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1. Ionospheric Non-linear Effects Observed During Very-Long-Distance HF Propagation

Author

Yuri Yampolski, Gennady Milikh, Andriy Zalizovski, Alexander Koloskov, Artem Reznichenko, Eliana Nossa, Paul A. Bernhardt, Stan Briczinski, Savely M. Grach, Alexey Shindin, and Evgeny Sergeev

Subjects
artificial ionospheric turbulence, very-long-distance propagation, whisper gallery, ionospheric waveguide, self-scattering, Astronomy, QB1-991, Geophysics. Cosmic physics, QC801-809
Abstract

A new super-long-range wave propagation technique was implemented at different High Frequency (HF) heating facilities. The HF waves radiated by a powerful heater were scattered into the ionospheric waveguide by the stimulated field aligned striations. This waveguide was formed in a valley region between the E- and F- layers of the ionosphere. The wave trapping and channeling provide super-long-range propagation of HF heater signals detected at the Ukrainian Antarctic Academik Vernadsky Station (UAS) which is many thousand kilometers away from the corresponding HF heating facility. This paper aims to study the excitation of the ionospheric waveguide due to the scattering of the HF heating wave by artificial field aligned irregularities. In addition, the probing of stimulated ionospheric irregularities can be obtained from analyses of the signals received at far distance from the HF heater. The paper uses a novel method of scattering of the HF radiation by the heating facility for diagnostics of non-linear effects at the super-long radio paths. Experiments were conducted at three different powerful HF facilities: EISCAT (Norway), HAARP (Alaska), and Arecibo (Puerto Rico) and by using different far spaced receiving sites. The key problems for super-long-range propagation regime is the feeding of ionospheric waveguide. Then the energy needs to exit from the waveguide at a specific location to be detected by the surface-based receiver. During our studies the waveguide feeding was provided by the scattering of HF waves by the artificial ionospheric turbulence (AIT) above the HF heater. An interesting opportunity for the channeling of the HF signals occurs due to the aspect scattering of radio waves by field aligned irregularities (FAI), when the scattering vector is parallel to the Earth surface. Such FAIs geometry takes place over the Arecibo facility. Here FAI are oriented along the geomagnetic field line inclined by 43 degrees. Since the Arecibo HF beam is vertical, the aspect scattered waves will be oriented almost horizontally toward the South. Such geometry provides unique opportunity to channel the radio wave energy into the ionospheric waveguide and excites the whispering gallery modes.

Published
2019
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2. Miniaturized Cultivation Profiling (MATRIX)-Facilitated Discovery of Noonazines A–C and Noonaphilone A from an Australian Marine-Derived Fungus, Aspergillus noonimiae CMB-M0339

Author

Sarani Kankanamge, Paul V. Bernhardt, Zeinab G. Khalil, and Robert J. Capon

Subjects
2,6-diketopiperazines, azaphilones, noonazine, noonaphilone, Aspergillus noonimiae, marine-derived fungus, Biology (General), QH301-705.5
Abstract

Subjecting the Australian marine-derived fungus Aspergillus noonimiae CMB-M0339 to cultivation profiling using an innovative miniaturized 24-well plate format (MATRIX) enabled access to new examples of the rare class of 2,6-diketopiperazines, noonazines A–C (1–3), along with the known analogue coelomycin (4), as well as a new azaphilone, noonaphilone A (5). Structures were assigned to 1–5 on the basis of a detailed spectroscopic analysis, and in the case of 1–2, an X-ray crystallographic analysis. Plausible biosynthetic pathways are proposed for 1–4, involving oxidative Schiff base coupling/dimerization of a putative Phe precursor. Of note, 2 incorporates a rare meta-Tyr motif, typically only reported in a limited array of Streptomyces metabolites. Similarly, a plausible biosynthetic pathway is proposed for 5, highlighting a single point for stereo-divergence that allows for the biosynthesis of alternate antipodes, for example, the 7R noonaphilone A (5) versus the 7S deflectin 1a (6).

Published
2024
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3. Metal Complexes of Schiff Bases Prepared from Quinoline-3-Carbohydrazide with 2-Nitrobenzaldehyde, 2-Chlorobenzaldehyde and 2,4-Dihydroxybenzaldehyde: Structure and Biological Activity

Author

Mahmoud Sunjuk, Lana Al-Najjar, Majed Shtaiwi, Bassam I. El-Eswed, Kamal Sweidan, Paul V Bernhardt, Hiba Zalloum, and Luay Al-Essa

Subjects
Schiff bases, quinoline-3-carbohydrazide, benzaldehyde, transition metal complexes, Inorganic chemistry, QD146-197
Abstract

Three Schiff base ligands, NQ, CQ and HQ, were prepared from the reaction of quinoline-3-carbohydrazide with 2-nitrobenzaldehyde, 2-chlorobenzaldehyde and 2,4-dihydroxybenzaldehyde, respectively, and were investigated for their coordination to Cu (II), Ni(II), Co(II), Cd(II), Cr(III) and Fe(III) chlorides. The NQ preparation and the X-ray structure of NQ and CQ, as well as the transition metal complexes of NQ, CQ and HQ, were reported for the first time. FTIR, 1H-NMR, magnetic susceptibility and elemental analysis were used to study the coordination of ligands to the metal ions. Based on the magnetic susceptibility and elemental analysis results, octahedral structures of the complexes such as [CuL2Cl(OH)], [FeL2Cl2(OH)] and [CoL2Cl(OH)] were proposed for L = NQ, CQ and HQ. The relatively large Cd(II) exhibited [CdL3(OH)2]. The FTIR study revealed that NQ and CQ are coordinated to the metal ions via azomethine nitrogen and carbonyl oxygen while HQ through azomethine nitrogen and phenolic oxygen. Despite the high solvation power of DMSO solvent in 1H-NMR experiments, the azomethine HC=N peak at 9.3 ppm is the most affected by complexation with metal ions. On the other hand, quinoline nitrogen seems to be a weaker coordinating site than the azomethine nitrogen. The HQ ligand, containing phenolic groups, and its complexes with Cu and Ni were found to have inhibitory effects on human breast adenocarcinoma MCF-7 and human chronic myelogenous leukemia K562. Nevertheless, metal ions did not exhibit a significant synergistic effect on the antiproliferative activity of the ligands investigated.

Published
2023
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4. Activation of PKC supports the anticancer activity of tigilanol tiglate and related epoxytiglianes

Author

Jason K. Cullen, Glen M. Boyle, Pei-Yi Yap, Stefan Elmlinger, Jacinta L. Simmons, Natasa Broit, Jenny Johns, Blake Ferguson, Lidia A. Maslovskaya, Andrei I. Savchenko, Paul Malek Mirzayans, Achim Porzelle, Paul V. Bernhardt, Victoria A. Gordon, Paul W. Reddell, Alberto Pagani, Giovanni Appendino, Peter G. Parsons, and Craig M. Williams

Subjects
Medicine, Science
Abstract

Abstract The long-standing perception of Protein Kinase C (PKC) as a family of oncoproteins has increasingly been challenged by evidence that some PKC isoforms may act as tumor suppressors. To explore the hypothesis that activation, rather than inhibition, of these isoforms is critical for anticancer activity, we isolated and characterized a family of 16 novel phorboids closely-related to tigilanol tiglate (EBC-46), a PKC-activating epoxytigliane showing promising clinical safety and efficacy for intratumoral treatment of cancers. While alkyl branching features of the C12-ester influenced potency, the 6,7-epoxide structural motif and position was critical to PKC activation in vitro. A subset of the 6,7-epoxytiglianes were efficacious against established tumors in mice; which generally correlated with in vitro activation of PKC. Importantly, epoxytiglianes without evidence of PKC activation showed limited antitumor efficacy. Taken together, these findings provide a strong rationale to reassess the role of PKC isoforms in cancer, and suggest in some situations their activation can be a promising strategy for anticancer drug discovery.

