Report Criteria
Type: Journal
Instruments: NDF - Biodeuteration; NDF - Chemical Deuteration
  1. Dunstan, M; Giansiracusa, MJ; Calvello, S; Sorace, L; Krause-Heuer, AM; Soncini, A; Mole, R and Boskovic, C, Ab Initio-based Determination of Lanthanoid-Radical Exchange as Visualised by Inelastic Neutron Scattering, Chem. Sci. 15(12), 4466-4477 (2024) (from NDF - Chemical Deuteration, Pelican, Physical Properties Measurement System) DOI
  2. Ghosh, S; Melton, LD; Kihara, S; Huang, R; Leung, IKH; Rekas, A; Knott, R; Seal, C; Nieuwoudt, M and McGillivray, DJ, Probing the binding sites of bioactives with β-Lactoglobulin at different gastrointestinal pHs, Food Hydrocolloid. 153, Art. No. 110040 (2024) (from NDF - Biodeuteration, Small-Angle X-ray Scattering) DOI
  3. Gudlur, S; Ferreira, FV; Ting, JSM; Domene, C; Maricar, S; Le Brun, AP; Yepuri, N; Moir, M; Russell, R; Darwish, T; Miserez, A and Cárdenas, M, pH-dependent interactions of coacervate-forming histidine-rich peptide with model lipid membranes, Frontiers in Soft Matter 3, Art. No. 1339496 (2024) (from NDF - Biodeuteration, NDF - Chemical Deuteration, Spatz) DOI
  4. Hammond, OS; Morris, DC; Bousrez, G; Li, S; de Campo, L; Recsei, C; Moir, M; Glavatskih, S; Rutland, MW and Mudring, A-V, Small-Angle Neutron Scattering Insights into 2-Ethylhexyl Laurate: A Remarkable Bioester, ACS Sustainable Chem. Eng. 12(5), 1816-1821 (2024) (from Bilby, NDF - Chemical Deuteration) DOI
  5. Li, S; Hammond, OS; Nelson, A; de Campo, L; Moir, M; Recsei, C; Shimpi, MR; Glavatskih, S; Pilkington, GA; Mudring, A-V and Rutland, MW, Anion Architecture Controls Structure and Electroresponsivity of Anhalogenous Ionic Liquids in a Sustainable Fluid, J. Phys. Chem. B 128(17), 4231-4242 (2024) (from Bilby, NDF - Chemical Deuteration, Platypus) DOI
  6. Raynes, JK; Mata, J; Wilde, KL; Carver, JA; Kelly, SM and Holt, C, Structure of biomimetic casein micelles: Critical tests of the hydrophobic colloid and multivalent-binding models using recombinant deuterated and phosphorylated β-casein, Journal of Structural Biology: X 9, Art. No. 100096 (2024) (from NDF - Biodeuteration, Quokka) DOI
  7. Correa, Y; Del Giudice, R; Waldie, S; Thépaut, M; Micciula, S; Gerelli, Y; Moulin, M; Delaunay, C; Fieschi, F; Pichler, H; Haertlein, M; Forsyth, VT; Le Brun, A; Moir, M; Russell, RA; Darwish, T; Brinck, J; Wodaje, T; Jansen, M; Martín, C; Roosen - Runge, F and Cárdenas, M, High-Density Lipoprotein function is modulated by the SARS-CoV-2 spike protein in a lipid-type dependent manner, J. Colloid Interface Sci. 645, 627-638 (2023) (from NDF - Biodeuteration, Spatz) DOI
  8. Frost, C; Wiedbrauk, S; Graham, E; Yepuri, NR; Nelson, ARJ and Boase, NRB, Measuring the Interactions and Influence of Amphipathic Copolymers with Lipid Monolayers and Bilayers as Models of Biological Membranes, Macromolecular Chemistry and Physics 224(24), Art. No. 2300315 (2023) (from NDF - Chemical Deuteration, Platypus) DOI
  9. Hossain, KR; Turkewitz, DR; Holt, SA; Le Brun, AP and Valenzuela, SM, Sterol Structural Features’ Impact on the Spontaneous Membrane Insertion of CLIC1 into Artificial Lipid Membranes, Langmuir 39(9), 3286-3300 (2023) (from NDF - Biodeuteration, Platypus) DOI
  10. Lankage, UM; Holt, SA; Bridge, S; Cornell, B and Cranfield, CG, Triglyceride-Tethered Membrane Lipase Sensor, ACS Appl. Mater. Interfaces 15(45), 52237-52243 (2023) (from NDF - Chemical Deuteration, Spatz) DOI
