases Revealed Using Carbasugar Glyco-Tools

Author

Pal John Pal Adabala, Yang Wang, Oluwafemi S. Akintola, Sandeep Bhosale, Robert Britton, Weiwu Ren, Yumeela Ganga-Sah, and Andrew J. Bennet

Subjects
0303 health sciences, 03 medical and health sciences, Nucleophile, Chemistry, Stereochemistry, Glycoside hydrolase, General Chemistry, 010402 general chemistry, 01 natural sciences, Catalysis, 030304 developmental biology, 0104 chemical sciences
Published
2021
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9. 744 Indications for Emergency Department Resuscitative Thoracotomy in Blunt and Penetrating Trauma: A Survey of UK Major Trauma Centre Guidelines

Author

M Oliver, J Bennet, N Nassr, B Marson, R Freij, and A Brooks

Subjects
Surgery
Abstract

Aim Traumatic Cardiac Arrest (TCA) is a potentially fatal consequence of penetrating or blunt trauma. Emergency-Department Resuscitative Thoracotomy (ED-RT) is the last resort procedure to restore cardiac output following TCA. This study reviews current UK guidelines of Major Trauma Centres (MTCs) to identify common indications for ED-RT and chest compressions following TCA. Method Departmental policies were requested from all UK MTCs. Data was extracted by three reviewers. A planned subgroup analysis was performed for blunt/penetrating trauma. Results 20 guidelines were identified covering 22 MTCs. All guidelines included recommendations regarding indications for ED-RT. Time thresholds from loss of output to undertaking RT in blunt trauma were given in 12 (60%) guidelines. Ranging from 5 (25%), 10 (50%) and 15 minutes (10%). Prehospital loss of output was a contraindication for blunt trauma ED-RT in 6 guidelines. ED-RT in penetrating trauma was indicated within 10 (50%) or 15 minutes (45%) from loss of output. Fewer than 50% of guidelines identified specific contra-indications including massive head injury and asystole. 3 guidelines stated chest compressions were not indicated in TCA. 8 stated that chest compressions may not be contra-indicated and 1 advised chest compressions to be restricted to blunt trauma. Conclusion In a survey of UK guidelines, we have found inconsistency in the indications for ED-RT, particularly associated with blunt trauma. A maximum time from loss of output to ED-RT for penetrating trauma of 15 minutes is compatible with most guidelines. This is less consistent with findings for blunt trauma. There is little consensus regarding use of chest compressions.

Published
2022
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11. A heme•DNAzyme activated by hydrogen peroxide catalytically oxidizes thioethers by direct oxygen atom transfer rather than by a Compound I-like intermediate

Author

Jeffrey J. Warren, Nisreen Shumayrikh, Dipankar Sen, and Andrew J. Bennet

Subjects
AcademicSubjects/SCI00010, Deoxyribozyme, Thiophenes, Biology, Sulfides, 010402 general chemistry, 01 natural sciences, Catalysis, 03 medical and health sciences, chemistry.chemical_compound, Thioether, Chemical Biology and Nucleic Acid Chemistry, Genetics, Heme, 030304 developmental biology, 0303 health sciences, Electron Spin Resonance Spectroscopy, Substrate (chemistry), DNA, Catalytic, Hydrogen Peroxide, Combinatorial chemistry, 0104 chemical sciences, G-Quadruplexes, Oxygen, Kinetics, chemistry, Catalytic cycle, Biocatalysis, Hemin
Abstract

Hemin [Fe(III)-protoporphyrin IX] is known to bind tightly to single-stranded DNA and RNA molecules that fold into G-quadruplexes (GQ). Such complexes are strongly activated for oxidative catalysis. These heme•DNAzymes and ribozymes have found broad utility in bioanalytical and medicinal chemistry and have also been shown to occur within living cells. However, how a GQ is able to activate hemin is poorly understood. Herein, we report fast kinetic measurements (using stopped-flow UV–vis spectrophotometry) to identify the H2O2-generated activated heme species within a heme•DNAzyme that is active for the oxidation of a thioether substrate, dibenzothiophene (DBT). Singular value decomposition and global fitting analysis was used to analyze the kinetic data, with the results being consistent with the heme•DNAzyme's DBT oxidation being catalyzed by the initial Fe(III)heme–H2O2 complex. Such a complex has been predicted computationally to be a powerful oxidant for thioether substrates. In the heme•DNAzyme, the DNA GQ enhances both the kinetics of formation of the active intermediate as well as the oxidation step of DBT by the active intermediate. We show, using both stopped flow spectrophotometry and EPR measurements, that a classic Compound I is not observable during the catalytic cycle for thioether sulfoxidation.

Published
2021

14. Airway-On-A-Chip: Designs and Applications for Lung Repair and Disease

Author

Avineet Randhawa, Jessica Hua, Karen C. Cheung, and Tanya J. Bennet

Subjects
0301 basic medicine, Lung Diseases, QH301-705.5, extracellular matrix, microfluidics, 02 engineering and technology, Disease, Review, Respiratory Mucosa, Bioinformatics, exposures, Models, Biological, Extracellular matrix, Tissue Culture Techniques, 03 medical and health sciences, Lab-On-A-Chip Devices, fibroblasts, medicine, Cigarette smoke, Humans, Regeneration, Biology (General), Lung, Cells, Cultured, Asthma, remodeling, business.industry, SARS-CoV-2, Regeneration (biology), cigarette smoke, COVID-19, General Medicine, analysis methods, respiratory system, 021001 nanoscience & nanotechnology, medicine.disease, airway-on-a-chip, epithelial cells, endothelial cells, respiratory tract diseases, 030104 developmental biology, medicine.anatomical_structure, bio-imaging, Drug development, electronic cigarettes, 0210 nano-technology, Airway, business
Abstract

The lungs are affected by illnesses including asthma, chronic obstructive pulmonary disease, and infections such as influenza and SARS-CoV-2. Physiologically relevant models for respiratory conditions will be essential for new drug development. The composition and structure of the lung extracellular matrix (ECM) plays a major role in the function of the lung tissue and cells. Lung-on-chip models have been developed to address some of the limitations of current two-dimensional in vitro models. In this review, we describe various ECM substitutes utilized for modeling the respiratory system. We explore the application of lung-on-chip models to the study of cigarette smoke and electronic cigarette vapor. We discuss the challenges and opportunities related to model characterization with an emphasis on in situ characterization methods, both established and emerging. We discuss how further advancements in the field, through the incorporation of interstitial cells and ECM, have the potential to provide an effective tool for interrogating lung biology and disease, especially the mechanisms that involve the interstitial elements.

Published
2021

15. Synthesis of Sterically Congested 2,2′-Bi(Adamantyl)-Based Alcohol and Amines

Author

Daniel B. Leznoff, Andrew J. Bennet, and Yumeela Ganga-Sah

Subjects
chemistry.chemical_classification, Steric effects, Ketone, 010405 organic chemistry, Organic Chemistry, Alcohol, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, Reductive amination, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Intramolecular force, Amine gas treating, Enantiomeric excess, Racemization
Abstract

Sterically congested chiral alcohol and amines have gained tremendous attention in the design of asymmetric catalysts. Herein, the synthesis of a sterically congested bis-adamantane framework-based chiral alcohol, (1R,2S,3S,4R)-4-(2-adamantyl)adamantan-2-ol, and amine, (1R,2S,3S,4R)-4-(2-adamantyl)adamantan-2-amine, is described. Access to these sterically encumbered compounds is found via the preparation of an enantioenriched 4-adamantyladamantan-2-one intermediate, which was synthesized in 6 steps from adamantan-2-one. The key step involved enzyme-catalyzed ester hydrolysis in giving unsaturated alcohol with an enantiomeric excess of >95%. This adamantylidene adamantanol was subjected to an acid-catalyzed intramolecular [1,4] shift to give the key chiral intermediate without racemization. This ketone intermediate was transformed into the target compounds via reduction and reductive amination protocols.

Published
2019
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16. Review of Design Considerations for Brain-on-a-Chip Models

Author

Tanya J. Bennet, Cheryl L. Wellington, Mehwish Anwer, Elyn M. Rowe, Tiffany Cameron, and Karen C. Cheung

Subjects
Computer science, lcsh:Mechanical engineering and machinery, extracellular matrix, microfluidics, neurons, Brain research, Review, pericytes, 03 medical and health sciences, brain-on-a-chip, 0302 clinical medicine, lcsh:TJ1-1570, Integrative biology, Electrical and Electronic Engineering, 030304 developmental biology, 0303 health sciences, Mechanical Engineering, Chip architecture, astrocytes, Chip, basement membrane, endothelial cells, Control and Systems Engineering, Systems engineering, Research questions, Design cycle, 030217 neurology & neurosurgery
Abstract

In recent years, the need for sophisticated human in vitro models for integrative biology has motivated the development of organ-on-a-chip platforms. Organ-on-a-chip devices are engineered to mimic the mechanical, biochemical and physiological properties of human organs; however, there are many important considerations when selecting or designing an appropriate device for investigating a specific scientific question. Building microfluidic Brain-on-a-Chip (BoC) models from the ground-up will allow for research questions to be answered more thoroughly in the brain research field, but the design of these devices requires several choices to be made throughout the design development phase. These considerations include the cell types, extracellular matrix (ECM) material(s), and perfusion/flow considerations. Choices made early in the design cycle will dictate the limitations of the device and influence the end-point results such as the permeability of the endothelial cell monolayer, and the expression of cell type-specific markers. To better understand why the engineering aspects of a microfluidic BoC need to be influenced by the desired biological environment, recent progress in microfluidic BoC technology is compared. This review focuses on perfusable blood–brain barrier (BBB) and neurovascular unit (NVU) models with discussions about the chip architecture, the ECM used, and how they relate to the in vivo human brain. With increased knowledge on how to make informed choices when selecting or designing BoC models, the scientific community will benefit from shorter development phases and platforms curated for their application.