Published
2021
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5. THE FUNDAMENTAL IMPORTANCE OF BASIC SCIENCE: EXAMPLES OF HIGH-IMPACT DISCOVERIES FROM AN INTERNATIONAL CHEMISTRY NETWORK

Author

Luiz G. F. Lopes, Peter J. Sadler, Vânia Bernardes-Génisson, José J. G. Moura, Remi Chauvin, Paul V. Bernhardt, and Eduardo H. S. Sousa

Subjects
basic science, applied science, chemistry, epistemology, Chemistry, QD1-999
Abstract

During the last 150 years or more, society has witnessed many key scientific discoveries and inventions, which have dramatically improved not only our quality of life, but our lifespan. However, the motivation of scientists to provide scientific advances has generally not been the achievement of these goals, but mainly driven by research curiosity. Fundamental scientific studies, also known as basic science, have paved the way to a society of knowledge by means of continuously evolving education systems, and have led to applied science and technological breakthroughs changing the World. However, without basic science such life-changing advances would not happen, which is poorly understood by the society. Having this in mind, chemists and biochemists working in a chemistry network highlight here examples of how basic science has played a crucial role and led to major breakthroughs. In seven short stories, the authors describe cases and historical events where basic research discoveries have advanced science, and opened avenues for future achievements. Investment in basic science is crucial for a nation’s health and wealth. The support of scientists driven by curiosity ultimately can benefit the whole of society, not only in innovative products, but also in the improvement of the understanding of our own lives.

Published
2020
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6. Crystal structure of 6-azido-6-deoxy-1,2-O-isopropylidene-α-d-glucofuranose

Author

Adam Wood, Paul V. Bernhardt, Ian van Altena, and Michela I. Simone

Subjects
crystal structure, iminosugar, d-glucose, tosylation, azide, regioselectivity, glycosidase inhibition, Crystallography, QD901-999
Abstract

Short syntheses to high Fsp3 index natural-product analogues such as iminosugars are of paramount importance in the investigation of their biological activities and reducing the use of protecting groups is an advantageous synthetic strategy. An isopropylidene group was employed towards the synthesis of seven-membered ring iminosugars and the title compound, C9H15N3O5, was crystallized as an intermediate, in which the THF ring is twisted and the dioxolane ring adopts an envelope conformation: the dihedral angle between the rings is 67.50 (13)°. In the crystal, the hydroxyl groups participate in O—H...(O,O) and O—H...N hydrogen-bonding interactions, which generate chains of molecules propagating parallel to the a-axis direction. There is a notable non-classical C—H...O hydrogen bond, which cross-links the [100] chains into (001) sheets.

Published
2020
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7. Molecular Networking and Cultivation Profiling Reveals Diverse Natural Product Classes from an Australian Soil-Derived Fungus Aspergillus sp. CMB-MRF324

Author

Taizong Wu, Angela A. Salim, Paul V. Bernhardt, and Robert J. Capon

Subjects
Aspergillus, Australian soil-derived fungus, aspergillamide, asterriquinone, aflaquinolone, aspulvin, Organic chemistry, QD241-441
Abstract

This study showcases the application of an integrated workflow of molecular networking chemical profiling (GNPS), together with miniaturized microbioreactor cultivation profiling (MATRIX) to successfully detect, dereplicate, prioritize, optimize the production, isolate, characterize, and identify a diverse selection of new chemically labile natural products from the Queensland sheep pasture soil-derived fungus Aspergillus sp. CMB-MRF324. More specifically, we report the new tryptamine enamino tripeptide aspergillamides E–F (7–8), dihydroquinoline-2-one aflaquinolones H–I (11–12), and prenylated phenylbutyrolactone aspulvinone Y (14), along with an array of known co-metabolites, including asterriquinones SU5228 (9) and CT5 (10), terrecyclic acid A (13), and aspulvinones N-CR (15), B (16), D (17), and H (18). Structure elucidation was achieved by a combination of detailed spectroscopic and chemical analysis, biosynthetic considerations, and in the case of 11, an X-ray crystallographic analysis.

Published
2022
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8. Noonindoles A–F: Rare Indole Diterpene Amino Acid Conjugates from a Marine-Derived Fungus, Aspergillus noonimiae CMB-M0339

Author

Sarani Kankanamge, Zeinab G. Khalil, Paul V. Bernhardt, and Robert J. Capon

Subjects
indole diterpene, noonindole, marine-derived fungus, Aspergillus noonimiae, antifungal, Australia, Biology (General), QH301-705.5
Abstract

Analytical scale chemical/cultivation profiling prioritized the Australian marine-derived fungus Aspergillus noonimiae CMB-M0339. Subsequent investigation permitted isolation of noonindoles A–F (5–10) and detection of eight minor analogues (i–viii) as new examples of a rare class of indole diterpene (IDT) amino acid conjugate, indicative of an acyl amino acid transferase capable of incorporating a diverse range of amino acid residues. Structures for 5–10 were assigned by detailed spectroscopic and X-ray crystallographic analysis. The metabolites 5–14 exhibited no antibacterial properties against G-ve and G+ve bacteria or the fungus Candida albicans, with the exception of 5 which exhibited moderate antifungal activity.

Published
2022
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9. Borylated 2,3,4,5-Tetrachlorophthalimide and Their 2,3,4,5-Tetrachlorobenzamide Analogues: Synthesis, Their Glycosidase Inhibition and Anticancer Properties in View to Boron Neutron Capture Therapy

Author

David M. Campkin, Yuna Shimadate, Barbara Bartholomew, Paul V. Bernhardt, Robert J. Nash, Jennette A. Sakoff, Atsushi Kato, and Michela I. Simone

Subjects
boron, phthalimide, benzamide, glycosidase, cancer, boron neutron capture therapy, Organic chemistry, QD241-441
Abstract