  11. Milogrodzka, I; Nguyen Pham, DT; Sama, GR; Samadian, H; Zhai, J; de Campo, L; Kirby, NM; Scott, TF; Banaszak Holl, MM and van ‘t Hag, L, Effect of Cholesterol on Biomimetic Membrane Curvature and Coronavirus Fusion Peptide Encapsulation, ACS Nano 17(9), 8598-8612 (2023) (from Bilby, NDF - Chemical Deuteration, Small-Angle X-ray Scattering) DOI
  12. Tsai, W-J; Lai, Y-H; Shi, Y-A; Hammel, M; Duff, AP; Whitten, AE; Wilde, KL; Wu, C-M; Knott, R; Jeng, US; Kang, C-Y; Hsu, C-Y; Wu, J-L; Tsai, P-J; Chiang-Ni, C; Wu, J-J; Lin, Y-S; Liu, C-C; Senda, T and Wang, S, Structural basis underlying the synergism of NADase and SLO during group A Streptococcus infection, Commun. Biol. 6(1), 124 (2023) (from NDF - Biodeuteration, Quokka, Small-Angle X-ray Scattering) DOI
  13. Balu, R; Wanasingha, N; Mata, JP; Rekas, A; Barrett, S; Dumsday, G; Thornton, AW; Hill, AJ; Roy Choudhury, N and Dutta, NK, Crowder-directed interactions and conformational dynamics in multistimuli-responsive intrinsically disordered protein, Science Advances 8(51), Art. No. abq2202 (2022) (from Kookaburra, NDF - Biodeuteration, Quokka, Small-Angle X-ray Scattering) DOI
  14. Dunstan, MA; Cagnes, M; Phonsri, W; Murray, KS; Mole, RA and Boskovic, C, Magnetic properties and neutron spectroscopy of lanthanoid-{tetrabromocatecholate/18-crown-6} single-molecule magnets, Aus. J. Chem. 75, 595-609 (2022) (from NDF - Chemical Deuteration, Pelican, Physical Properties Measurement System) DOI
  15. Golub, M; Gätcke, J; Subramanian, S; Kölsch, A; Darwish, T; Howard, JK; Feoktystov, A; Matsarskaia, O; Martel, A; Porcar, L; Zouni, A and Pieper, J, “Invisible” Detergents Enable a Reliable Determination of Solution Structures of Native Photosystems by Small-Angle Neutron Scattering, J. Phys. Chem. B 126(15), 2824-2833 (2022) (from NDF - Chemical Deuteration) DOI
  16. Johansen, NT; Bonaccorsi, M; Bengtsen, T; Larsen, AH; Tidemand, FG; Pedersen, MC; Huda, P; Berndtsson, J; Darwish, T; Yepuri, NR; Martel, A; Pomorski, TG; Bertarello, A; Sansom, M; Rapp, M; Crehuet, R; Schubeis, T; Lindorff-Larsen, K; Pintacuda, G and Arleth, L, Mg2+-dependent conformational equilibria in CorA and an integrated view on transport regulation, eLife 11, e71887 (2022) (from NDF - Chemical Deuteration, Quokka) DOI
  17. Petit, GA; Mohanty, B; McMahon, RM; Nebl, S; Hilko, DH; Wilde, KL; Scanlon, MJ; Martin, JL and Halili, MA, Identification and characterization of two drug-like fragments that bind to the same cryptic binding pocket of Burkholderia pseudomallei DsbA, Acta Crystallogr. D 78, 75-90 (2022) (from NDF - Biodeuteration) DOI
  18. Pietras, Z; Duff, AP; Morad, V; Wood, K; Jeffries, CM and Sunnerhagen, M, Production and characterisation of modularly deuterated UBE2D1–Ub conjugate by small angle neutron and X-ray scattering, Eur. Biophys. J. Biophy. 51, 569-577 (2022) (from NDF - Biodeuteration, Quokka) DOI
  19. Reddy, AB; Pilkington, GA; Rutland, MW and Glavatskih, S, Tribotronic control of an ionic boundary layer in operando extends the limits of lubrication, Sci Rep 12(1), Art. No. 20479 (2022) (from NDF - Chemical Deuteration, Platypus) DOI
  20. Ruskamo, S; Raasakka, A; Pedersen, JS; Martel, A; Škubník, K; Darwish, T; Porcar, L and Kursula, P, Human myelin proteolipid protein structure and lipid bilayer stacking, Cell. Mol. Life Sci. 79(8), 419 (2022) (from NDF - Chemical Deuteration) DOI