Published
2021

19. Search for charged-lepton flavor violation in Υ(2S) → ℓ ∓ τ ± (ℓ = e, μ) decays at Belle

Author

The Belle collaboration, R. Dhamija, S. Nishida, A. Giri, I. Adachi, H. Aihara, D. M. Asner, T. Aushev, R. Ayad, V. Babu, S. Bahinipati, Sw. Banerjee, M. Bauer, P. Behera, K. Belous, J. Bennett, M. Bessner, V. Bhardwaj, D. Biswas, D. Bodrov, J. Borah, A. Bozek, M. Bračko, P. Branchini, T. E. Browder, A. Budano, M. Campajola, D. Červenkov, M.-C. Chang, P. Chang, V. Chekelian, B. G. Cheon, K. Chilikin, H. E. Cho, K. Cho, S.-K. Choi, Y. Choi, S. Choudhury, D. Cinabro, S. Das, G. De Nardo, G. De Pietro, F. Di Capua, J. Dingfelder, Z. Doležal, T. V. Dong, P. Ecker, D. Epifanov, T. Ferber, D. Ferlewicz, B. G. Fulsom, R. Garg, V. Gaur, P. Goldenzweig, E. Graziani, T. Gu, Y. Guan, K. Gudkova, C. Hadjivasiliou, K. Hayasaka, H. Hayashii, S. Hazra, M. T. Hedges, D. Herrmann, W.-S. Hou, C.-L. Hsu, T. Iijima, K. Inami, N. Ipsita, A. Ishikawa, R. Itoh, M. Iwasaki, W. W. Jacobs, E.-J. Jang, S. Jia, Y. Jin, K. K. Joo, A. B. Kaliyar, C. Kiesling, C. H. Kim, D. Y. Kim, K.-H. Kim, Y.-K. Kim, K. Kinoshita, P. Kodyš, T. Konno, A. Korobov, S. Korpar, P. Križan, P. Krokovny, M. Kumar, R. Kumar, K. Kumara, A. Kuzmin, Y.-J. Kwon, Y.-T. Lai, S. C. Lee, D. Levit, P. Lewis, L. K. Li, L. Li Gioi, J. Libby, K. Lieret, Y.-R. Lin, D. Liventsev, Y. Ma, M. Masuda, T. Matsuda, S. K. Maurya, F. Meier, M. Merola, F. Metzner, K. Miyabayashi, R. Mizuk, G. B. Mohanty, I. Nakamura, M. Nakao, A. Natochii, L. Nayak, M. Niiyama, N. K. Nisar, S. Ogawa, P. Pakhlov, G. Pakhlova, S. Pardi, H. Park, J. Park, A. Passeri, S. Patra, S. Paul, T. K. Pedlar, R. Pestotnik, L. E. Piilonen, T. Podobnik, E. Prencipe, M. T. Prim, N. Rout, G. Russo, S. Sandilya, L. Santelj, V. Savinov, G. Schnell, C. Schwanda, Y. Seino, K. Senyo, M. E. Sevior, W. Shan, C. Sharma, J.-G. Shiu, B. Shwartz, A. Sokolov, E. Solovieva, M. Starič, Z. S. Stottler, M. Sumihama, M. Takizawa, K. Tanida, F. Tenchini, K. Trabelsi, M. Uchida, T. Uglov, Y. Unno, S. Uno, P. Urquijo, S. E. Vahsen, K. E. Varvell, A. Vinokurova, D. Wang, E. Wang, M.-Z. Wang, S. Watanuki, E. Won, X. Xu, B. D. Yabsley, W. Yan, S. B. Yang, J. H. Yin, C. Z. Yuan, L. Yuan, Z. P. Zhang, V. Zhilich, and V. Zhukova

Subjects
Beyond Standard Model, e +-e − Experiments, Flavour Physics, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Abstract We report a search for the charged-lepton flavor violation in Υ(2S) → ℓ ∓ τ ± (ℓ = e, μ) decays using a 25 fb −1 Υ(2S) sample collected by the Belle detector at the KEKB e + e − asymmetric-energy collider. We find no evidence for a signal and set upper limits on the branching fractions ( B $$ \mathcal{B} $$ ) at 90% confidence level. We obtain the most stringent upper limits: B $$ \mathcal{B} $$ (Υ(2S) → μ ∓ τ ± ) < 0.23 × 10 −6 and B $$ \mathcal{B} $$ (Υ(2S) → e ∓ τ ± ) < 1.12 × 10 −6.

Published
2024
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20. Structurally homologous sialidases exhibit a commonality in reactivity: Glycoside hydrolase-catalyzed hydrolysis of Kdn-thioglycosides

Author

Oluwafemi S. Akintola, Elizabeth Steves, Andrew J. Bennet, Margo M. Moore, Ali Nejatie, and Saeideh Shamsi Kazem Abadi

Subjects
Glycoside Hydrolases, Stereochemistry, Sialidase, 01 natural sciences, Biochemistry, Aspergillus fumigatus, Hydrolysis, Structure-Activity Relationship, Drug Discovery, Glycoside hydrolase, Enzyme kinetics, Molecular Biology, Bond cleavage, chemistry.chemical_classification, biology, Dose-Response Relationship, Drug, Molecular Structure, 010405 organic chemistry, Organic Chemistry, Glycoside, biology.organism_classification, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Enzyme, chemistry, Thioglycosides, Biocatalysis
Abstract

Aspergillus fumigatus is one of the main causative agents of invasive aspergillosis, an often-lethal fungal disease that affects immunocompromised individuals. A. fumigatus produces a sialidase that cleaves the nine-carbon carbohydrate Kdn from glycoconjugates. This enzyme plays a critical role in A. fumigatus pathogenicity, and is thus a target for the development of new therapeutics. In order to understand the reactivity of this Kdnase, and to develop a sensitive and selective assay for its catalytic activity we determined whether, like its close structural homolog the excreted sialidase produced by Micromonospora viridifaciens, this enzyme can efficiently hydrolyze thioglycoside substrates. We synthesized a panel of seven aryl 2-thio-d-glycero-α-d-galacto-non-2-ulopyranosonides and measured the activity of the A. fumigatus Kdnase towards these substrates. Four of these substrates were hydrolyzed by the A. fumigatus enzyme, although M. viridifaciens sialidase-catalyzed the hydrolysis of these Kdn thioglycosides with higher catalytic efficiencies (kcat/Km). We also tested an enzyme that was evolved from MvNA to improve its activity against Kdn glycosides (Glycobiology 2020, 30, 325). All three enzymes catalyzed the hydrolysis of the four most reactive Kdn thioglycosides and their second-order rate constants (kcat/Km) display a concave downwards Bronsted plot. The kinetic data, for each enzyme, is consistent with a change in rate-limiting step from CS bond cleavage for thioglycosides in which the pKa of the corresponding aryl thiol is >3.6, to a non-chemical step, which is likely a conformational change, that occurs prior to CS bond cleavage for the 2,3,4,5,6-pentafluorothiophenyl glycoside.

Published
2020

21. Conformationally Controlled Reactivity of Carbasugars Uncovers the Choreography of Glycoside Hydrolase Catalysis

Author

Andrew J. Bennet, Pal John Pal Adabala, Oluwafemi S. Akintola, Sandeep Bhosale, and Saeideh Shamsi Kazem Abadi

Subjects
chemistry.chemical_classification, Glycoside Hydrolases, 010405 organic chemistry, Chemistry, Stereochemistry, Glycoconjugate, Hydrolysis, Organic Chemistry, Carbasugars, alpha-Glucosidases, 010402 general chemistry, 01 natural sciences, Catalysis, 0104 chemical sciences, Choreography, Kinetics, Enzyme, Catalytic cycle, Glycoside hydrolase, Reactivity (chemistry)
Abstract

Glycoside hydrolases (GHs) catalyze hydrolyses of glycoconjugates in which the enzyme choreographs a series of conformational changes during the catalytic cycle. As a result, some GH families, including α-amylases (GH13), have their chemical steps concealed kinetically. To address this issue for a GH13 enzyme, we prepared seven cyclohexenyl-based carbasugars of α-d-glucopyranoside that we show are good covalent inhibitors of a GH13 yeast α-glucosidase. The linear free energy relationships between rate constants and p

Published
2020

22. Airway-on-a-Chip: Development and in Vitro Validation of a Microfluidic Cell Culture Model for Chronic Obstructive Pulmonary Disease

Author

Stephanie Pan, Cheng Wei Tony Yang, Don D. Sin, Tillie L. Hackett, Brenda Shen, Karen C. Cheung, Tanya J. Bennet, and Jeremy Siwik

Subjects
Extracellular matrix, Matrigel, Membrane, Materials science, medicine.anatomical_structure, Microfluidics, technology, industry, and agriculture, medicine, Fibroblast, Cell culture model, Organ-on-a-chip, In vitro, Biomedical engineering
Abstract

We report a microfluidic cell culture model that incorporates a novel 3-dimensional extracellular matrix composed of a biodegradable membrane and lumen-patterned, cell-embedded hydrogel. Additionally, we developed a novel approach to produce a hydrogel mixture containing gelatin methacrylate (GelMA) and ultrasonicated Matrigel microparticles. The novel fabrication approach creates a hybrid hydrogel where the Matrigel is well distributed within the GelMA, it promotes fibroblast cell elongation, and it does not affect the photopolymerization of GelMA.

Published
2020
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23. Glycoside hydrolase stabilization of transition state charge: new directions for inhibitor design

Author

Natalia Sannikova, Robert Britton, Andrew J. Bennet, Oluwafemi S. Akintola, Vicent Moliner, Katarzyna Świderek, Marco Farren-Dai, Yang Wang, and Weiwu Ren

Subjects
biology, 010405 organic chemistry, Stereochemistry, Chemistry, carbasugars, Chemical biology, carbohydrates, Carbasugars, General Chemistry, 010402 general chemistry, biology.organism_classification, 01 natural sciences, 0104 chemical sciences, Catalysis, Covalent bond, Thermotoga maritima, Kinetic isotope effect, SN2 reaction, glycoside hydrolases, Glycoside hydrolase
Abstract

Carbasugars are structural mimics of naturally occurring carbohydrates that can interact with and inhibit enzymes involved in carbohydrate processing. In particular, carbasugars have attracted attention as inhibitors of glycoside hydrolases (GHs) and as therapeutic leads in several disease areas. However, it is unclear how the carbasugars are recognized and processed by GHs. Here, we report the synthesis of three carbasugar isotopologues and provide a detailed transition state (TS) analysis for the formation of the initial GH-carbasugar covalent intermediate, as well as for hydrolysis of this intermediate, using a combination of experimentally measured kinetic isotope effects and hybrid QM/MM calculations. We find that the α-galactosidase from Thermotoga maritima effectively stabilizes TS charge development on a remote C5-allylic center acting in concert with the reacting carbasugar, and catalysis proceeds via an exploded, or loose, SN2 transition state with no discrete enzyme-bound cationic intermediate. We conclude that, in complement to what we know about the TS structures of enzyme-natural substrate complexes, knowledge of the TS structures of enzymes reacting with non-natural carbasugar substrates shows that GHs can stabilize a wider range of positively charged TS structures than previously thought. Furthermore, this enhanced understanding will enable the design of new carbasugar GH transition state analogues to be used as, for example, chemical biology tools and pharmaceutical lead compounds., Positive charge stabilized on remote C5-allylic center with catalysis occurring via a loose SN2 transition state.