Tetrachlorinated phthalimide analogues bearing a boron-pinacolate ester group were synthesised via two synthetic routes and evaluated in their glycosidase modulating and anticancer properties, with a view to use them in boron neutron capture therapy (BNCT), a promising radiation type for cancer, as this therapy does little damage to biological tissue. An unexpected decarbonylation/decarboxylation to five 2,3,4,5-tetrachlorobenzamides was observed and confirmed by X-ray crystallography studies, thus, giving access to a family of borylated 2,3,4,5-tetrachlorobenzamides. Biological evaluation showed the benzamide drugs to possess good to weak potencies (74.7–870 μM) in the inhibition of glycosidases, and to have good to moderate selectivity in the inhibition of a panel of 18 glycosidases. Furthermore, in the inhibition of selected glycosidases, there is a core subset of three animal glycosidases, which is always inhibited (rat intestinal maltase α-glucosidase, bovine liver β-glucosidase and β-galactosidase). This could indicate the involvement of the boron atom in the binding. These glycosidases are targeted for the management of diabetes, viral infections (via a broad-spectrum approach) and lysosomal storage disorders. Assays against cancer cell lines revealed potency in growth inhibition for three molecules, and selectivity for one of these molecules, with the growth of the normal cell line MCF10A not being affected by this compound. One of these molecules showed both potency and selectivity; thus, it is a candidate for further study in this area. This paper provides numerous novel aspects, including expedited access to borylated 2,3,4,5-tetrachlorophthalimides and to 2,3,4,5-tetrachlorobenzamides. The latter constitutes a novel family of glycosidase modulating drugs. Furthermore, a greener synthetic access to such structures is described.

Published
2022
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13. 1-Azahomocubane

Author

Tyler Fahrenhorst-Jones, David L. Marshall, Jed. M. Burns, Gregory K. Pierens, Robert E. Hormann, Allison M. Fisher, Paul V. Bernhardt, Stephen J. Blanksby, G. Paul Savage, Philip E. Eaton, and Craig M. Williams

Subjects
General Chemistry
Abstract

1-Azahomocubane has been prepared 56 years after the parent hydrocarbon. Introduction of a nitrogen atom into this constrained polycyclic environment resulted in minimal changes to the framework geometry, with s-character of the nitrogen lone pair increasing due to strain.

Published
2023
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15. Nitroimidazopyrazinones with Oral Activity against Tuberculosis and Chagas Disease in Mouse Models of Infection

Author

Chee Wei Ang, Brendon M. Lee, Colin J. Jackson, Yuehong Wang, Scott G. Franzblau, Amanda F. Francisco, John M. Kelly, Paul V. Bernhardt, Lendl Tan, Nicholas P. West, Melissa L. Sykes, Alexandra O. Hinton, Raghu Bolisetti, Vicky M. Avery, Matthew A. Cooper, and Mark A.T. Blaskovich

Subjects
Disease Models, Animal, Mice, Nitroimidazoles, Trypanosoma cruzi, Drug Discovery, Animals, Tuberculosis, Molecular Medicine, Chagas Disease, Mycobacterium tuberculosis, Nitroreductases
Abstract

Tuberculosis remains one of the leading causes of death from a single infectious agent, surpassing both AIDS and malaria. In recent years, two bicyclic nitroimidazole drugs, delamanid and pretomanid have been approved to treat this airborne infection. This has spurred a renewed interest in developing new and improved nitroimidazole analogs. We have previously identified a new bicyclic heteroaromatic subclass, the nitroimidazopyrazinones, with substituted analogs showing promising activity against Mycobacterium tuberculosis under both aerobic and hypoxic environments. A second generation of nitroimidazopyrazinones with extended biaryl side chain also possessed good antiparasitic activity against Trypanosoma brucei brucei and Trypanosoma cruzi, suggesting the utility of this new scaffold for development into potential candidates against both tuberculosis and the kinetoplastid parasites which cause neglected tropical diseases. In this study, we further evaluated the properties of nitroimidazopyrazinone derivatives by assessing their selectivity against different mycobacterial species, measuring their reduction potential, and determining the kinetic parameters as substrates of the deazaflavin-dependent nitroreductase (Ddn), which is the activating enzyme of delamanid and pretomanid in M. tuberculosis. We also conducted an in vivo evaluation of a lead compound, MCC8967 that demonstrated a favorable pharmacokinetic profile, with good oral bioavailability and efficacy in an acute M. tuberculosis infection model. Two other promising compounds MCC9481 and MCC9482, with good in vitro activity (IC50 = 0.016 and 0.10 µM, respectively) against T. cruzi, the causative agent for Chagas diseases, were similarly tested for in vivo activity. These compounds also exhibited good oral bioavailability, and transiently reduced the acute-stage parasite burden by >98‒99% at doses of 50 mg/kg once or twice daily, similar to benznidazole at 100 mg/kg once daily. Overall, we have demonstrated that active nitroimidazopyrazinones have potential to be developed as clinical candidates against both tuberculosis and Chagas disease.Author SummaryTuberculosis and parasitic infections continue to impose a significant threat to public health and economic growth worldwide. Most of the efforts to control these diseases still rely on drug treatments with limited effectiveness and significant side effects. There is now an urgent need to develop new treatments to combat these infections. Here, we report the in vitro and in vivo profile of a new bicyclic nitroimidazole subclass, namely nitroimidazopyrazinones, against mycobacteria and Trypanosoma cruzi. We found that derivatives with monocyclic side chains are selective against Mycobacterium tuberculosis, the causative agent of tuberculosis, but not active against other nontuberculosis mycobacteria. In an acute mouse model, they were able to reduce the bacterial load in lungs via oral administration. From a biochemistry perspective, we demonstrated that deazaflavin-dependent nitroreductase (Ddn) could act effectively on nitroimidazopyrazinones, indicating the potential of Ddn as an activating enzyme for these new compounds in M. tuberculosis. We also showed that derivatives with extended biaryl side chain were effective in suppressing infection in an acute T. cruzi infected murine model, with satisfactory oral bioavailability. These findings improve the understanding of the biological profile of nitroimidazopyrazinones for further development as potential antitubercular and antiparasitic agents.

Published
2022
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23. Structural and Functional Insight into the Mechanism of the Fe-S Cluster-Dependent Dehydratase from Paralcaligenes ureilyticus

Author

Tenuun Bayaraa, Thierry Lonhienne, Samuel Sutiono, Okke Melse, Thomas B. Brück, Esteban Marcellin, Paul V. Bernhardt, Mikael Boden, Jeffrey R. Harmer, Volker Sieber, Luke W. Guddat, and Gerhard Schenk

Subjects
Organic Chemistry, General Chemistry, Catalysis
Abstract

Enzyme-catalyzed reaction cascades play an increasingly important role for the sustainable manufacture of diverse chemicals from renewable feedstocks. For instance, dehydratases from the ilvD/EDD superfamily have been embedded into a cascade to convert glucose via pyruvate to isobutanol, a platform chemical for the production of aviation fuels and other valuable materials. These dehydratases depend on the presence of both a Fe-S cluster and a divalent metal ion for their function. However, they also represent the rate-limiting step in the cascade. Here, catalytic parameters and the crystal structure of the dehydratase from Paralcaligenes ureilyticus (PuDHT, both in presence of Mg2+ and Mn2+) were investigated. Rate measurements demonstrate that the presence of stoichiometric concentrations Mn2+ promotes higher activity than Mg2+, but at high concentrations the former inhibits the activity of PuDHT. Molecular dynamics simulations identify the position of a second binding site for the divalent metal ion. Only binding of Mn2+ (not Mg2+) to this site affects the ligand environment of the catalytically essential divalent metal binding site, thus providing insight into an inhibitory mechanism of Mn2+ at higher concentrations. Furthermore, in silico docking identified residues that play a role in determining substrate binding and selectivity. The combined data inform engineering approaches to design an optimal dehydratase for the cascade.