  21. Santamaria, A; Batchu, KC; Matsarskaia, O; Prévost, SF; Russo, D; Natali, F; Seydel, T; Hoffmann, I; Laux, V; Haertlein, M; Darwish, TA; Russell, RA; Corucci, G; Fragneto, G; Maestro, A and Zaccai, NR, Strikingly Different Roles of SARS-CoV-2 Fusion Peptides Uncovered by Neutron Scattering, J. Am. Chem. Soc. 144(7), 2968-2979 (2022) (from NDF - Chemical Deuteration) DOI
  22. Tamura, K; Akutsu-Suyama, K; Cagnes, M and Darwish, TA, Analysis of the Electric Double Layer Structure Formed in an Ionic Liquid Using Neutron Reflectivity, ECS Adv. 1(2), 020503 (2022) (from NDF - Chemical Deuteration) DOI
  23. Trewhella, J; Vachette, P; Bierma, J; Blanchet, C; Brookes, E; Chakravarthy, S; Chatzimagas, L; Cleveland, TE, IV; Cowieson, N; Crossett, B; Duff, AP; Franke, D; Gabel, F; Gillilan, RE; Graewert, M; Grishaev, A; Guss, JM; Hammel, M; Hopkins, J; Huang, Q; Hub, JS; Hura, GL; Irving, TC; Jeffries, CM, A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking, Acta Crystallogr. D 78(11), 1315-1336 (2022) (from NDF - Biodeuteration, Quokka) DOI
  24. Wang, G; Garvey, CJ; Gu, S; Gao, W; O'Dell, LA; Krause-Heuer, AM; Darwish, TA; Zhigunov, A; Tong, X and Kong, L, Controlling phase and rheological behaviours of hexagonal lyotropic liquid crystalline templates for nanostructural administration and retention, J. Colloid Interface Sci. 607, 816-825 (2022) (from NDF - Chemical Deuteration) DOI
  25. Wong, LN; Jones, SD; Wood, K; de Campo, L; Darwish, T; Moir, M; Li, H; Segalman, RA; Warr, GG and Atkin, R, Polycation radius of gyration in a polymeric ionic liquid (PIL): the PIL melt is not a theta solvent, Phys. Chem. Chem. Phys. 24, 4526-4532 (2022) (from Kookaburra, NDF - Chemical Deuteration, Quokka) DOI
  26. Conn, CE; De Campo, L; Whitten, AE; Garvey, CJ; Krause-Heuer, A and van't Hag, L, Membrane protein structures in lipid bilayers; small-angle neutron scattering with contrast-matched bicontinuous cubic phases, Frontiers in Chemistry 8, Art. No. 619470 (2021) (from Bilby, NDF - Chemical Deuteration, Small-Angle X-ray Scattering) DOI
  27. Grünbaum, T; Bange, S; Jiang, W; Leung, AE; Darwish, TA; Burn, PL and Lupton, JM, Measuring the Magnetic Field Amplitude of rf Radiation by the Quasistatic Magnetic Field Effect in Organic Light-Emitting Diodes, Physical Review Applied 15(6), 064001 (2021) (from NDF - Chemical Deuteration) DOI
  28. Jake A. McEwan, Andrew J. Clulow, Andrew Nelson, Anwen M. Krause-Heuer, Ross D. Jansen-van Vuuren, Paul L. Burn, and Ian R. Gentle, Diffusion in Organic Film Stacks Containing Solution-Processed Phosphorescent Poly(dendrimer) Dopants, ACS Appl. Mater. Interfaces 13(26), 30910-30920 (2021) (from NDF - Chemical Deuteration, Platypus, X-ray reflectometer) DOI
  29. Jamali, S; Mkhitaryan, VV; Malissa, H; Nahlawi, A; Popli, H; Grünbaum, T; Bange, S; Milster, S; Stoltzfus, DM; Leung, AE; Darwish, TA; Burn, PL; Lupton, JM and Boehme, C, Floquet spin states in OLEDs, Nat. Commun. 12(1), 465 (2021) (from NDF - Chemical Deuteration) DOI
  30. Klenner, MA; Pascali, G; Fraser, BH and Darwish, TA, Kinetic isotope effects and synthetic strategies for deuterated carbon-11 and fluorine-18 labelled PET radiopharmaceuticals, Nucl. Med. Biol. 96-97, 112-147 (2021) (from NDF - Chemical Deuteration) DOI