Published
2020

24. Versatile synthetic route to carbocyclic N-Acetylneuraminic acid and its derivatives

Author

Sankar Mohan, Andrew J. Bennet, John R. Thompson, and B. Mario Pinto

Subjects
chemistry.chemical_classification, 010405 organic chemistry, Chemistry, Stereochemistry, Glycoconjugate, Organic Chemistry, Glycosidic bond, Quinic acid, Carbohydrate, 010402 general chemistry, 01 natural sciences, Biochemistry, 0104 chemical sciences, Sialic acid, Residue (chemistry), chemistry.chemical_compound, Drug Discovery, Methylene, N-Acetylneuraminic acid
Abstract

Sialic acid (N-acetylneuraminic acid) is a carbohydrate that possess a nine carbon backbone, and it is often found at the termini of glycoconjugates in biological systems. Because of this prominence many syntheses have reported routes to sialic acid and many of its derivatives. Most of these compounds retain the endocyclic oxygen atom that becomes part of the ketal glycosidic linkage that joins sialic acid to the penultimate residue in the glycoconjugate. With respect to carba-sialic acid (replacement of the ring oxygen atom with a methylene group) a single synthesis has been reported (Ogawa et al. (Carbohydr. Res., 1995, 269, 53–78) in 30 steps and 0.5% yield. The current report details a robust synthesis of 6a-carba-α- d -sialic acid that involves 18 steps and give a 5% yield using d -quinic acid as the starting material.

Published
2018
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25. Both Chemical and Non-Chemical Steps Limit the Catalytic Efficiency of Family 4 Glycoside Hydrolases

Author

Fahimeh S. Shidmoossavee, Saeideh Shamsi Kazem Abadi, Chloe A. N. Gerak, Natalia Sannikova, Andrew J. Bennet, Dustin T. King, and Andrew R. Lewis

Subjects
0301 basic medicine, Glycoside Hydrolases, Stereochemistry, Molecular Conformation, Biochemistry, Cofactor, 03 medical and health sciences, Hydrolysis, Kinetic isotope effect, Glycoside hydrolase, biology, Chemistry, Leaving group, Galactose, NAD, biology.organism_classification, Citrobacter freundii, Kinetics, 030104 developmental biology, Deuterium, 13. Climate action, Biocatalysis, biology.protein, NAD+ kinase
Abstract

The glycoside hydrolase family 4 (GH4) α-galactosidase from Citrobacter freundii (MelA) catalyzes the hydrolysis of fluoro-substituted phenyl α-d-galactopyranosides by utilizing two cofactors, NAD+ and a metal cation, under reducing conditions. In order to refine the mechanistic understanding of this GH4 enzyme, leaving group effects were measured with various metal cations. The derived βlg value on V/K for strontium activation is indistinguishable from zero (0.05 ± 0.12). Deuterium kinetic isotope effects (KIEs) were measured for the activated substrates 2-fluorophenyl and 4-fluorophenyl α-d-galactopyranosides in the presence of Sr2+, Y3+, and Mn2+, where the isotopic substitution was on the carbohydrate at C-2 and/or C-3. To determine the contributing factors to the virtual transition state (TS) on which the KIEs report, kinetic isotope effects on isotope effects were measured on these KIEs using doubly deuterated substrates. The measured DV/K KIEs for MelA-catalyzed hydrolysis of 2-fluorophenyl α-d-gal...

Published
2018
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26. Rearrangement and nucleophilic trapping of bicyclo[4.1.0]hept-2-yl derived nonclassical bicyclobutenium ions

Author

Yumeela Ganga-Sah, Andrew R. Lewis, Andrew J. Bennet, James Saunders, and Christopher Adamson

Subjects
0301 basic medicine, Heptane, Bicyclic molecule, Organic Chemistry, Cationic polymerization, General Chemistry, Reaction intermediate, Carbocation, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, Catalysis, 0104 chemical sciences, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Nucleophile, Cycloheptene, Solvolysis
Abstract

Here we describe the synthesis of two specifically labelled 13C isotopologues of cis-2-(4-nitrophenoxy)bicyclo[4.1.0]heptane and their solvolysis reactions in trifluoroethanol. By using one- and two-dimensional 1H- and 13C-NMR spectroscopy, we characterized the pathways for the rearrangement of these isotopologues to give 13C-labelled 4-(2,2,2-trifluoroethoxy)cycloheptene. We show that the initially formed cationic intermediate undergoes a degenerate rearrangement, which does not reach equilibrium before nucleophilic capture of the cation. Moreover, we show that the nonclassical carbocation, cyclohept-3-ene(3,1,4-deloc)ylium, gives an approximate 6:1 ratio of the cis- to trans-diastereomeric 2-(2,2,2-trifluoroethoxy)bicyclo[4.1.0]heptane as reaction intermediates that subsequently solvolyze to the 4-(2,2,2-trifluoroethoxy)cycloheptene product.

Published
2018
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27. SFU Chemistry 1965–2016

Author

Neil R. Branda, Andrew J. Bennet, B. Mario Pinto, George R. Agnes, Paul W. Percival, Steven Holdcroft, Daniel B. Leznoff, Zuo-Guang Ye, and C. H. W. Jones

Subjects
Chemistry, media_common.quotation_subject, Organic Chemistry, Institution, Library science, Legislation, Mainland, General Chemistry, Chemistry (relationship), Catalysis, media_common
Abstract

In the late 1950s and early 1960s, the number of universities across all countries of the developed world saw a dramatic expansion. This was in response to the anticipated role that post-secondary education was to play in the rapidly developing knowledge-based economy. Within Canada, several new universities were established: Victoria, Calgary, Regina, Guelph, Waterloo, Trent, York, and in 1963, the Province of British Columbia passed legislation creating Simon Fraser University (SFU). In contrast with many of the other new universities across the country, which grew out of existing colleges associated with the major universities, SFU was to be a completely new institution with a campus and faculty built from scratch. SFU’s role was to provide for the rapid increase anticipated in university-bound students in the Lower Mainland, relieving some of the pressure on the University of British Columbia’s (UBC) growth.

Published
2018
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30. Observation of a Tricyclic[4.1.0.02,4]heptane During a Michael Addition-Ring Closure Reaction and a Computational Study on Its Mechanism of Formation

Author

Andrew J. Bennet, Marco Farren-Dai, Anna Bernardi, John R. Thompson, and Cinzia Colombo

Subjects
chemistry.chemical_classification, Cyclopentenone, Heptane, Bicyclic molecule, 010405 organic chemistry, Cyclopropanation, Stereochemistry, Organic Chemistry, Ether, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Ylide, Michael reaction, Moiety
Abstract

We describe the formation of a bis-cyclopropane product, a tricyclic[4.1.0.02,4]heptane, that is formed during a Johnson–Corey–Chaykovsky reaction on a cyclopentenone. Two (of four possible) bicyclic products are selectively formed by addition of a COOEt-stabilized sulfur ylide onto the Michael acceptor. The tricyclic product is formed subsequently via a retro Michael elimination of a hindered ether followed by addition of a further cyclopropyl moiety, affecting only one of the two bicyclic products initially formed. The experimental reaction outcome was rationalized using density functional theory (DFT), investigating the different Michael-addition approaches of the sulfur ylide, the transition state (TS) energies for the formation of possible zwitterionic intermediates and subsequent reactions that give rise to cyclopropanation. Selective formation of only two of the four possible products occurs due to the epimerization of unreactive intermediates from the other two pathways, as revealed by energy barr...

Published
2017
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31. The rhizoferrin biosynthetic gene in the fungal pathogen Rhizopus delemar is a novel member of the NIS gene family

Author

James H. Naismith, Clark L. Grieve, Indu Murugathasan, Cassandra S. Carroll, Margo M. Moore, Andrew J. Bennet, Clarissa M. Czekster, Huanting Liu, University of St Andrews. School of Chemistry, University of St Andrews. Biomedical Sciences Research Complex, and University of St Andrews. EaSTCHEM

Subjects
0301 basic medicine, Mucorales, Siderophore, QH301 Biology, Iron, 030106 microbiology, NDAS, Siderophores, Virulence, Ferric Compounds, Biochemistry, Microbiology, Fungal Proteins, QH301, 03 medical and health sciences, chemistry.chemical_compound, Biosynthesis, Siderophore biosynthesis, NRPS-independent siderophore (NIS), Gene Expression Regulation, Fungal, Mucormycosis, Gene family, QD, Rhizopus delemar, Gene, chemistry.chemical_classification, biology, Computational Biology, Cell Biology, QD Chemistry, biology.organism_classification, Kinetics, 030104 developmental biology, Enzyme, chemistry, Mutagenesis, Site-Directed, Rhizopus, Bacteria
Abstract

This work was supported by the Natural Sciences and Engineering Research Council of Canada award to MM (grant number 611181). C. Carroll thanks Simon Fraser University for a travel and research award. Iron is essential for growth and in low iron environments such as serum many bacteria and fungi secrete ferric iron-chelating molecules called siderophores. All fungi produce hydroxamate siderophores with the exception of Mucorales fungi, which secrete rhizoferrin, a polycarboxylate siderophore. Here we investigated the biosynthesis of rhizoferrin by the opportunistic human pathogen, Rhizopus delemar. We searched the genome of R. delemar 99–880 for a homologue of the bacterial NRPS-independent siderophore (NIS) protein, SfnaD that is involved in biosynthesis of staphyloferrin A in Staphylococcus aureus. A protein was identified in R. delemar with 22% identity and 37% similarity with SfnaD, containing an N-terminal IucA/IucC family domain, and a C-terminal conserved ferric iron reductase FhuF-like transporter domain. Expression of the putative fungal rhizoferrin synthetase (rfs) gene was repressed by iron. The rfs gene was cloned and expressed in E.coli and siderophore biosynthesis from citrate and diaminobutane was confirmed using high resolution LC–MS. Substrate specificity was investigated showing that Rfs produced AMP when oxaloacetic acid, tricarballylic acid, ornithine, hydroxylamine, diaminopentane and diaminopropane were employed as substrates. Based on the production of AMP and the presence of a mono-substituted rhizoferrin, we suggest that Rfs is a member of the superfamily of adenylating enzymes. We used site-directed mutagenesis to mutate selected conserved residues predicted to be in the Rfs active site. These studies revealed that H484 is essential for Rfs activity and L544 may play a role in amine recognition by the enzyme. This study on Rfs is the first characterization of a fungal NIS enzyme. Future work will determine if rhizoferrin biosynthesis is required for virulence in Mucorales fungi. Postprint