Published
2022

26. Tandem Oxidation-Dehydrogenation of (Hetero)Arylated Primary Alcohols via Perruthenate Catalysis

Author

Sheng Zhao, Craig M. Williams, Yanxiao Jiao, Christopher D. G. Read, Christian J. Bettencourt, Paul V. Bernhardt, Sharon Chow, Peter W. Moore, and Jan Bakker

Subjects
chemistry.chemical_classification, chemistry.chemical_compound, Primary (chemistry), Natural product, chemistry, Tandem, Dehydrogenation, Organic synthesis, General Chemistry, Polyene, Aldehyde, Combinatorial chemistry, Catalysis
Abstract

Tandem oxidative-dehydrogenation of primary alcohols to give α,β-unsaturated aldehydes in one pot are rare transformations in organic synthesis, with only two methods currently available. Reported herein is a novel method using the bench-stable salt methyltriphenylphosphonium perruthenate (MTP3), and a new co-oxidant NEMO·PF6 (NEMO = N-ethyl-N-hydroxymorpholinium) which provides unsaturated aldehydes in low to moderate yields. The Ley-Griffith oxidation of (hetero)arylated primary alcohols with N-oxide co-oxidants NMO (NMO = N-methylmorpholine N-oxide)/NEMO, is expanded by addition of the N-oxide salt NEMO·PF6 to convert the intermediate saturated aldehyde into its unsaturated counterpart. The discovery, method development, reaction scope, and associated challenges of this method are highlighted. The conceptual value of late-stage dehydrogenation in natural product synthesis is demonstrated via the synthesis of a polyene scaffold related to auxarconjugatin B.

Published
2021
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27. Does H3O+ Really Act as a Ligand in the Solid State?

Author

Allan G. Blackman, Paul V. Bernhardt, Rebecca E. Jelley, Lawrence R. Gahan, and Elizabeth H. Krenske

Subjects
Lanthanide, Ligand, Chemistry, Solid-state, Crystallographic data, Protonation, Inorganic Chemistry, Metal, Crystallography, Main group element, Transition metal, visual_art, visual_art.visual_art_medium, Physical and Theoretical Chemistry
Abstract

The evidence for the existence of metal complexes containing HO as a ligand in the solid state is examined. Each of the 68 examples in the Cambridge Structural Database in which HO is bound to a transition metal, lanthanoid, actinoid, or main group metal ion is detailed and critically appraised. It is concluded that none of the reported examples of complexes containing coordinated HO have been unequivocally characterized and that they result from either curation errors or misinterpretations of the crystallographic data. These conclusions are supported by computational techniques, which show that three purported HO complexes based on the 1,4,7,10,13,16,21,24-octa-azabicyclo(8.8.8)hexacosane azacryptand skeleton are better described as aqua complexes, with protonation occurring at the amine ligand.

Published
2021
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28. Synthesis, isolation and characterisation of fluorinated‐benzimidazoisoquinoline regioisomers

Author

Gregory K. Pierens, Ting Xiang Lim, Paul V. Bernhardt, David C. Reutens, and Muneer Ahamed

Subjects
Proton, Computational chemistry, Chemistry, Structural isomer, General Materials Science, Density functional theory, General Chemistry, Nuclear magnetic resonance spectroscopy, Mass spectrometry, Single crystal, Heteronuclear single quantum coherence spectroscopy
Abstract

A pair of novel fluorinated-benzimidazoisoquinoline regioisomers was synthesised and isolated. Initial structural characterisation and identification employed 1D proton, 1D carbon, correlated spectroscopy (COSY), heteronuclear single quantum coherence (HSQC), and heteronuclear multiple bond correlation (HMBC) nuclear magnetic resonance spectroscopy and mass spectrometry. However, the fluorinated regioisomers could not be differentiated using nuclear magnetic resonance (NMR) alone. Density functional theory calculations and single-crystal X-ray diffraction experiments were used to completely characterise and identify the compounds.

Published
2021
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29. Mapping the Pathway to Organocopper(II) Complexes Relevant to Atom Transfer Radical Polymerization

Author

Jeffrey Harmer, Paul V. Bernhardt, and Miguel A. Gonzálvez

Subjects
010405 organic chemistry, Ligand, Atom-transfer radical-polymerization, 010402 general chemistry, 01 natural sciences, Spectral line, 0104 chemical sciences, law.invention, Inorganic Chemistry, Crystallography, chemistry.chemical_compound, chemistry, law, Density functional theory, Amine gas treating, Physical and Theoretical Chemistry, Electron paramagnetic resonance, Acetonitrile, Hyperfine structure
Abstract

The rare organocopper(II) complex [Cu(Metren)(CHCN)] (Metren = tris(2-(dimethylamino)ethyl)amine) has emerged as an important model of potential byproducts in copper-catalyzed atom transfer radical polymerization. This complex has been generated by controlled potential electrolysis of [Cu(Metren)(NCMe)] in the presence of BrCHCN. Time-resolved UV-vis and continuous wave and pulse electron paramagnetic resonance (EPR) spectra identified [Cu(Metren)Br] as an intermediate. Hyperfine sublevel correlation and electron nuclear double resonance spectroscopy of samples at different timepoints reveal signals that are assigned to a C-bound cyanomethylate ligand, with distinct N and H hyperfine coupling constants in comparison with the corresponding N-bound acetonitrile and bromido complexes. The experimental EPR data are supported by density functional theory calculations to understand how the geometries of the species involved produce distinct spectroscopic signatures, and a clear picture of how this unusual organocopper(II) complex is formed has emerged.

Published
2021
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30. The Whistler Traveling Wave Parametric Amplifier Driven by an Ion-Ring Beam Distribution from a Neutral Gas Injection in Space Plasmas

Author

Paul A. Bernhardt

Subjects
Physics, Nuclear and High Energy Physics, Whistler, Waves in plasmas, Plasma, Ponderomotive force, Condensed Matter Physics, Computational physics, Amplitude, Physics::Plasma Physics, Electric field, Physics::Space Physics, Very low frequency, Parametric oscillator
Abstract

A new parametric amplifier model describes the observations of intensified whistler waves produced by a dedicated burn of the BT-4 engine on the Cygnus spacecraft during the NG-13 mission. Ground very low frequency (VLF) radio emissions at 25.2 kHz from a Navy NML transmitter in North Dakota were amplified by 20–30 dB during the Cygnus burn at 480-km altitude and recorded at 1060 km by the e-POP/RRI plasma wave receiver on the SWARM-E satellite. The amplification process starts with charge exchange between the exhaust molecules and the ambient O+ in the ionosphere to produce water vapor ions that spiral around the earth’s magnetic field lines. This ion-velocity-ring distribution generates broadband, oblique-lower-hybrid (OLH) waves, which act as a pump for the parametric amplifier. The nonlinear ponderomotive force on the electrons causes the high-amplitude OLH pump to mix with the input whistler signal, yielding an OLH idler wave. Resonant mixing of the pump and idler electric fields promotes temporal growth in the amplitude of the whistler waves as they propagate through the exhaust cloud. The key features to rocket exhaust-driven amplification (REDA) process are broadband gain, bi-directionality along the magnetic field, pump depletion, phasing, and feedback. Pump depletion limits the intensity of the output whistler waves by wave energy conservation. The total wave energy is the electrostatic energy of the pump and idler lower hybrid waves plus the energy extracted by the propagating whistler signal. The whistler traveling wave parametric amplifier provides an efficient mechanism for active amplification of signals in space.