  31. Luchini, A; Micciulla, S; Corucci, G; Batchu, KC; Santamaria, A; Laux, V; Darwish, T; Russell, RA; Thepaut, M; Bally, I; Fieschi, F and Fragneto, G, Lipid bilayer degradation induced by SARS-CoV-2 spike protein as revealed by neutron reflectometry, Sci Rep 11(1), 14867 (2021) (from NDF - Chemical Deuteration) DOI
  32. Oliver, TE; Piantavigna, S; Andrews, PC; Holt, SA and Dillon, CT, Interactions of Non-steroidal Anti-inflammatory Drugs and Their Bismuth Analogues (BiNSAIDs) with Biological Membrane Mimics at Physiological pH, Langmuir 37(4), 1337-1352 (2021) (from NDF - Chemical Deuteration, Platypus) DOI
  33. Raghuwanshi, VS; Cohen, Y; Garnier, G; Garvey, CJ and Garnier, G, Deuterated Bacterial Cellulose Dissolution in Ionic Liquids, Macromolecules 54(14), 6982-6989 (2021) (from NDF - Chemical Deuteration, Quokka) DOI
  34. Sebastiani, F; Yanez Arteta, M; Lerche, M; Porcar, L; Lang, C; Bragg, RA; Elmore, CS; Krishnamurthy, VR; Russell, RA; Darwish, T; Pichler, H; Waldie, S; Moulin, M; Haertlein, M; Forsyth, VT; Lindfors, L and Cárdenas, M, Apolipoprotein e Binding Drives Structural and Compositional Rearrangement of mRNA-Containing Lipid Nanoparticles, ACS Nano 15(4), 6709-6722 (2021) (from NDF - Chemical Deuteration) DOI
  35. Udagawa, T; Murphy, RB; Darwish, TA; Tachikawa, M and Mori, S, H/D Isotope Effects in Keto-Enol Tautomerism of β-Dicarbonyl Compounds —Importance of Nuclear Quantum Effects of Hydrogen Nuclei—, Bull. Chem. Soc. Jpn. 94(7), 1954-1962 (2021) (from NDF - Chemical Deuteration) DOI
  36. Waldie, S; Sebastiani, F; Moulin, M; Del Giudice, R; Paracini, N; Roosen-Runge, F; Gerelli, Y; Prevost, S; Voss, JC; Darwish, TA; Yepuri, N; Pichler, H; Maric, S; Forsyth, VT; Haertlein, M and Cárdenas, M , ApoE and ApoE Nascent-Like HDL Particles at Model Cellular Membranes: Effect of Protein Isoform and Membrane Composition, Frontiers in Chemistry 9 (2021) (from NDF - Chemical Deuteration) DOI
  37. Grosas, AB; Rekas, A; Mata, JP; Thorn, DC and Carver, JA, The Aggregation of B-Crystallin under Crowding Conditions Is Prevented by αA-Crystallin: Implications for α-Crystallin Stability and Lens Transparency, J. Mol. Biol. 432, 5593-5613 (2020) (from NDF - Biodeuteration, Quokka, Small-Angle X-ray Scattering) DOI
  38. Klenner, MA; Cagnes, M; Wood, K; Mita, K; Kishimoto, M and Darwish, T, Decagram scale production of deuterated mineral oil and polydecene as solvents for polymer studies in neutron scattering, Polym. Chem.-UK 11, 4986-4994 (2020) (from NDF - Chemical Deuteration, Quokka) DOI
  39. Klenner, MA; Darwish, T; Fraser, BH; Massi, M and Pascali, G, Labeled Rhenium Complexes: Radiofluorination, α-MSH Cyclization, and Deuterium Substitutions, Organometallics 39(13), 2334-2351 (2020) (from NDF - Biodeuteration) DOI
  40. Le Brun, AP; Zhu, S; Sani, MA and Separovic, F, The Location of the Antimicrobial Peptide Maculatin 1.1 in Model Bacterial Membranes, Frontiers in Chemistry 8 (2020) (from NDF - Biodeuteration, Platypus) DOI
  41. Milster, S; Grünbaum, T; Bange, S; Kurrmann, S; Kraus, H; Stoltzfus, DM; Leung, AE; Darwish, TA; Burn, PL; Boehme, C and Lupton, JM, Perdeuterated Conjugated Polymers for Ultralow-Frequency Magnetic Resonance of OLEDs, Angew. Chem. Int. Ed. Engl. 59, 9388-9392 (2020) (from NDF - Chemical Deuteration) DOI