Published
2017
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32. A systematic review of short versus long intramedullary fixation in the management of pertrochanteric fractures

Author

J Bennet and MA Sohatee

Subjects
030222 orthopedics, medicine.medical_specialty, business.industry, Incidence (epidemiology), Avascular necrosis, Critical Care and Intensive Care Medicine, medicine.disease, law.invention, Surgery, Intramedullary rod, 03 medical and health sciences, 0302 clinical medicine, Short nail, Blood loss, law, Transfusion requirement, Emergency Medicine, medicine, Femur, 030212 general & internal medicine, business, Fixation (histology)
Abstract

Introduction The aim was to determine whether there is a significant difference in clinical outcomes when using short vs. long nails for pertrochanteric femur fractures. Methods A systematic literature search was undertaken of Pubmed and Embase in April 2016. All papers published in English reporting studies comparing long vs. short nails for pertrochanteric femur fractures were studied. Data were pooled for blood loss and transfusion requirement, operative time, length of stay, incidence of delayed or non-union, incidence of avascular necrosis or infection, fracture or metalware failure and was analysed to examine the differences between long and short nails. Results From 90 potential studies, nine were considered to be eligible for inclusion. The short nail resulted in a statistically significant benefit when looking at transfusion requirement (p = 0.02); however, blood loss was not statistically different (p = 0.33) Operative time was also quicker with the short nail (p = 0.004), but the length of stay was no different (p = 0.41). When examining complications and fixation outcomes, there was no difference in delayed union rates (p = 0.29) and non-union rates (p = 0.19) nor when looking at metalware failure (p = 0.41) and fracture (p = 0.14). Discussion The use of short intramedullary nails for pertrochanteric femur fractures appeared to be beneficial when looking at transfusion requirements and operative time. When looking at complications such as fracture and metalware failure, despite there being a slightly higher incidence of these in the short nail group, it is not statistically significant. This study advocates that both devices are safe to use, however, the short nail may have some perceived benefits in reducing transfusion requirements and have cost benefits with a shorter operative time.

Published
2017
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33. Directed evolution of a remarkably efficient Kdnase from a bacterial neuraminidase

Author

Matthew C. Deen, Fahimeh S. Shidmoossavee, Saeideh Shamsi Kazem Abadi, Andrew J. Bennet, and Jacqueline N. Watson

Subjects
Glycan, Neuraminidase, 010402 general chemistry, 01 natural sciences, Biochemistry, Micromonospora, 03 medical and health sciences, chemistry.chemical_compound, Carbohydrate Conformation, Enzyme kinetics, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, biology, Mutagenesis, Sugar Acids, Glycosidic bond, Directed evolution, 0104 chemical sciences, Sialic acid, Enzyme, chemistry, biology.protein, Biocatalysis, Directed Molecular Evolution
Abstract

N-acetylneuraminic acid (5-acetamido-3,5-dideoxy-d-glycero-d-galacto-non-2-ulosonic acid), which is the principal sialic acid family member of the non-2-ulosonic acids and their various derivatives, is often found at the terminal position on the glycan chains that adorn all vertebrate cells. This terminal position combined with subtle variations in structure and linkage to the underlying glycan chains between humans and other mammals points to the importance of this diverse group of nine-carbon sugars as indicators of the unique aspects of human evolution and is relevant to understanding an array of human conditions. Enzymes that catalyze the removal N-acetylneuraminic acid from glycoconjugates are called neuraminidases. However, despite their documented role in numerous diseases, due to the promiscuous activity of many neuraminidases, our knowledge of the functions and metabolism of many sialic acids and the effect of the attachment to cellular glycans is limited. To this end, through a concerted effort of generation of random and site-directed mutagenesis libraries, subsequent screens and positive and negative evolutionary selection protocols, we succeeded in identifying three enzyme variants of the neuraminidase from the soil bacterium Micromonospora viridifaciens with markedly altered specificity for the hydrolysis of natural Kdn (3-deoxy-d-glycero-d-galacto-non-2-ulosonic acid) glycosidic linkages compared to those of N-acetylneuraminic acid. These variants catalyze the hydrolysis of Kdn-containing disaccharides with catalytic efficiencies (second-order rate constants: kcat/Km) of greater than 105 M−1 s−1; the best variant displayed an efficiency of >106 M−1 s−1 at its optimal pH.

Published
2019

34. An Epoxide Intermediate in Glycosidase Catalysis

Author

Lukasz F. Sobala, Víctor Rojas-Cervellera, Spencer J. Williams, Andrew R. Lewis, Sha Zhu, Gideon J. Davies, Oscar Millet, Yongmin Zhang, Dan Lu, Jesús Jiménez-Barbero, Gaetano Speciale, Andrew J. Bennet, Matthieu Sollogoub, Ganeko Bernardo-Seisdedos, Carme Rovira, Natalia Sannikova, Lluís Raich, Saeideh Shamsi Kazem Abadi, Andrew J. Thompson, and Z. Hakki

Subjects
biology, 010405 organic chemistry, Stereochemistry, Chemistry, General Chemical Engineering, Oxocarbenium, Active site, General Chemistry, Oxazoline, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Reaction coordinate, chemistry.chemical_compound, Nucleophile, Kinetic isotope effect, GLYCOSIDASE, INHIBITORS, EPOXIDE, biology.protein, Glycoside hydrolase, Glycosyl, QD1-999, Research Article
Abstract

Retaining glycoside hydrolases cleave their substrates through stereochemical retention at the anomeric position. Typically, this involves two-step mechanisms using either an enzymatic nucleophile via a covalent glycosyl enzyme intermediate or neighboring-group participation by a substrate-borne 2-acetamido neighboring group via an oxazoline intermediate; no enzymatic mechanism with participation of the sugar 2-hydroxyl has been reported. Here, we detail structural, computational, and kinetic evidence for neighboring-group participation by a mannose 2-hydroxyl in glycoside hydrolase family 99 endo-α-1,2-mannanases. We present a series of crystallographic snapshots of key species along the reaction coordinate: a Michaelis complex with a tetrasaccharide substrate; complexes with intermediate mimics, a sugar-shaped cyclitol β-1,2-aziridine and β-1,2-epoxide; and a product complex. The 1,2-epoxide intermediate mimic displayed hydrolytic and transfer reactivity analogous to that expected for the 1,2-anhydro sugar intermediate supporting its catalytic equivalence. Quantum mechanics/molecular mechanics modeling of the reaction coordinate predicted a reaction pathway through a 1,2-anhydro sugar via a transition state in an unusual flattened, envelope (E3) conformation. Kinetic isotope effects (kcat/KM) for anomeric-2H and anomeric-13C support an oxocarbenium ion-like transition state, and that for C2-18O (1.052 ± 0.006) directly implicates nucleophilic participation by the C2-hydroxyl. Collectively, these data substantiate this unprecedented and long-imagined enzymatic mechanism., Mannosidases of glycoside hydrolase family 99 use a neighboring-group participation mechanism involving the substrate 2-hydroxyl.

Published
2019
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35. Energy-Efficient Mining on a Quantum-Enabled Blockchain Using Light

Author

Shakib Daryanoosh and Adam J. Bennet

Subjects
FOS: Computer and information sciences, Computer Science - Cryptography and Security, Computer science, FOS: Physical sciences, Server, lcsh:Finance, lcsh:HG1-9999, Computer Science (miscellaneous), Quantum information, Quantum, Protocol (object-oriented programming), Quantum computer, lcsh:Computer software, Quantum Physics, Quantum network, business.industry, Computer Science Applications, lcsh:QA76.75-76.765, Computer Science - Distributed, Parallel, and Cluster Computing, Key (cryptography), Distributed, Parallel, and Cluster Computing (cs.DC), Quantum Physics (quant-ph), business, Cryptography and Security (cs.CR), General Economics, Econometrics and Finance, Software, Efficient energy use, Computer network
Abstract

We outline a quantum-enabled blockchain architecture based on a consortium of quantum servers. The network is hybridised, utilising digital systems for sharing and processing classical information combined with a fibre--optic infrastructure and quantum devices for transmitting and processing quantum information. We deliver an energy efficient interactive mining protocol enacted between clients and servers which uses quantum information encoded in light and removes the need for trust in network infrastructure. Instead, clients on the network need only trust the transparent network code, and that their devices adhere to the rules of quantum physics. To demonstrate the energy efficiency of the mining protocol, we elaborate upon the results of two previous experiments (one performed over 1km of optical fibre) as applied to this work. Finally, we address some key vulnerabilities, explore open questions, and observe forward--compatibility with the quantum internet and quantum computing technologies., 25 pages, 5 figures

Published
2019
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36. The physical organic chemistry of glycopyranosyl transfer reactions in solution and enzyme-catalyzed

Author

Andrew J. Bennet and Cinzia Colombo

Subjects
0301 basic medicine, Enzyme catalyzed, 010402 general chemistry, 01 natural sciences, Biochemistry, Chemical synthesis, Analytical Chemistry, 03 medical and health sciences, chemistry.chemical_compound, Computational chemistry, Molecule, Humans, Reactivity (chemistry), Glycosyl, Glycosides, Pyrans, chemistry.chemical_classification, Glycosidic bond, Transition state, 0104 chemical sciences, Enzymes, Solutions, 030104 developmental biology, chemistry, Physical organic chemistry, Biocatalysis
Abstract

Our understanding of the mechanisms of glycopyranosyl transfer that occur in solution, both for the chemical synthesis of complex structures and that for the cleavage of glycosidic bonds has allowed us to design biologically active molecules. Recent efforts on the reactivity of glycopyranosides, which are critical entities in all biological systems, coupled with the advent of modern spectroscopic instrumentation have allowed physical organic chemists to broaden our knowledge of glycosyl transfer reaction transition states, both in solution and for enzyme-catalyzed processes, and of critical high energy intermediates. This review details recent physical organic, kinetic and structural studies that have led to elucidation of several different mechanism for the transfer of glycopyranosyl moieties from various substrates to acceptors, such as water or a sugar hydroxyl group.