Published
2021
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31. Experimental and theoretical approaches for the development of 4H-Chromene derivatives as inhibitors of tyrosinase

Author

Paul V. Bernhardt, Rosivaldo S. Borges, José Rogério A. Silva, Jerônimo Lameira, Thiago de Melo e Silva, Craig M. Williams, Edikarlos Brasil, Luciana Morais Canavieira, and Cláudio Nahum Alves

Subjects
chemistry.chemical_classification, Molecular model, biology, Stereochemistry, DPPH, General Chemical Engineering, Tyrosinase, Active site, General Chemistry, Condensed Matter Physics, Melanin, chemistry.chemical_compound, Enzyme, chemistry, Modeling and Simulation, biology.protein, General Materials Science, Binding site, Kojic acid, Information Systems
Abstract

Tyrosinase (TYR) is a key enzyme that catalyzes the synthesis of melanin in plants, microorganisms and mammalian cells. Kojic acid (KA) is a well-known TYR inhibitor widely used as a popular cosmetic skin-lightening ingredient. However, KA is reported to have poor inhibitory activity against pigmentation within intact melanocytes or in clinical assays. In this study, a series of dihydropyrano[3,2-b] chromenedione (DHPC) (1a, 2a, 3a, 4a, 5a, 6a and 7a) and 1,8-dioxooctahydroxanthene (DOHX) (1b, 2b, 3b and 4b) derivatives were evaluated using a DPPH radical-scavenging assay. These results showed that 7a exhibited the most potent radical-scavenging activity. Compound 7a was characterised by X-ray crystallographic studies. Molecular docking was carried out to shed light on the mode of action and types of interaction between the compounds and the target. A metal-binding study suggested that these synthetic heterocyclic compounds may behave as competitive inhibitors for the L-DOPA binding site of the TYR. Finally, molecular modeling provided important insight into the mechanism of binding interactions with the TYR copper active site.

Published
2021
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32. Application of Directed Relational Graph to Air Plasma Chemistry During Plasma Relaxation

Author

Daniel Gordon, George Petrov, S. C. Phillips, Luke Johnson, and Paul A. Bernhardt

Subjects
Nuclear and High Energy Physics, Electron density, Speedup, Atmospheric-pressure plasma, Plasma, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, Computational physics, Reduction (complexity), Chemical species, 0103 physical sciences, Relaxation (physics), Order of magnitude
Abstract

Computations involving air plasma chemistry are often confronted with the necessity to deal with a large number of chemical species and reactions. In this article, an algorithm is demonstrated, which efficiently identifies and eliminates unimportant species and reactions, which can lead to a computational speedup of up to an order of magnitude. The proposed reduction method is independent of and can be combined with other time-saving algorithms, such as adaptive time stepping. The method was applied to two test cases: relaxation of plasma with hot neutrals (initial $T_{g} \gg T_{e}$ ), which may occur due to shock-induced heating during meteor reentry at high altitude and the relaxation of atmospheric pressure plasma with hot electrons (initial $T_{e} \gg T_{g}$ ), which may result from a laser-induced plasma breakdown. In the first scenario, the full set of 54 species and 1010 reactions was reduced to ten species and 106 reactions while achieving less than 3% error in the electron density. For the second case, a set containing 16 species and 195 reactions was sufficient. The test cases demonstrate that the directed relational graph method can reduce significantly the number of chemical species and reactions, thus streamlining computations. The algorithm is expected to have wider application and a strong impact on the reduction of extremely large data sets, e.g., hydrocarbons, chemistry with large dynamic time scales, and computations involving plasma chemistry in multidimensional simulations.

Published
2021
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33. Scopularides Revisited: Molecular Networking Guided Exploration of Lipodepsipeptides in Australian Marine Fish Gastrointestinal Tract-Derived Fungi

Author

Ahmed H. Elbanna, Zeinab G. Khalil, Paul V. Bernhardt, and Robert J. Capon

Subjects
Scopulariopsis sp., Beauveria sp., lipodepsipeptides, scopularides, GNPS, marine fungal biodiscovery, Biology (General), QH301-705.5
Abstract

Chemical analysis of a cultivation of an Australian Mugil mullet gastrointestinal tract (GIT) derived fungus, Scopulariopsis sp. CMB-F458, yielded the known lipodepsipeptides scopularides A (1) and B (2). A comparative global natural product social (GNPS) molecular networking analysis of ×63 co-isolated fungi, detected two additional fungi producing new scopularides, with Beauveria sp. CMB-F585 yielding scopularides C−G (3−7) and Scopulariopsis sp. CMB-F115 yielding scopularide H (8). Structures inclusive of absolute configurations were assigned by detailed spectroscopic and C3 Marfey’s analysis, together with X-ray analyses of 3 and 8, and biosynthetic considerations. Scopularides A−H (1−8) did not exhibit significant growth inhibitory activity against a selection of Gram positive (+ve) and negative (−ve) bacteria, a fungus, or a panel of three human carcinoma cell lines.

Published
2019
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34. Neobulgarones Revisited: Anti and Syn Bianthrones from an Australian Mud Dauber Wasp Nest-Associated Fungus, Penicillium sp. CMB-MD22

Author

Zeinab G. Khalil, Paul V. Bernhardt, Robert J. Capon, and Ahmed H. Elbanna

Subjects
Pharmacology, Antifungal, biology, 010405 organic chemistry, medicine.drug_class, Chemistry, Stereochemistry, Organic Chemistry, Pharmaceutical Science, Fungus, biology.organism_classification, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Mud dauber, 010404 medicinal & biomolecular chemistry, Complementary and alternative medicine, Drug Discovery, Penicillium, Molecular networking, medicine, Thermal equilibration, Molecular Medicine, Chemical defense, Nest (protein structural motif)
Abstract

We report on the chemical analysis of a mud dauber wasp nest-associated fungus, Penicillium sp. CMB-MD22, leading to the discovery and structure elucidation of three known (1-3) and two new (4 and 5) anthrones, and a family of new and known bianthrones, neobulgarones 6-23. Detection and structure elucidation of 1-23 was supported by detailed spectroscopic analysis, as well as chemical (thermal) transformations, and global natural products social (GNPS) molecular networking. An empirical approach using HPLC retention times was effective at differentiating anti from syn bianthrone isomers, while a facile thermal equilibration was shown to favor anti over syn isomers. The neobulgarones 6-23 are natural products, and a crude extract rich in 6-23 exhibits selective antifungal activity against a co-isolated mud dauber wasp nest-associated fungus, suggestive of a possible ecological role as an antifungal chemical defense.