  42. Nebl, S; Alwan, WS; Williams, ML; Sharma, G; Taylor, A; Doak, BC; Wilde, KL; McMahon, RM; Halili, MA; Martin, JL; Capuano, B; Fenwick, RB; Mohanty, B and Scanlon, MJ, NMR fragment screening reveals a novel small molecule binding site near the catalytic surface of the disulfide–dithiol oxidoreductase enzyme DsbA from Burkholderia pseudomallei, J. Biomol. NMR 74(10), 595-611 (2020) (from NDF - Biodeuteration) DOI
  43. Sani, MA; Le Brun, AP and Separovic, F, The antimicrobial peptide maculatin self assembles in parallel to form a pore in phospholipid bilayers, Biochim. Biophys. Acta-Biomembr. 1862, 5 (2020) (from NDF - Biodeuteration, Platypus) DOI
  44. Stoltzfus, DM; Joshi, G; Popli, H; Jamali, S; Kavand, M; Milster, S; Grünbaum, T; Bange, S; Nahlawi, A; Teferi, MY; Atwood, SI; Leung, AE; Darwish, TA; Malissa, H; Burn, PL; Lupton, JM and Boehme, C, Perdeuteration of poly[2-methoxy-5-(2′-ethylhexyloxy)-1,4-phenylenevinylene] (d-MEH-PPV): control of microscopic charge-carrier spin–spin coupling and of magnetic-field effects in optoelectronic devices, Journal of Materials Chemistry C 8(8), 2764-2771 (2020) (from NDF - Chemical Deuteration) DOI
  45. Waldie, S; Sebastiani, F; Browning, K; Maric, S; Lind, TK; Yepuri, N; Darwish, TA; Moulin, M; Strohmeier, G; Pichler, H; Skoda, MWA; Maestro, A; Haertlein, M; Forsyth, VT; Bengtsson, E; Malmsten, M and Cárdenas, M, Lipoprotein ability to exchange and remove lipids from model membranes as a function of fatty acid saturation and presence of cholesterol, Biochimica et Biophysica Acta - Molecular and Cell Biology of Lipids 1865, 10 (2020) (from NDF - Chemical Deuteration) DOI
  46. Wang, G; Garvey, CJ; Zhang, J; O’Dell, LA; Krause-Heuer, AM; Forsyth, M; Darwish, TA; Miloš, S and Kong, L, Evolution of structural dimensions in mesoporous template precursor from hexagonal lyotropic liquid crystals, J. Phys.: Condens. Matter 32(7), 075101 (2020) (from NDF - Chemical Deuteration, Small-Angle X-ray Scattering) DOI
  47. Akutsu-Suyama, K; Cagnes, M; Tamura, K; Kanaya, T and Darwish, TA, Controlled deuterium labelling of imidazolium ionic liquids to probe the fine structure of the electrical double layer using neutron reflectometry, Phys. Chem. Chem. Phys. 21(32), 17512-17516 (2019) (from NDF - Chemical Deuteration) DOI
  48. Bryant, G; Taylor, MB; Darwish, TA; Krause-Heuer, AM; Kent, B and Garvey, CJ, Effect of deuteration on the phase behaviour and structure of lamellar phases of phosphatidylcholines – deuterated lipids as proxies for the physical properties of native bilayers, Colloids and Surfaces B: Biointerfaces 177, 196-203 (2019) (from NDF - Chemical Deuteration) DOI
  49. Jakubauskas, D; Kowalewska, L; Sokolova, AV; Garvey, CJ; Mortensen, K; Jensen, PE and Kirkensgaard, JJK, Ultrastructural modeling of small angle scattering from photosynthetic membranes, Sci Rep 9, 1 (2019) (from Bilby, NDF - Biodeuteration) DOI
  50. Jena, A; Lee, PH; Pang, WK; Hsiao, KC; Peterson, VK; Darwish, T; Yepuri, N; Wu, SH; Chang, H and Liu, RS, Monitoring the phase evolution in LiCoO2 electrodes during battery cycles using in-situ neutron diffraction technique, Journal of the Chinese Chemical Society (2019) (from Echidna, NDF - Chemical Deuteration) DOI
  51. Luo, Z; Yang, Y; Radulescu, A; Kohlbrecher, J; Darwish, TA; Ong, QK; Guldin, S and Stellacci, F, Multidimensional Characterization of Mixed Ligand Nanoparticles Using Small Angle Neutron Scattering, Chem. Mater. 31(17), 6750–6758 (2019) (from NDF - Chemical Deuteration) DOI