Published
2019

37. Search for B s 0 $$ {\textrm{B}}_{\textrm{s}}^0 $$ → ℓ ∓ τ ± with the semi-leptonic tagging method at Belle

Author

The Belle collaboration, L. Nayak, S. Nishida, A. Giri, I. Adachi, H. Aihara, D. M. Asner, H. Atmacan, V. Aulchenko, T. Aushev, R. Ayad, V. Babu, S. Bahinipati, S. Banerjee, M. Bauer, P. Behera, K. Belous, J. Bennett, M. Bessner, B. Bhuyan, D. Biswas, D. Bodrov, J. Borah, A. Bozek, M. Bračko, P. Branchini, T. E. Browder, A. Budano, M. Campajola, D. Červenkov, M.-C. Chang, B. G. Cheon, K. Chilikin, H. E. Cho, K. Cho, S.-K. Choi, Y. Choi, S. Choudhury, D. Cinabro, J. Cochran, S. Das, N. Dash, G. De Nardo, G. De Pietro, R. Dhamija, F. Di Capua, J. Dingfelder, Z. Doležal, T. V. Dong, D. Dossett, S. Dubey, D. Epifanov, T. Ferber, D. Ferlewicz, B. G. Fulsom, R. Garg, V. Gaur, P. Goldenzweig, E. Graziani, T. Gu, Y. Guan, S. Halder, T. Hara, K. Hayasaka, H. Hayashii, M. T. Hedges, D. Herrmann, W.-S. Hou, C.-L. Hsu, T. Iijima, K. Inami, G. Inguglia, N. Ipsita, A. Ishikawa, R. Itoh, M. Iwasaki, W. W. Jacobs, E.-J. Jang, S. Jia, Y. Jin, K. K. Joo, A. B. Kaliyar, T. Kawasaki, C. Kiesling, C. H. Kim, D. Y. Kim, K.-H. Kim, Y.-K. Kim, K. Kinoshita, P. Kodyš, T. Konno, A. Korobov, S. Korpar, E. Kovalenko, P. Križan, P. Krokovny, T. Kuhr, M. Kumar, R. Kumar, K. Kumara, A. Kuzmin, Y.-J. Kwon, S. C. Lee, J. Li, L. K. Li, Y. Li, J. Libby, K. Lieret, Y.-R. Lin, D. Liventsev, T. Luo, Y. Ma, M. Masuda, T. Matsuda, S. K. Maurya, F. Meier, M. Merola, F. Metzner, K. Miyabayashi, R. Mizuk, G. B. Mohanty, I. Nakamura, M. Nakao, Z. Natkaniec, A. Natochii, N. K. Nisar, S. Ogawa, H. Ono, P. Oskin, P. Pakhlov, G. Pakhlova, T. Pang, S. Pardi, J. Park, S.-H. Park, A. Passeri, S. Paul, T. K. Pedlar, R. Pestotnik, L. E. Piilonen, T. Podobnik, E. Prencipe, M. T. Prim, A. Rostomyan, N. Rout, G. Russo, S. Sandilya, A. Sangal, L. Santelj, V. Savinov, G. Schnell, C. Schwanda, A. J. Schwartz, Y. Seino, K. Senyo, M. E. Sevior, M. Shapkin, C. Sharma, J.-G. Shiu, A. Sibidanov, E. Solovieva, M. Starič, M. Sumihama, T. Sumiyoshi, M. Takizawa, K. Tanida, F. Tenchini, K. Trabelsi, M. Uchida, Y. Unno, K. Uno, S. Uno, P. Urquijo, S. E. Vahsen, G. Varner, K. E. Varvell, A. Vinokurova, D. Wang, M.-Z. Wang, S. Watanuki, E. Won, B. D. Yabsley, W. Yan, J. Yelton, Y. Yook, C. Z. Yuan, L. Yuan, Y. Yusa, Y. Zhai, Z. P. Zhang, V. Zhilich, and V. Zhukova

Subjects
B Physics, e +-e − Experiments, Flavour Physics, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Abstract We present a search for the lepton-flavor-violating decays B s 0 $$ {B}_s^0 $$ → ℓ ∓ τ ± , where ℓ = e, μ, using the full data sample of 121 fb −1 collected at the Υ(5S) resonance with the Belle detector at the KEKB asymmetric-energy e + e − collider. We use B s 0 B ¯ s 0 $$ {B}_s^0{\overline{B}}_s^0 $$ events in which one B s 0 $$ {B}_s^0 $$ meson is reconstructed in a semileptonic decay mode and the other in the signal mode. We find no evidence for B s 0 $$ {B}_s^0 $$ → ℓ ∓ τ ± decays and set upper limits on their branching fractions at 90% confidence level as B $$ \mathcal{B} $$ ( B s 0 $$ {B}_s^0 $$ → e ∓ τ ± ) < 14 × 10 −4 and B $$ \mathcal{B} $$ ( B s 0 $$ {B}_s^0 $$ → μ ∓ τ ± ) < 7.3 × 10 −4. Our result represents the first upper limit on the B s 0 $$ {B}_s^0 $$ → e ∓ τ ± decay rate.

Published
2023
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38. Measurement of the e + e − → B s 0 B ¯ s 0 X $$ {B}_s^0{\overline{B}}_s^0X $$ cross section in the energy range from 10.63 to 11.02 GeV using inclusive D s + $$ {D}_s^{+} $$ and D 0 production

Author

The Belle collaboration, V. Zhukova, R. Mizuk, I. Adachi, H. Aihara, S. Al Said, D. M. Asner, H. Atmacan, V. Aulchenko, T. Aushev, R. Ayad, V. Babu, Sw. Banerjee, M. Bauer, P. Behera, K. Belous, J. Bennett, F. Bernlochner, M. Bessner, T. Bilka, D. Biswas, A. Bobrov, D. Bodrov, A. Bondar, J. Borah, A. Bozek, M. Bračko, P. Branchini, T. E. Browder, M. Campajola, L. Cao, D. Červenkov, M.-C. Chang, B. G. Cheon, K. Chilikin, H. E. Cho, K. Cho, S.-K. Choi, Y. Choi, S. Choudhury, D. Cinabro, S. Das, G. De Nardo, G. De Pietro, R. Dhamija, F. Di Capua, T. V. Dong, S. Dubey, P. Ecker, D. Epifanov, T. Ferber, D. Ferlewicz, B. G. Fulsom, V. Gaur, A. Garmash, A. Giri, P. Goldenzweig, T. Gu, K. Gudkova, C. Hadjivasiliou, T. Hara, K. Hayasaka, S. Hazra, M. T. Hedges, D. Herrmann, W.-S. Hou, C.-L. Hsu, K. Inami, N. Ipsita, A. Ishikawa, R. Itoh, M. Iwasaki, Y. Iwasaki, W. W. Jacobs, E.-J. Jang, S. Jia, Y. Jin, K. K. Joo, A. B. Kaliyar, T. Kawasaki, C. Kiesling, C. H. Kim, D. Y. Kim, K.-H. Kim, Y.-K. Kim, K. Kinoshita, P. Kodyš, A. Korobov, S. Korpar, E. Kovalenko, P. Križan, P. Krokovny, M. Kumar, R. Kumar, A. Kuzmin, Y.-J. Kwon, Y.-T. Lai, T. Lam, M. Laurenza, S. C. Lee, D. Levit, L. K. Li, J. Libby, K. Lieret, D. Liventsev, Y. Ma, M. Masuda, T. Matsuda, S. K. Maurya, F. Meier, M. Merola, F. Metzner, K. Miyabayashi, G. B. Mohanty, I. Nakamura, T. Nakano, M. Nakao, Z. Natkaniec, A. Natochii, L. Nayak, N. K. Nisar, S. Nishida, K. Ogawa, S. Ogawa, H. Ono, P. Oskin, P. Pakhlov, G. Pakhlova, T. Pang, S. Pardi, H. Park, J. Park, S.-H. Park, A. Passeri, S. Patra, S. Paul, T. K. Pedlar, R. Pestotnik, L. E. Piilonen, T. Podobnik, E. Prencipe, M. T. Prim, N. Rout, G. Russo, D. Sahoo, Y. Sakai, S. Sandilya, L. Santelj, V. Savinov, G. Schnell, C. Schwanda, A. J. Schwartz, Y. Seino, K. Senyo, W. Shan, M. Shapkin, C. Sharma, J.-G. Shiu, A. Sokolov, E. Solovieva, M. Starič, Z. S. Stottler, M. Sumihama, W. Sutcliffe, M. Takizawa, K. Tanida, F. Tenchini, R. Tiwary, K. Trabelsi, M. Uchida, Y. Unno, S. Uno, Y. Usov, S. E. Vahsen, G. Varner, A. Vinokurova, D. Wang, E. Wang, M.-Z. Wang, X. L. Wang, M. Watanabe, S. Watanuki, O. Werbycka, E. Won, B. D. Yabsley, W. Yan, J. H. Yin, C. Z. Yuan, L. Yuan, Z. P. Zhang, and V. Zhilich

Subjects
B Physics, e +-e − Experiments, Quarkonium, Spectroscopy, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Abstract We report the first measurement of the inclusive e + e − → b b ¯ $$ b\overline{b} $$ → D s ± $$ {D}_s^{\pm } $$ X and e + e − → b b ¯ $$ b\overline{b} $$ → D 0 / D ¯ 0 $$ {\overline{D}}^0 $$ X cross sections in the energy range from 10.63 to 11.02 GeV. Based on these results, we determine σ(e + e − → B s 0 B ¯ s 0 $$ {B}_s^0{\overline{B}}_s^0 $$ X) and σ(e + e − → B B ¯ $$ B\overline{B} $$ X) in the same energy range. We measure the fraction of B s 0 $$ {B}_s^0 $$ events at Υ(10860) to be f s = ( 22.0 − 2.1 + 2.0 $$ {22.0}_{-2.1}^{+2.0} $$ )%. We determine also the ratio of the B s 0 $$ {B}_s^0 $$ inclusive branching fractions B $$ \mathcal{B} $$ ( B s 0 $$ {B}_s^0 $$ → D 0 / D ¯ 0 $$ {\overline{D}}^0 $$ X)/ B $$ \mathcal{B} $$ ( B s 0 $$ {B}_s^0 $$ → D s ± $$ {D}_s^{\pm } $$ X) = 0.416 ± 0.018 ± 0.092. The results are obtained using the data collected with the Belle detector at the KEKB asymmetric-energy e + e − collider.