Published
2021
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35. Amaurones A–K: Polyketides from the Fish Gut-Derived Fungus Amauroascus sp. CMB-F713

Author

Paul V. Bernhardt, Taizong Wu, Angela A. Salim, and Robert J. Capon

Subjects
Pharmacology, Partial hydrolysis, biology, 010405 organic chemistry, Stereochemistry, Chemistry, Organic Chemistry, Pharmaceutical Science, Fungus, biology.organism_classification, 01 natural sciences, Mullet, 0104 chemical sciences, Analytical Chemistry, 010404 medicinal & biomolecular chemistry, Polyketide, chemistry.chemical_compound, Complementary and alternative medicine, Amauroascus, Intramolecular force, Drug Discovery, Molecular Medicine, %22">Fish , Triol
Abstract

Using a molecular networking guided strategy, chemical analysis of the Australian mullet fish gastrointestinal tract-derived fungus Amauroascus sp. CMB-F713 yielded a family of polyketide pyrones, amaurones A-I (1-9), featuring an unprecedented carbon skeleton. Structures were assigned to 1-9 by detailed spectroscopic analysis (including X-ray analysis of 1), biosynthetic considerations, and chemical interconversions. For example, the orthoacetate 5 was unstable when stored dry at room temperature, transforming to the monoacetates 2 and 3, while mild heating (40 °C) prompted quantitative conversion of 3 to 2, via an intramolecular trans-acetylation. Likewise, during handling, the monoacetate 1 was prone to intramolecular trans-acetylation, leading to an equilibrium mixture with the isomeric monoacetate amaurone J (10), confirmed when partial hydrolysis of the diacetate 2 yielded the monoacetates 1 and 10 and the triol amaurone K (11).

Published
2021
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36. Understanding the Mechanistic Requirements for Efficient and Stereoselective Alkene Epoxidation by a Cytochrome P450 Enzyme

Author

Paul V. Bernhardt, Joshua S. Harbort, Alicia M. Kirk, Stephen Bell, M.N. Podgorski, Elizabeth H. Krenske, Luke R. Churchman, Rebecca R. Chao, Jeffrey Harmer, John B. Bruning, T. Coleman, and James J. De Voss

Subjects
chemistry.chemical_classification, 010405 organic chemistry, Chemistry, Alkene, Stereochemistry, Reactive intermediate, Epoxide, General Chemistry, 010402 general chemistry, 01 natural sciences, Catalysis, 0104 chemical sciences, Hydroxylation, chemistry.chemical_compound, Catalytic cycle, Stereoselectivity, Chemoselectivity
Abstract

The cytochrome P450 (CYP) family of heme monooxygenase enzymes commonly catalyzes enantioselective hydroxylation and epoxidation reactions. Epoxidation reactions have been hypothesized to proceed via multiple mechanisms involving different reactive intermediates. Here, we use activity, spectroscopic, structural, and molecular dynamics data to investigate the activity and stereoselectivity of 4-vinylbenzoic acid epoxidation by the bacterial enzyme CYP199A4 from Rhodopseudomonas palustris HaA2. The epoxidation of 4-vinylbenzoic acid by CYP199A4 proceeded with high enantioselectivity, giving the (S)-epoxide in 99% ee at an activity of 220 nmol nmol-CYP–1 min–1. Optical and EPR spectroscopy, redox potential measurements, and the crystal structure of 4-vinylbenzoic acid-bound CYP199A4 indicated the partial retention of an aqua ligand at the heme center in the presence of the substrate, providing a justification of the lower activity (∼20%) compared to the oxidative demethylation of 4-methoxybenzoic acid. Mutagenesis at the conserved acid–alcohol pair (D251/T252), which perturbs the generation of the reactive oxygen intermediates, was employed to investigate their role in epoxidation reactions. The T252A mutant increased the rate of turnover of the catalytic cycle, but an elevation in hydrogen peroxide generation via uncoupling resulted in a similar rate of epoxide formation. The activity of epoxidation significantly reduced with the D251N mutant. The chemoselectivity and stereoselectivity of the epoxidation reaction were maintained in the turnovers by these mutants. Overall, there was little evidence that other intermediates, aside from the archetypal reactive ferryl porphyrin cation radical, Compound I, contributed significantly to the epoxidation reaction. The observation of the high selectivity for the (S)-enantiomer was rationalized by molecular dynamics simulations. When the arrangement of the alkene and the active intermediate approached an ideal transition state structure for epoxidation, one face of the alkene was more often exposed to the iron oxo unit.

Published
2021
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37. Nickel coordination chemistry of bis(dithiocarbazate) Schiff base ligands; metal and ligand centred redox reactions

Author

Jessica K. Bilyj, Paul V. Bernhardt, and Nicole V. Silajew

Subjects
chemistry.chemical_classification, Schiff base, 010405 organic chemistry, Ligand, Acetylacetone, chemistry.chemical_element, 010402 general chemistry, 01 natural sciences, Redox, 3. Good health, 0104 chemical sciences, Coordination complex, Inorganic Chemistry, Metal, chemistry.chemical_compound, Nickel, chemistry, visual_art, Polymer chemistry, visual_art.visual_art_medium, Linkage isomerism
Abstract

The tetradentate N2S2 Schiff base ligands derived from condensing S-methyl or S-benzyl dithiocarbazate with acetylacetone have been found to be versatile chelators for copper and able to stabilise unusually high oxidation states. Herein we report their Ni coordination chemistry and a variety of products ensue depending on the reaction conditions. Unusual examples of linkage isomerism have been observed upon complexation with nickel acetate and these asymmetrically and symmetrically coordinated NiIIN2S2 complexes have been characterised both crystallographically and in solution by NMR. These compounds react rapidly with dioxygen and the ligands are particularly susceptible to oxidation which lead to various products including dinuclear NiII complexes derived from radical homocoupling reactions. These dinuclear NiII complexes are also redox active and spectroelectrochemistry has revealed new electronic transitions from their formally NiIII/NiII mixed valent state.

Published
2021
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38. Activation of PKC supports the anticancer activity of tigilanol tiglate and related epoxytiglianes

Author

Craig M. Williams, Natasa Broit, Alberto Pagani, Giovanni Appendino, Lidia A. Maslovskaya, Jenny P. Johns, Jacinta L. Simmons, Glen M. Boyle, Stefan Elmlinger, Blake Ferguson, Peter G. Parsons, Achim Porzelle, Paul Reddell, Paul V. Bernhardt, Pei Yi Yap, Jason K. Cullen, Andrei I. Savchenko, Victoria A. Gordon, and Paul Malek Mirzayans

Subjects
0301 basic medicine, Gene isoform, Science, Antineoplastic Agents, Mechanism of action, Article, law.invention, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, law, Cell Line, Tumor, medicine, Animals, Potency, Structural motif, Protein Kinase C, Protein kinase C, Natural products, Multidisciplinary, Cancer, medicine.disease, In vitro, Tigilanol tiglate, Enzyme Activation, 030104 developmental biology, chemistry, 030220 oncology & carcinogenesis, Cancer research, Suppressor, Medicine, Diterpenes, Signal Transduction
Abstract

The long-standing perception of Protein Kinase C (PKC) as a family of oncoproteins has increasingly been challenged by evidence that some PKC isoforms may act as tumor suppressors. To explore the hypothesis that activation, rather than inhibition, of these isoforms is critical for anticancer activity, we isolated and characterized a family of 16 novel phorboids closely-related to tigilanol tiglate (EBC-46), a PKC-activating epoxytigliane showing promising clinical safety and efficacy for intratumoral treatment of cancers. While alkyl branching features of the C12-ester influenced potency, the 6,7-epoxide structural motif and position was critical to PKC activation in vitro. A subset of the 6,7-epoxytiglianes were efficacious against established tumors in mice; which generally correlated with in vitro activation of PKC. Importantly, epoxytiglianes without evidence of PKC activation showed limited antitumor efficacy. Taken together, these findings provide a strong rationale to reassess the role of PKC isoforms in cancer, and suggest in some situations their activation can be a promising strategy for anticancer drug discovery.