  52. Maynard-Casely, HE; Booth, N; Leung, AE; Stuart, BH and Thomas, PS, Potential of neutron powder diffraction for the study of solid triacylglycerols, Food Structure 22 (2019) (from Echidna, NDF - Chemical Deuteration, Wombat) DOI
  53. Shou, K; Bremer, A; Rindfleisch, T; Knox-Brown, P; Hirai, M; Rekas, A; Garvey, CJ; Hincha, DK; Stadler, AM and Thalhammer, A, Conformational selection of the intrinsically disordered plant stress protein COR15A in response to solution osmolarity-an X-ray and light scattering study, Phys. Chem. Chem. Phys. 21(34), 18727-18740 (2019) (from NDF - Biodeuteration) DOI
  54. Stuart, BH; Maynard-Casely, HE; Booth, N; Leung, AE and Thomas, PS, Neutron diffraction of deuterated tripalmitin and the influence of shear on its crystallisation, Chem. Phys. Lipids 221, 108-113 (2019) (from Echidna, NDF - Chemical Deuteration, Wombat) DOI
  55. Xiao, Y., Liu, Q., Clulow, A. J., Li, T., Manohar, M., Gilbert, E. P., de Campo, L., Hawley, A., and Boyd, B. J., PEGylation and surface functionalization of liposomes containing drug nanocrystals for cell-targeted delivery, Colloids and Surfaces B: Biointerfaces 182, 110362 (2019) (from Kookaburra, NDF - Chemical Deuteration, Quokka) DOI
  56. Yepuri, NR; Clulow, AJ; Prentice, RN; Gilbert, EP; Hawley, A; Rizwan, SB; Boyd, BJ and Darwish, TA, Deuterated phytantriol – A versatile compound for probing material distribution in liquid crystalline lipid phases using neutron scattering, J. Colloid Interface Sci. 534, 399-407 (2019) (from NDF - Chemical Deuteration, Quokka) DOI
  57. van't Hag, L; de Campo, L; Tran, N; Sokolova, A; Trenker, R; Call, ME; Call, MJ; Garvey, CJ; Leung, AE; Darwish, TA; Krause-Heuer, A; Knott, R; Meikle, TG; Drummond, CJ; Mezzenga, R and Conn, CE, Protein-Eye View of the In Meso Crystallization Method, Langmuir 35(25), 8344-8356 (2019) (from Bilby, NDF - Chemical Deuteration, Small-Angle X-ray Scattering) DOI
  58. Akutsu, K; Cagnes, M; Niizeki, T; Hasegawa, Y and Darwish, TA, Penetration behavior of an ionic liquid in thin-layer silica coating: Ionic liquid deuteration and neutron reflectivity analysis, Phys. B 551, 262-265 (2018) (from NDF - Chemical Deuteration) DOI
  59. Ding, Y; Chow, SH; Liu, GS; Wang, B; Lin, TW; Hsu, HY; Duff, AP; Le Brun, AP and Shen, HH, Annexin V-containing cubosomes for targeted early detection of apoptosis in degenerative retinal tissue, Journal of Materials Chemistry B 6(46), 7652-7661 (2018) (from NDF - Chemical Deuteration, Platypus) DOI
  60. Luo, Z; Zhao, Y; Darwish, T; Wang, Y; Hou, J and Stellacci, F, Mass spectrometry and Monte Carlo method mapping of nanoparticle ligand shell morphology, Nat. Commun. 9, 1 (2018) (from NDF - Chemical Deuteration) DOI
  61. Booth, N; Davidson, G; Imperia, P; Lee, S; Stuart, B; Thomas, P; Komatsu, K; Yamane, R; Prescott, SW; Maynard-Casely, HE; Nelson, A and Rule, KC, Three impossible things before lunch - the task of a sample environment specialist, Journal of Neutron Research 19(1-2), 49-56 (2017) (from NDF - Biodeuteration, Platypus, Wombat) DOI
  62. Bremer, A; Kent, B; Hauß, T; Thalhammer, A; Yepuri, NR; Darwish, TA; Garvey, CJ; Bryant, G and Hincha, DK, Intrinsically Disordered Stress Protein COR15A Resides at the Membrane Surface during Dehydration, Biophys. J. 113(3), 572-579 (2017) (from NDF - Chemical Deuteration) DOI