Published
2023
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39. Search for the double-charmonium state with η c J/ψ at Belle

Author

The Belle collaboration, J. H. Yin, Y. B. Li, E. Won, I. Adachi, H. Aihara, S. Al Said, D. M. Asner, T. Aushev, R. Ayad, V. Babu, Sw. Banerjee, P. Behera, K. Belous, J. Bennett, M. Bessner, T. Bilka, D. Biswas, D. Bodrov, G. Bonvicini, J. Borah, A. Bozek, M. Bračko, P. Branchini, T. E. Browder, A. Budano, D. Červenkov, M.-C. Chang, B. G. Cheon, K. Chilikin, H. E. Cho, K. Cho, S.-K. Choi, Y. Choi, S. Choudhury, D. Cinabro, J. Cochran, S. Das, G. De Nardo, G. De Pietro, R. Dhamija, F. Di Capua, J. Dingfelder, Z. Doležal, T. V. Dong, D. Epifanov, T. Ferber, D. Ferlewicz, B. G. Fulsom, V. Gaur, A. Giri, P. Goldenzweig, E. Graziani, T. Gu, Y. Guan, K. Gudkova, C. Hadjivasiliou, S. Halder, T. Hara, K. Hayasaka, H. Hayashii, D. Herrmann, W.-S. Hou, C.-L. Hsu, T. Iijima, N. Ipsita, A. Ishikawa, R. Itoh, M. Iwasaki, W. W. Jacobs, Q. P. Ji, S. Jia, Y. Jin, K. K. Joo, J. Kahn, A. B. Kaliyar, T. Kawasaki, C. Kiesling, C. H. Kim, D. Y. Kim, K.-H. Kim, Y.-K. Kim, H. Kindo, K. Kinoshita, P. Kodyš, A. Korobov, S. Korpar, E. Kovalenko, P. Križan, P. Krokovny, T. Kuhr, M. Kumar, R. Kumar, K. Kumara, T. Lam, J. S. Lange, S. C. Lee, L. K. Li, Y. Li, J. Libby, K. Lieret, Y.-R. Lin, D. Liventsev, M. Masuda, T. Matsuda, D. Matvienko, S. K. Maurya, F. Meier, M. Merola, F. Metzner, R. Mizuk, G. B. Mohanty, R. Mussa, I. Nakamura, D. Narwal, Z. Natkaniec, A. Natochii, L. Nayak, M. Nayak, N. K. Nisar, S. Nishida, S. Ogawa, H. Ono, P. Oskin, G. Pakhlova, S. Pardi, H. Park, J. Park, S.-H. Park, A. Passeri, S. Patra, S. Paul, R. Pestotnik, L. E. Piilonen, T. Podobnik, E. Prencipe, M. T. Prim, N. Rout, G. Russo, S. Sandilya, A. Sangal, L. Santelj, V. Savinov, G. Schnell, C. Schwanda, Y. Seino, K. Senyo, W. Shan, M. Shapkin, C. Sharma, J.-G. Shiu, E. Solovieva, M. Starič, Z. S. Stottler, M. Sumihama, M. Takizawa, K. Tanida, F. Tenchini, R. Tiwary, M. Uchida, T. Uglov, Y. Unno, S. Uno, Y. Usov, S. E. Vahsen, G. Varner, A. Vinokurova, D. Wang, E. Wang, M.-Z. Wang, X. L. Wang, S. Watanuki, O. Werbycka, X. Xu, B. D. Yabsley, W. Yan, S. B. Yang, J. Yelton, Y. Yook, C. Z. Yuan, Z. P. Zhang, V. Zhilich, and V. Zhukova

Subjects
e +-e − Experiments, Exotics, QCD, Spectroscopy, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Abstract We measure the cross section of e + e − → η c J/ψ at the Υ(nS)(n = 1–5) on-resonance and 10.52 GeV off-resonance energy points using the full data sample collected by the Belle detector with an integrated luminosity of 955 fb −1. We also search for double charmonium production in e + e − → η c J/ψ via initial state radiation near the η c J/ψ threshold. No evident signal of the double charmonium state is found, but evidence for the e + e − → η c J/ψ process is found with a statistical significance greater than 3.3σ near the η c J/ψ threshold. The average cross section near the threshold is measured and upper limits of cross sections are set for other regions.

Published
2023
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40. Search for lepton-flavor-violating τ decays into a lepton and a vector meson using the full Belle data sample

Author

The Belle collaboration, N. Tsuzuki, K. Inami, I. Adachi, H. Aihara, D. M. Asner, H. Atmacan, T. Aushev, R. Ayad, V. Babu, Sw. Banerjee, P. Behera, K. Belous, J. Bennett, M. Bessner, B. Bhuyan, T. Bilka, D. Biswas, D. Bodrov, J. Borah, A. Bozek, M. Bračko, P. Branchini, T. E. Browder, A. Budano, M. Campajola, D. Červenkov, M.-C. Chang, B. G. Cheon, K. Chilikin, H. E. Cho, K. Cho, S.-J. Cho, S.-K. Choi, Y. Choi, S. Choudhury, D. Cinabro, J. Cochran, S. Das, N. Dash, G. De Nardo, G. De Pietro, R. Dhamija, F. Di Capua, Z. Doležal, T. V. Dong, D. Dossett, S. Dubey, D. Epifanov, T. Ferber, D. Ferlewicz, B. G. Fulsom, V. Gaur, A. Giri, P. Goldenzweig, Y. Guan, K. Gudkova, X. Han, T. Hara, K. Hayasaka, H. Hayashii, M. T. Hedges, D. Herrmann, W.-S. Hou, C.-L. Hsu, T. Iijima, N. Ipsita, A. Ishikawa, R. Itoh, M. Iwasaki, W. W. Jacobs, E.-J. Jang, S. Jia, Y. Jin, T. Kawasaki, C. Kiesling, C. H. Kim, D. Y. Kim, K.-H. Kim, Y.-K. Kim, K. Kinoshita, P. Kodyš, T. Konno, A. Korobov, S. Korpar, E. Kovalenko, P. Križan, P. Krokovny, M. Kumar, K. Kumara, A. Kuzmin, Y.-J. Kwon, S. C. Lee, J. Li, L. K. Li, Y. Li, J. Libby, K. Lieret, Y.-R. Lin, D. Liventsev, Y. Ma, A. Martini, M. Masuda, K. Matsuoka, D. Matvienko, S. K. Maurya, F. Meier, M. Merola, K. Miyabayashi, R. Mizuk, G. B. Mohanty, M. Nakao, Z. Natkaniec, A. Natochii, L. Nayak, M. Niiyama, N. K. Nisar, S. Nishida, S. Ogawa, H. Ono, P. Oskin, G. Pakhlova, T. Pang, S. Pardi, H. Park, J. Park, S.-H. Park, A. Passeri, S. Paul, T. K. Pedlar, R. Pestotnik, L. E. Piilonen, T. Podobnik, E. Prencipe, M. T. Prim, A. Rostomyan, N. Rout, G. Russo, S. Sandilya, A. Sangal, L. Santelj, V. Savinov, G. Schnell, C. Schwanda, Y. Seino, K. Senyo, M. E. Sevior, W. Shan, M. Shapkin, C. Sharma, J.-G. Shiu, E. Solovieva, M. Starič, M. Sumihama, T. Sumiyoshi, M. Takizawa, U. Tamponi, K. Tanida, F. Tenchini, M. Uchida, T. Uglov, Y. Unno, S. Uno, P. Urquijo, Y. Ushiroda, S. E. Vahsen, G. Varner, A. Vinokurova, D. Wang, E. Wang, M.-Z. Wang, X. L. Wang, S. Watanuki, X. Xu, B. D. Yabsley, W. Yan, S. B. Yang, J. Yelton, Y. Yook, L. Yuan, Y. Zhai, V. Zhilichand, and V. Zhukova

Subjects
e +-e − Experiments, Tau Physics, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Abstract Charged-lepton-flavor-violation is predicted in several new physics scenarios. We update the analysis of τ lepton decays into a light charged lepton (ℓ = e ± or μ ± ) and a vector meson (V 0 = ρ 0, ϕ, ω, K *0, or K ¯ $$ \overline{K} $$ *0) using 980 fb −1 of data collected with the Belle detector at the KEKB collider. No significant excess of such signal events is observed, and thus 90% credibility level upper limits are set on the τ → ℓV 0 branching fractions in the range of (1.7–4.3) × 10 −8. These limits are improved by 30% on average from the previous results.

Published
2023
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41. DNA Repair by DNA: The UV1C DNAzyme Catalyzes Photoreactivation of Cyclobutane Thymine Dimers in DNA More Effectively than Their de Novo Formation

Author

Gurpreet S. Sekhon, Dipankar Sen, Andrew J. Bennet, and Adam Barlev

Subjects
0301 basic medicine, chemistry.chemical_classification, DNA Repair, Photochemistry, Oligonucleotide, DNA repair, Stereochemistry, Deoxyribozyme, Pyrimidine dimer, DNA, DNA, Catalytic, 010402 general chemistry, 01 natural sciences, Biochemistry, 0104 chemical sciences, Cyclobutane, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Pyrimidine Dimers, Nucleotide, Photolyase
Abstract

UV1C, a 42-nt DNA oligonucleotide, is a deoxyribozyme (DNAzyme) that optimally uses 305 nm wavelength light to catalyze photoreactivation of a cyclobutane thymine dimer placed within a gapped, unnatural DNA substrate, TDP. Herein we show that UV1C is also capable of photoreactivating thymine dimers within an authentic single-stranded DNA substrate, LDP. This bona fide UV1C substrate enables, for the first time, investigation of whether UV1C catalyzes only photoreactivation or also the de novo formation of thymine dimers. Single-turnover experiments carried out with LDP and UV1C, relative to control experiments with LDP alone in single-stranded and double-stranded contexts, show that while UV1C does modestly promote thymine dimer formation, its major activity is indeed photoreactivation. Distinct photostationary states are reached for LDP in its three contexts: as a single strand, as a constituent of a double-helix, and as a 1:1 complex with UV1C. The above results on the cofactor-independent photoreactivation capabilities of a catalytic DNA reinforce a series of recent, unexpected reports that purely nucleotide-based photoreactivation is also operational within conventional double-helical DNA.

Published
2016
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42. C2-Oxyanion Neighboring Group Participation: Transition State Structure for the Hydroxide-Promoted Hydrolysis of 4-Nitrophenyl α-<scp>d</scp>-Mannopyranoside

Author

Andrew J. Bennet, Fahimeh S. Shidmoossavee, Marco Farren-Dai, Spencer J. Williams, and Gaetano Speciale

Subjects
Models, Molecular, Reaction mechanism, Stereochemistry, Molecular Conformation, Ab initio, Oxyanion, Oxygen Isotopes, 010402 general chemistry, 01 natural sciences, Biochemistry, Medicinal chemistry, Catalysis, Nitrophenols, chemistry.chemical_compound, Hydrolysis, Colloid and Surface Chemistry, Kinetic isotope effect, Hydroxides, 010405 organic chemistry, Chemistry, Aryl, Leaving group, General Chemistry, Deuterium, 0104 chemical sciences, Oxygen, Kinetics, Hydroxide, Mannose
Abstract

The hydroxide-catalyzed hydrolysis of aryl 1,2-trans-glycosides proceeds through a mechanism involving neighboring group participation by a C2-oxyanion and rate-limiting formation of a 1,2-anhydro sugar (oxirane) intermediate. The transition state for the hydroxide-catalyzed hydrolysis of 4-nitrophenyl α-d-mannopyranoside in aqueous media has been studied by the use of multiple kinetic isotope effect (KIE) measurements in conjunction with ab initio theoretical methods. The experimental KIEs are C1-2H (1.112 ± 0.004), C2-2H (1.045 ± 0.005), anomeric 1-13C (1.026 ± 0.006), C2-13C (0.999 ± 0.005), leaving group oxygen 2-18O (1.040 ± 0.012), and C2-18O (1.044 ± 0.006). The transition state for the hydrolysis reaction was modeled computationally using the experimental KIE values as constraints. Taken together, the reported kinetic isotope effects and computational modeling are consistent with the reaction mechanism involving rate-limiting formation of a transient oxirane intermediate that opens in water to giv...