Published
2021

39. A Preliminary Plan to Quickly Restore Utility to the Arecibo 305m Telescope

Author

Dale C. Ferguson, James K. Breakall, Paul A. Bernhardt, Felix Fernandez, Christiano Brum, Alfredo III Santoni-Ruiz, Robert B. Kerr, and Robert L. Williams

Subjects
Astronomy and Astrophysics, Instrumentation
Abstract

Since the fall of the Arecibo 305[Formula: see text]m telescope platform on 2020 December 1, there has been much discussion of building a new Arecibo telescope or rebuilding the facility that was destroyed. In the collapse, the top of the three platform support towers was sheared off, and the feed arm fell free from the swinging platform and destroyed 25% of the dish. Fortunately, the Control Building, the home of the computers, spectrometers, masers, atomic clocks, 430[Formula: see text]MHz Klystrons, etc., was spared. By replacing the main dish support cables and resurfacing with coarse mesh, the main dish can be repaired as a reflector [Formula: see text] operation. By replacing the damaged aluminum panels to make the dish whole again, RF operations at up to 500[Formula: see text]MHz can be resumed. In this paper, we outline the steps that can be taken to restore High Frequency (HF, 3–30[Formula: see text]MHz) ionospheric heating, 430[Formula: see text]MHz ionospheric incoherent scattering radar, passive radio observations of satellite arcing and pulsars, and to extend the field of regard to 47∘ from the zenith. This would restore and improve much of the utility of the Arecibo dish. Part of this plan involves supporting, positioning and pointing novel point feeds from lightweight football-camera-like cables, strung from the rebuilt tower tops. It is believed that the dish may thus become broadly useful long before replacement facilities can be engineered and constructed.

Published
2022
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40. Organocopper(ii) complexes: new catalysts for carbon-carbon bond formation

Author

Miguel A, Gonzálvez, Chuyi, Su, Craig M, Williams, and Paul V, Bernhardt

Abstract

Organocopper(ii) complexes are a rarity while organocopper(i) complexes are commonplace in chemical synthesis. In the course of building a strategy to generate organocopper(ii) species utilizing electrochemistry, a method to form compounds with Cu

Published
2022

41. Dihydroxy‐Acid Dehydratases From Pathogenic Bacteria: Emerging Drug Targets to Combat Antibiotic Resistance

Author

Tenuun Bayaraa, Jose Gaete, Samuel Sutiono, Julia Kurz, Thierry Lonhienne, Jeffrey R. Harmer, Paul V. Bernhardt, Volker Sieber, Luke Guddat, and Gerhard Schenk

Subjects
Campylobacter jejuni, Iron-Sulfur Proteins, Staphylococcus aureus, Bacterial Proteins, Drug Resistance, Bacterial, Organic Chemistry, General Chemistry, Hydro-Lyases, Catalysis
Abstract

There is an urgent global need for the development of novel therapeutics to combat the rise of various antibiotic-resistant superbugs. Enzymes of the branched-chain amino acid (BCAA) biosynthesis pathway are an attractive target for novel anti-microbial drug development. Dihydroxy-acid dehydratase (DHAD) is the third enzyme in the BCAA biosynthesis pathway. It relies on an Fe-S cluster for catalytic activity and has recently also gained attention as a catalyst in cell-free enzyme cascades. Two types of Fe-S clusters have been identified in DHADs, i.e. [2Fe-2S] and [4Fe-4S], with the latter being more prone to degradation in the presence of oxygen. Here, we characterise two DHADs from bacterial human pathogens, Staphylococcus aureus and Campylobacter jejuni (SaDHAD and CjDHAD). Purified SaDHAD and CjDHAD are virtually inactive, but activity could be reversibly reconstituted in vitro (up to ∼19,000-fold increase with k

Published
2022
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45. Crystal structure of 6-azido-6-deoxy-1,2-O-isopropylidene-α-d-glucofuranose

Author

Paul V. Bernhardt, Michela I. Simone, Ian A. van Altena, and Adam Wood

Subjects
crystal structure, Chemistry, Hydrogen bond, glycosidase inhibition, iminosugar, Regioselectivity, General Chemistry, Crystal structure, Dihedral angle, Condensed Matter Physics, Ring (chemistry), d-glucose, Medicinal chemistry, lcsh:Chemistry, chemistry.chemical_compound, tosylation, lcsh:QD1-999, Furan, Dioxolane, regioselectivity, azide, General Materials Science, Azide
Abstract

Short syntheses to high Fsp 3 index natural-product analogues such as iminosugars are of paramount importance in the investigation of their biological activities and reducing the use of protecting groups is an advantageous synthetic strategy. An isopropylidene group was employed towards the synthesis of seven-membered ring iminosugars and the title compound, C9H15N3O5, was crystallized as an intermediate, in which the THF ring is twisted and the dioxolane ring adopts an envelope conformation: the dihedral angle between the rings is 67.50 (13)°. In the crystal, the hydroxyl groups participate in O—H...(O,O) and O—H...N hydrogen-bonding interactions, which generate chains of molecules propagating parallel to the a-axis direction. There is a notable non-classical C—H...O hydrogen bond, which cross-links the [100] chains into (001) sheets.