  63. Golden, E; Yu, L-J; Meilleur, F; Blakeley, MP; Duff, AP; Karton, A and Vrielink, A, An extended N-H bond, driven by a conserved second-order interaction, orients the flavin N5 orbital in cholesterol oxidase, Sci Rep 7, 40517 (2017) (from NDF - Biodeuteration) DOI
  64. Hossain, KR; Holt, SA; Le Brun, AP; Al Khamici, H and Valenzuela, SM, X-ray and Neutron Reflectivity Study Shows That CLIC1 Undergoes Cholesterol-Dependent Structural Reorganization in Lipid Monolayers, Langmuir 33(43), 12497-12509 (2017) (from NDF - Biodeuteration, Platypus, X-ray reflectometer) DOI
  65. Raghuwanshi, VS; Su, J; Garvey, CJ; Holt, SA; Holden, PJ; Batchelor, WJ and Garnier, G, Visualization and Quantification of IgG Antibody Adsorbed at the Cellulose-Liquid Interface, Biomacromolecules 18(8), 2439-2445 (2017) (from NDF - Biodeuteration, Platypus) DOI
  66. Raghuwanshi, VS; Su, J; Garvey, CJ; Holt, SA; Raverty, W; Tabor, RF; Holden, PJ; Gillon, M; Batchelor, W and Garnier, G, Bio-deuterated cellulose thin films for enhanced contrast in neutron reflectometry, Cellulose 24(1), 11-20 (2017) (from NDF - Biodeuteration, Platypus) DOI
  67. Seow, J; Morales, RAV; MacRaild, CA; Krishnarjuna, B; McGowan, S; Dingjan, T; Jaipuria, G; Rouet, R; Wilde, KL; Atreya, HS; Richards, JS; Anders, RF; Christ, D; Drinkwater, N and Norton, RS, Structure and Characterisation of a Key Epitope in the Conserved C-Terminal Domain of the Malaria Vaccine Candidate MSP2, J. Mol. Biol. 429(6), 836-846 (2017) (from NDF - Biodeuteration) DOI
  68. Al-Zyoud, WA; Hynson, RMG; Ganuelas, LA; Coster, ACF; Duff, AP; Baker, MAB; Stewart, AG; Giannoulatou, E; Ho, JWK; Gaus, K; Liu, DL; Lee, LK and Bocking, T, Binding of transcription factor GabR to DNA requires recognition of DNA shape at a location distinct from its cognate binding site, Nucleic Acids Research 44(3), 1411-1420 (2016) (from NDF - Biodeuteration) DOI
  69. Arunmanee, W; Pathania, M; Solovyona, A; Le Brun, A; Ridley, H; Baslé, A; van de Berg, B; Lakey, J, Gram-negative trimeric porins have specific LPS binding sites that are essential for porin biogenesis, PNAS 113(34), E5034-E5043 (2016) (from NDF - Biodeuteration) DOI
  70. Baker, MAB; Hynson, RMG; Ganuelas, LA; Mohammadi, NS; Liew, CW; Rey, AA; Duff, AP; Whitten, AE; Jeffries, CM; Delalez, NJ; Morimoto, YV; Stock, D; Armitage, JP; Turberfield, AJ; Namba, K; Berry, RM and Lee, LK, Domain-swap polymerization drives the self-assembly of the bacterial flagellar motor advance online publication, Nat. Struct. Mol. Biol. 23(3), 197-203 (2016) (from NDF - Biodeuteration) DOI
  71. Darwish, TA; Yepuri, NR; Holden, PJ and James, M, Quantitative analysis of deuterium using the isotopic effect on quaternary C-13 NMR chemical shifts, Anal. Chim. Acta 927, 89-98 (2016) (from NDF - Chemical Deuteration) DOI
  72. Gygi, D; Bloch, ED; Mason, JA; Hudson, MR; Gonzalez, MI; Siegelman, RL; Darwish, TA; Queen, WL; Brown, CM and Long, JR, Hydrogen Storage in the Expanded Pore Metal-Organic Frameworks M-2(dobpdc) (M = Mg, Mn, Fe, Co, Ni, Zn), Chem. Mater. 28(4), 1128-1138 (2016) (from NDF - Chemical Deuteration) DOI
  73. Kulminskaya, N; Vasa, SK; Giller, K; Becker, S; Kwan, A; Sunde, M and Linser, R, Access to side-chain carbon information in deuterated solids under fast MAS through non-rotor-synchronized mixing, Chem. Commun. 52(2), 268-271 (2016) (from NDF - Biodeuteration) DOI