Published
2016
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43. Attestation in self-propagating combustion approach of spinel AFe2O4 (A = Co, Mg and Mn) complexes bearing mixed oxidation states: Magnetostructural properties

Author

J. Bennet, Fathalla Hamed, K. Vishista, R. Tholkappiyan, and N. Victor Jaya

Subjects
Materials science, Absorption spectroscopy, Spinel, Analytical chemistry, General Physics and Astronomy, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, engineering.material, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, Surfaces, Coatings and Films, Magnetization, X-ray photoelectron spectroscopy, X-ray crystallography, engineering, Ferrite (magnet), Fourier transform infrared spectroscopy, 0210 nano-technology, Scherrer equation
Abstract

Spinel type nano-sized ferrite compounds AFe2O4 (A = Co, Mg and Mn) have been successfully prepared by self-propagating combustion method using glycine as fuel at 400 °C under air atmosphere for 4 h. The crystal structure, chemical composition, morphology and magnetic properties of the synthesized samples were characterized by X−ray diffraction, Fourier transform infrared spectroscopy, X−ray photoelectron spectroscopy, Energy dispersive X−ray, Scanning and Transmission electron microscopy and vibrating sample magnetometer. The chemical reaction and role of fuel on the nanoparticles formation were discussed. The XRD pattern of the synthesized samples shows the formation of pure phase with average crystallite size of 97, 57 and 98 nm from Scherrer formula and 86, 54 and 87 nm from Williamson and Hall (W–H) formula respectively. FTIR absorption spectra revealed that the presence of strong absorption peaks near 400–600 cm−1 corresponds to tetrahedral and octahedral complex of spinel ferrites. The relative concentrations of electronic states of elements such as cobalt (Co2+ and Co3+), iron (Fe2+ and Fe3+) and manganese (Mn2+ and Mn3+) oxidation states were studied from XPS and it is found that 55% of Fe ions are in Fe2+ state and the remaining is in Fe3+ state and thus the cationic distribution of Fe ions occurred in both tetrahedral and octahedral sites. SEM analysis indicates the presence of pore like morphology which is nearly homogenous because of combustion process. EDS analysis confirms the presence of elements in the ferrite samples. By replacing the active ‘A’ site cations in AFe2O4 (A = Co, Mg and Mn) samples show the different magnetic properties. The parameters like saturation magnetization, coercivity and remnant magnetization obtained from M−H loops are studied in room temperature.

Published
2016
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44. Synthesis and evaluation of influenza A viral neuraminidase candidate inhibitors based on a bicyclo[3.1.0]hexane scaffold

Author

Anna Bernardi, B. Mario Pinto, Andrew J. Bennet, and Cinzia Colombo

Subjects
Models, Molecular, Protein Conformation, Stereochemistry, Neuraminidase, Chemistry Techniques, Synthetic, 010402 general chemistry, Sialidase, medicine.disease_cause, 01 natural sciences, Biochemistry, Bridged Bicyclo Compounds, chemistry.chemical_compound, Protein structure, Influenza A Virus, H9N2 Subtype, Viral neuraminidase, Influenza A virus, medicine, Enzyme Inhibitors, Physical and Theoretical Chemistry, Influenza A Virus, H5N1 Subtype, biology, Bicyclic molecule, 010405 organic chemistry, Chemistry, Organic Chemistry, Active site, 3. Good health, 0104 chemical sciences, Sialic acid, Drug Design, biology.protein
Abstract

This manuscript describes a novel class of derivatives based on a bicyclo[3.1.0]hexane scaffold, proposed as mimics of sialic acid in a distorted boat conformation that is on the catalytic pathway of neuraminidases (sialidases). A general synthetic route for these constrained-ring molecules was developed using a photochemical reaction followed by a Johnson-Corey-Chaykovsky cyclopropanation. Functionalization with the goal of occupying the 150-cavity was also exploited. Inhibition assays demonstrated low micromolar inhibition against both group-1 (H5N1) and group-2 (H9N2) influenza neuraminidase subtypes, indicating good affinity for the alpha and beta sialic acid mimics and 150-cavity-targeted derivatives. These results provide a validation of a bicyclo[3.1.0]hexane scaffold as a mimic of a distorted sialic acid bound in the neuraminidase active site during catalysis.

Published
2016
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45. Bone morphogenetic protein-7: Review of signalling and efficacy in fracture healing

Author

Simon J Bennet, Steven Cecchi, and Manit Arora

Subjects
0301 basic medicine, medicine.medical_specialty, lcsh:Diseases of the musculoskeletal system, autograft, medicine.medical_treatment, Nonunion, Review Article, Bone healing, Bone grafting, Bioinformatics, Bone morphogenetic protein, osteogenesis, 03 medical and health sciences, BMP-7, medicine, Orthopedics and Sports Medicine, business.industry, Growth factor, medicine.disease, fracture healing, Surgery, Bone morphogenetic protein 7, 030104 developmental biology, Search terms, Signalling, nonunion, lcsh:RC925-935, business
Abstract

Summary Bone morphogenetic proteins (BMPs) are a group of signalling molecules that belong to the transforming growth factor-β superfamily of proteins. Initially identified for their ability to induce bone formation, recent advances in the understanding of cellular and molecular mechanisms regarding BMPs have led to the use of the growth factor to accelerate bone healing. Recent clinical trials have demonstrated that BMPs, BMP-7 in particular, may present an alternative line of treatment other than the gold standard, autogenous bone grafting, in the treatment of fracture nonunion. We performed a literature search in September 2014 of PubMed and Embase using search terms, including “bone morphogenetic proteins”, “BMP-7”, “non-union”, “fracture healing” and “cost-effectiveness”, reviewing the efficacy, safety, and cost of treatment of nonunions with BMP-7. The authors further canvassed the reference lists of selected articles and used online search tools, such as Google Scholar. BMP-7 uses both the canonical and noncanonical signalling pathways. The treatment of fracture nonunion with recombinant human BMP-7 (rhBMP-7) has a comparable efficacy with that of autogenous bone grafting with an average union rate of 87% compared with 93% for bone grafting. Furthermore, fewer complications have been described with the use of rhBMP-7 compared with traditional bone grafting. We describe the signalling pathways that BMP-7 uses to exert its effect on bone. In nonunions, rhBMP-7 has been shown to have a similar efficacy to bone grafting with fewer complications.

Published
2016
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46. Author Correction: Revealing the mechanism for covalent inhibition of glycoside hydrolases by carbasugars at an atomic level

Author

Oluwafemi S. Akintola, Jason Draper, Robert J. Pengelly, Verena Oehler, Katarzyna Świderek, Andrew J. Bennet, Marco Farren-Dai, Saswati Chakladar, Robert Britton, Michael Meanwell, Vicent Moliner, Tracey M. Gloster, Saeideh Shamsi Kazem Abadi, and Weiwu Ren

Subjects
Glycoside Hydrolases, Science, General Physics and Astronomy, Molecular Dynamics Simulation, 010402 general chemistry, 01 natural sciences, Article, General Biochemistry, Genetics and Molecular Biology, Catalytic Domain, Cyclohexenes, Glycoside hydrolase, Thermotoga maritima, Enzyme Inhibitors, lcsh:Science, Author Correction, Multidisciplinary, Philosophy, Carbasugars, Galactose, General Chemistry, Genealogy, 0104 chemical sciences, Kinetics, Biocatalysis, Quantum Theory, lcsh:Q, Mechanism (sociology)
Abstract

Mechanism-based glycoside hydrolase inhibitors are carbohydrate analogs that mimic the natural substrate’s structure. Their covalent bond formation with the glycoside hydrolase makes these compounds excellent tools for chemical biology and potential drug candidates. Here we report the synthesis of cyclohexene-based α-galactopyranoside mimics and the kinetic and structural characterization of their inhibitory activity toward an α-galactosidase from Thermotoga maritima (TmGalA). By solving the structures of several enzyme-bound species during mechanism-based covalent inhibition of TmGalA, we show that the Michaelis complexes for intact inhibitor and product have half-chair (2H3) conformations for the cyclohexene fragment, while the covalently linked intermediate adopts a flattened half-chair (2H3) conformation. Hybrid QM/MM calculations confirm the structural and electronic properties of the enzyme-bound species and provide insight into key interactions in the enzyme-active site. These insights should stimulate the design of mechanism-based glycoside hydrolase inhibitors with tailored chemical properties., Mechanism-based inhibitors of glycoside hydrolases are useful probes for basic research and represent potential drug candidates. Here, the authors present a series of mechanism-based covalent α-galactosidase inhibitors and elucidate the kinetic and structural basis of their inhibitory activity.