Published
2020

46. Cytochrome cReductase is a Key Enzyme Involved in the Extracellular Electron Transfer Pathway towards Transition Metal Complexes inPseudomonas Putida

Author

Bin Lai, Paul V. Bernhardt, and Jens O. Krömer

Subjects
Proteomics, redox mediator, Stereochemistry, General Chemical Engineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Electron Transport, Electron transfer, Coordination Complexes, Transition Elements, Extracellular, Environmental Chemistry, Cytochrome c oxidase, General Materials Science, Phosphorylation, Sodium Azide, chemistry.chemical_classification, cytochrome c reductase, Full Paper, biology, Pseudomonas putida, Cytochrome c, NADH dehydrogenase, Cytochromes c, bioelectrochemical system, Electrochemical Techniques, Periplasmic space, Full Papers, electron transfer, 021001 nanoscience & nanotechnology, biology.organism_classification, 0104 chemical sciences, General Energy, Enzyme, chemistry, cardiovascular system, biology.protein, lipids (amino acids, peptides, and proteins), Oxidoreductases, 0210 nano-technology, Oxidation-Reduction, Metabolic Networks and Pathways
Abstract

Mediator‐based extracellular electron transfer (EET) pathways can balance the redox metabolism of microbes. However, such electro‐biosynthesis processes are constrained by the unknown underlying EET mechanisms. In this paper, Pseudomonas putida was studied to systematically investigate its EET pathway to transition metal complexes (i. e., [Fe(CN)6]3−/4− and [Co(bpy)3]3+/2+; bpy=2,2′‐bipyridyl) under anaerobic conditions. Comparative proteomics showed the aerobic respiratory components were upregulated in a bioelectrochemical system without oxygen, suggesting their potential contribution to EET. Further tests found inhibiting cytochrome c oxidase activity by NaN3 and NADH dehydrogenase by rotenone did not significantly change the current output. However, the EET pathway was completely blocked, while cytochrome c reductase activity was inhibited by antimycin A. Although it cannot be excluded that cytochrome c and the periplasmic subunit of cytochrome c oxidase donate electrons to the transition metal complexes, these results strongly demonstrate that cytochrome c reductase is a key complex for the EET pathway., Liquid wires for biohybrid systems: The electron transfer pathway between redox metal‐complexes and biological respiratory proteins is systematically investigated and revealed. Such a pathway can be readily applied to many non‐electrogenic microorganisms and thus expand the application of microbial electrochemical technology in many fields such as industrial biotechnology and biosensors.

Published
2020
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47. Kalparinol, a Salvialane (Isodaucane) Sesquiterpenoid Derived from Native Australian Dysphania Species That Suggests a Putative Biogenetic Link to Zerumbone

Author

Paul V. Bernhardt, Glen M. Boyle, James A. Fraser, Craig M. Williams, Yuen Ping Tan, Kylie A. Agnew‐Francis, and Andrei I. Savchenko

Subjects
Pharmacology, 010405 organic chemistry, Dysphania, fungi, Organic Chemistry, Pharmaceutical Science, 15. Life on land, Biology, 010402 general chemistry, biology.organism_classification, 01 natural sciences, humanities, 0104 chemical sciences, Analytical Chemistry, Complementary and alternative medicine, Phytochemical, Genus, Drug Discovery, Botany, Molecular Medicine
Abstract

Dysphania is a genus of plants endemic to the Australian continent, occurring primarily in arid and temperate zones. Despite their prevalence, very little in the way of phytochemical and/or bioacti...

Published
2020
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48. Dysidealactams and Dysidealactones: Sesquiterpene Glycinyl-Lactams, Imides, and Lactones from a Dysidea sp. Marine Sponge Collected in Southern Australia

Author

Angela A. Salim, Ahmed H. Elbanna, Laizuman Nahar, Robert J. Capon, Paul V. Bernhardt, and Shamsunnahar Khushi

Subjects
Pharmacology, Marine sponges, 010405 organic chemistry, Organic Chemistry, Pharmaceutical Science, Biology, biology.organism_classification, Sesquiterpene, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, 010404 medicinal & biomolecular chemistry, Sponge, chemistry.chemical_compound, Complementary and alternative medicine, chemistry, Drug Discovery, Molecular networking, Botany, Molecular Medicine
Abstract

A GNPS molecular networking approach mapped a library of 960 southern Australian marine sponges and prioritized Dysidea sp. (CMB-01171) for chemical investigation. Although the published natural pr...

Published
2020
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49. Chrysosporazines F–M: P-Glycoprotein Inhibitory Phenylpropanoid Piperazines from an Australian Marine Fish Derived Fungus, Chrysosporium sp. CMB-F294

Author

Zeinab G. Khalil, Robert J. Capon, Paul V. Bernhardt, Osama G. Mohamed, Ahmed H. Elbanna, and Angela A. Salim

Subjects
Pharmacology, biology, Phenylpropanoid, 010405 organic chemistry, Stereochemistry, Organic Chemistry, Absolute configuration, Pharmaceutical Science, ATP-binding cassette transporter, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Multiple drug resistance, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, Complementary and alternative medicine, chemistry, Drug Discovery, biology.protein, Molecular Medicine, Structure–activity relationship, Efflux, Acetamide, P-glycoprotein
Abstract

Chemical analysis of the fungus Chrysosporium sp. CMB-F294 isolated from the gastrointestinal tract of a market-purchased specimen of Mugil mullet yielded eight new alkaloids, belonging to a rare class of phenylpropanoid piperazines. Chrysosporazines F–M (1–8) occur as an equilibrium mixture of acetamide rotamers and feature unprecedented carbocyclic and heterocyclic scaffolds. Structures inclusive of absolute configuration were assigned by detailed spectroscopic analysis, supported by biosynthetic considerations. Structure–activity relationship studies determined that selected chrysosporazines were promising noncytotoxic inhibitors of the multidrug resistance efflux pump P-glycoprotein (P-gp), capable of reversing doxorubicin resistance in P-gp-overexpressing human colon carcinoma cells (SW620 Ad300). Chrysosporazine F (1) was particularly noteworthy, with a 2.5 μM cotreatment inducing a doxorubicin gain in sensitivity (GS 14) > 2-fold that of the positive control verapamil (GS 6.1).

Published
2020
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50. Humulene Diepoxides from the Australian Arid Zone Herb Dysphania : Assignment of Aged Hops Constituents

Author

Paul V. Bernhardt, Julian Hofmann, Glen M. Boyle, Craig M. Williams, Kylie A. Agnew‐Francis, Andrei I. Savchenko, James A. Fraser, Yuen Ping Tan, Thomas H. Shellhammer, and Scott R. Lafontaine

Subjects
Antifungal, Phytochemistry, food.ingredient, Humulene, biology, 010405 organic chemistry, Stereochemistry, Dysphania, medicine.drug_class, Organic Chemistry, Diastereomer, General Chemistry, 010402 general chemistry, biology.organism_classification, 01 natural sciences, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, food, chemistry, Herb, medicine, Arid zone
Abstract

Dysphania is an abundant genus of plants, many of which are endemic to the Australian continent, occurring primarily in arid and temperate zones. Despite their prevalence, very few investigations into the phytochemistry of native Dysphania have been undertaken. Described herein, is the isolation and elucidation of two enantiomeric diastereomers of humulene diepoxide C from D. kalpari and D. rhadinostachya, of which unassigned diastereomers of humulene diepoxide C have been previously reported as components in beer brewed from aged hops. In addition, two (+)-humulene diepoxiols (humulene diepoxiol C-I and C-II) were isolated from D. rhadinostachya. Analysis of Chinook hops oil confirmed the presence of both humulene diepoxide C-I and C-II as trace components, and in turn enabled GC-MS peak assignment to the relative stereochemistry. Anticancer assays did not reveal any significant activity for the (+)-humulene diepoxides. Antifungal assays showed good activity against a drug-resistant strain of C. auris, with MIC50 values of 8.53 and 4.91 μm obtained for (+)-humulene diepoxide C-I and C-II, respectively.

Published
2020
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