Published
2018

47. The Aspergillus fumigatus Sialidase (Kdnase) Contributes to Cell Wall Integrity and Virulence in Amphotericin B-Treated Mice

Author

Jason R. Nesbitt, Sukhbir Manku, Elizabeth Steves, Alissa Cait, Margo M. Moore, Cole Schonhofer, Juliana H. F. Yeung, Andrew J. Bennet, Michael R. Hughes, Jonathan C. Choy, and Kelly M. McNagny

Subjects
0301 basic medicine, Microbiology (medical), lcsh:QR1-502, Virulence, Kdn, Calcofluor-white, Aspergillosis, Sialidase, chitin, Microbiology, lcsh:Microbiology, Aspergillus fumigatus, Cell wall, 03 medical and health sciences, chemistry.chemical_compound, Amphotericin B, medicine, Original Research, invasive aspergillosis, biology, sialidase, cell wall integrity, medicine.disease, biology.organism_classification, 3. Good health, Sialic acid, 030104 developmental biology, chemistry, medicine.drug
Abstract

Aspergillus fumigatus is a filamentous fungus that can cause a life-threatening invasive pulmonary aspergillosis (IPA) in immunocompromised individuals. We previously characterized an exo-sialidase from A. fumigatus that prefers the sialic acid substrate, 2-keto-3-deoxy-D-glycero-D-galacto-nononic acid (Kdn); hence it is a Kdnase. Sialidases are known virulence factors in other pathogens; therefore, the goal of our study was to evaluate the importance of Kdnase in A. fumigatus. A kdnase knockout strain (Δkdnase) was unable to grow on medium containing Kdn and displayed reduced growth and abnormal morphology. Δkdnase was more sensitive than wild type to hyperosmotic conditions and the antifungal agent, amphotericin B. In contrast, Δkdnase had increased resistance to nikkomycin, Congo Red and Calcofluor White indicating activation of compensatory cell wall chitin deposition. Increased cell wall thickness and chitin content in Δkdnase were confirmed by electron and immunofluorescence microscopy. In a neutropenic mouse model of invasive aspergillosis, the Δkdnase strain had attenuated virulence and a significantly lower lung fungal burden but only in animals that received liposomal amphotericin B after spore exposure. Macrophage numbers were almost twofold higher in lung sections from mice that received the Δkdnase strain, possibly related to higher survival of macrophages that internalized the Δkdnase conidia. Thus, A. fumigatus Kdnase is important for fungal cell wall integrity and virulence, and because Kdnase is not present in the host, it may represent a potential target for the development of novel antifungal agents.

Published
2018

48. Design and synthesis of constrained bicyclic molecules as candidate inhibitors of influenza A neuraminidase

Author

Cinzia Colombo, Črtomir Podlipnik, Leonardo Lo Presti, Masahiro Niikura, Andrew J Bennet, and Anna Bernardi

Subjects
RNA viruses, lcsh:Medicine, Chemistry Techniques, Synthetic, Biochemistry, Mass Spectrometry, Analytical Chemistry, Spectrum Analysis Techniques, Catalytic Domain, Influenza A Virus, H9N2 Subtype, Enzyme Inhibitors, lcsh:Science, Pathology and laboratory medicine, Organic Compounds, Chromatographic Techniques, Monosaccharides, Electrospray Ionization Mass Spectrometry, Medical microbiology, Molecular Docking Simulation, Chemistry, Influenza A virus, Physical Sciences, Viruses, Pathogens, Research Article, Ethers, Carbohydrates, Neuraminidase, Research and Analysis Methods, Microbiology, Viral Proteins, Column Chromatography, Virology, Influenza viruses, Medicine and health sciences, Influenza A Virus, H5N1 Subtype, Biology and life sciences, lcsh:R, Organic Chemistry, Organisms, Viral pathogens, Chemical Compounds, Bridged Bicyclo Compounds, Heterocyclic, Viral Replication, Microbial pathogens, Drug Design, Alcohols, Sialic Acids, Enzymology, lcsh:Q, Orthomyxoviruses
Abstract

The rise of drug-resistant influenza A virus strains motivates the development of new antiviral drugs, with different structural motifs and substitution. Recently, we explored the use of a bicyclic (bicyclo[3.1.0]hexane) analogue of sialic acid that was designed to mimic the conformation adopted during enzymatic cleavage within the neuraminidase (NA; sialidase) active site. Given that our first series of compounds were at least four orders of magnitude less active than available drugs, we hypothesized that the new carbon skeleton did not elicit the same interactions as the cyclohexene frameworks used previously. Herein, we tried to address this critical point with the aid of molecular modeling and we proposed new structures with different functionalization, such as the introduction of free ammonium and guanidinium groups and ether side chains other than the 3-pentyl side chain, the characteristic side chain in Oseltamivir. A highly simplified synthetic route was developed, starting from the cyclopropanation of cyclopentenone and followed by an aziridination and further functionalization of the five-member ring. This allowed the efficient preparation of a small library of new bicyclic ligands that were characterized by enzyme inhibition assays against influenza A neuraminidases N1, its H274Y mutant, and N2. The results show that none of the new structural variants synthesized, including those containing guanidinium groups rather than free ammonium ions, displayed activity against influenza A neuraminidases at concentrations less than 2 mM. We conclude that the choice and positioning of functional groups on the bicyclo[3.1.0]hexyl system still need to be properly tuned for producing complementary interactions within the catalytic site.

Published
2017

49. Two-particle angular correlations in e + e − collisions to hadronic final states in two reference coordinates at Belle

Author

The Belle collaboration, Y.-C. Chen, Y.-J. Lee, P. Chang, I. Adachi, H. Aihara, S. Al Said, D. M. Asner, H. Atmacan, V. Aulchenko, T. Aushev, R. Ayad, V. Babu, P. Behera, K. Belous, J. Bennett, M. Bessner, V. Bhardwaj, B. Bhuyan, T. Bilka, D. Bodrov, G. Bonvicini, J. Borah, A. Bozek, M. Bračko, P. Branchini, A. Budano, M. Campajola, D. Červenkov, M.-C. Chang, V. Chekelian, B. G. Cheon, K. Chilikin, H. E. Cho, K. Cho, S.-J. Cho, S.-K. Choi, Y. Choi, S. Choudhury, D. Cinabro, S. Das, G. De Pietro, R. Dhamija, F. Di Capua, J. Dingfelder, Z. Doležal, T. V. Dong, D. Epifanov, T. Ferber, D. Ferlewicz, B. G. Fulsom, R. Garg, V. Gaur, N. Gabyshev, A. Garmash, A. Giri, P. Goldenzweig, E. Graziani, T. Gu, C. Hadjivasiliou, K. Hayasaka, H. Hayashii, M. T. Hedges, D. Herrmann, W.-S. Hou, C.-L. Hsu, K. Inami, N. Ipsita, A. Ishikawa, R. Itoh, M. Iwasaki, W. W. Jacobs, E.-J. Jang, S. Jia, Y. Jin, K. K. Joo, K. H. Kang, G. Karyan, T. Kawasaki, C. Kiesling, C. H. Kim, D. Y. Kim, K.-H. Kim, Y.-K. Kim, P. Kodyš, A. Korobov, S. Korpar, E. Kovalenko, P. Križan, P. Krokovny, M. Kumar, R. Kumar, K. Kumara, Y.-J. Kwon, T. Lam, J. S. Lange, S. C. Lee, J. Li, L. K. Li, Y. Li, Y. B. Li, L. Li Gioi, J. Libby, C.-W. Lin, K. Lieret, D. Liventsev, M. Masuda, T. Matsuda, S. K. Maurya, F. Meier, M. Merola, K. Miyabayashi, R. Mizuk, G. B. Mohanty, M. Mrvar, R. Mussa, M. Nakao, Z. Natkaniec, A. Natochii, M. Nayak, N. K. Nisar, S. Nishida, S. Ogawa, H. Ono, Y. Onuki, P. Oskin, G. Pakhlova, S. Pardi, H. Park, S.-H. Park, S. Patra, S. Paul, T. K. Pedlar, R. Pestotnik, L. E. Piilonen, T. Podobnik, E. Prencipe, M. T. Prim, N. Rout, G. Russo, S. Sandilya, A. Sangal, L. Santelj, V. Savinov, G. Schnell, C. Schwanda, R. Seidl, Y. Seino, K. Senyo, M. E. Sevior, M. Shapkin, C. Sharma, C. P. Shen, J.-G. Shiu, E. Solovieva, M. Starič, Z. S. Stottler, J. F. Strube, M. Sumihama, T. Sumiyoshi, M. Takizawa, U. Tamponi, K. Tanida, F. Tenchini, K. Trabelsi, M. Uchida, T. Uglov, Y. Unno, K. Uno, S. Uno, P. Urquijo, R. van Tonder, G. Varner, A. Vinokurova, A. Vossen, E. Waheed, E. Wang, M.-Z. Wang, X. L. Wang, M. Watanabe, S. Watanuki, E. Won, W. Yan, S. B. Yang, J. H. Yin, C. Z. Yuan, Y. Yusa, Y. Zhai, Z. P. Zhang, V. Zhilich, and V. Zhukova

Subjects
QCD, Quark Gluon Plasma, Relativistic Heavy Ion Physics, e +-e − Experiments, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Abstract We present the analysis of two-particle angular correlations using coordinate systems defined with the conventional beam axis and the event thrust axis. We propose the latter as a good representation for the correlation structure interpretation in the e + e − collision system. The e + e − collisions to hadronic final states at center-of-mass energies of s $$ \sqrt{s} $$ = 10.52 GeV and 10.58 GeV are recorded by the Belle detector at KEKB. In this paper, results on the first dataset are supplementary to the previous Belle publication [1]. At the same time, the latter is the first two-particle correlation measurement at collision energy on the Υ(4S) resonance and is sensitive to its decay products. Measurements are reported as a function of the charged-particle multiplicity. Finally, a qualitative understanding of the correlation structure is discussed using a combination of Monte Carlo simulations and experimental data.

Published
2023
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50. Inhibitory efficiencies for mechanism-based inactivators of sialidases

Author

Juliana H. F. Yeung, Margo M. Moore, Kobra Khazaei, and Andrew J. Bennet

Subjects
Reaction rate constant, Stereochemistry, Chemistry, Organic Chemistry, Mechanism based, General Chemistry, Catalytic efficiency, Sialidase, Inhibitory postsynaptic potential, Catalysis, Micromonospora viridifaciens
Abstract

Here we describe the measurement of the inactivation rate constants for the mechanism-based inactivator 2,3-difluorosialic acid acting upon the sialidase from Micromonospora viridifaciens. Using double mixing stopped-flow experiments conducted in a 3-(N-morpholino)propanesulfonic acid buffer (100 mmol/L, pH 7.00) at 25 °C, the derived kinetic parameters are kinact/Ki= (3.9 ± 0.8) × 106(mol/L)–1s–1and Ki= 1.7 ± 0.4 μmol/L. We demonstrate that the inhibitory efficiency of the inactivation event is similar to the catalytic efficiency for this sialidase acting upon a typical substrate, 4-methylumbelliferone α-d-sialoside, kcat/Km= (7.2 ± 2.8) × 106(mol/L)–1s–1. Furthermore, we show that the catalytic efficiencies for inactivation and hydrolysis by the Kdnase from Aspergillus fumigatus are similar for the corresponding Kdn-analogues. We conclude that the deactivating effect of incorporating an axial 3-fluoro substituent onto the sialic acid scaffold is comparable to the enhanced activation that occurs when the 4-methylumbelliferone leaving group is changed to the more nucleofugal fluoride ion.

Published
2015
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