  74. Murphy, T; Callear, SK; Yepuri, N; Shimizu, K; Watanabe, M; Canongia Lopes, JN; Darwish, T; Warr, GG and Atkin, R, Bulk nanostructure of the prototypical 'good' and 'poor' solvate ionic liquids [Li(G4)][TFSI] and [Li(G4)][NO3], Phys. Chem. Chem. Phys. 18(26), 17224-17236 (2016) (from NDF - Chemical Deuteration) DOI
  75. Su, J; Raghuwanshi, VS; Raverty, W; Garvey, CJ; Holden, PJ; Gillon, M; Holt, SA; Tabor, R; Batchelor, W and Garnier, G, Smooth deuterated cellulose films for the visualisation of adsorbed bio-macromolecules, Sci Rep 6, 36119 (2016) (from NDF - Biodeuteration, Platypus) DOI
  76. Yepuri, NR; Darwish, TA; Krause-Heuer, AM; Leung, AE; Delhom, R; Wacklin, HP and Holden, PJ, The synthesis of perdeuterated 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC-d82) and the characterisation of its lipid bilayer membrane structure by neutron reflectometry, ChemPlusChem 81(3), 315-321 (2016) (from NDF - Chemical Deuteration, Platypus) DOI
  77. Curtain, CC; Kirby, NM; Mertens, HDT; Barnham, KJ; Knott, RB; Masters, CL; Cappai, R; Rekas, A; Kenche, VB and Ryan, T, Alpha-synuclein oligomers and fibrils originate in two distinct conformer pools: a small angle X-ray scattering and ensemble optimisation modelling study, Mol. Biosyst. 11(1), 190-196 (2015) (from NDF - Biodeuteration) DOI
  78. Danos, A; MacQueen, RW; Cheng, YY; Dvorak, M; Darwish, TA; McCamey, DR and Schmidt, TW, Deuteration of Perylene Enhances Photochemical Upconversion Efficiency, Journal of Physical Chemistry Letters 67, 3061-3066 (2015) (from NDF - Chemical Deuteration) DOI
  79. Duff, AP; Wilde, KL; Rekas, A; Lake, V and Holden, PJ, Robust High-Yield Methodologies for 2H and 2H/15N/13C Labeling of Proteins for Structural Investigations Using Neutron Scattering and NMR, Methods in Enzymology 565, 3-25 (2015) (from NDF - Biodeuteration) DOI
  80. Ge, A; Peng, Q; Qiao, L; Yepuri, NR; Darwish, TA; Matsusaki, M; Akashi, M and Ye, S, Molecular orientation of organic thin films on dielectric solid substrates: a phase-sensitive vibrational SFG study, Phys. Chem. Chem. Phys. 17(27), 18072-18078 (2015) (from NDF - Chemical Deuteration) DOI
  81. Geng, Y; Ali, MA; Clulow, AJ; Fan, S; Burn, PL; Gentle, IR; Meredith, P and Shaw, PE, Unambiguous detection of nitrated explosive vapours by fluorescence quenching of dendrimer films, Nat. Commun. 6, Art. No. 8240 (2015) (from NDF - Chemical Deuteration, Platypus) DOI
  82. Golden, E; Attwood, PV; Duff, AP; Meilleur, F and Vrielink, A, Production and characterization of recombinant perdeuterated cholesterol oxidase, Anal. Biochem. 485, 102-108 (2015) (from NDF - Biodeuteration) DOI
  83. Hynson, RMG; Duff, AP; Kirby, N; Mudie, S and Lee, LK, Differential ultracentrifugation coupled to small-angle X-ray scattering on macromolecular complexes, J. Appl. Crystallogr. 48(3), 769-775 (2015) (from NDF - Biodeuteration) DOI
  84. Kent, B; Hauss, T; Demé, B; Cristiglio, V; Darwish, T; Hunt, T; Bryant, G and Garvey, CJ, Direct Comparison of Disaccharide Interaction with Lipid Membranes at Reduced Hydrations, Langmuir 31(33), 9134-9141 (2015) (from NDF - Chemical Deuteration) DOI
  85. Kim, E; Rath, EM; Tsang, VHM; Duff, AP; Robinson, BG; Church, WB; Benn, DE; Dwight, T and Clifton-Bligh, RJ, Structural and functional consequences of succinate dehydrogenase subunit B mutations, Endocrine-Related Cancer 22(3), 387-397 (2015) (from NDF - Biodeuteration) DOI
  86. Le Brun, AP; Clifton, LA; Holt, SA; Holden, PJ and Lakey, JH, Deuterium Labeling Strategies for Creating Contrast in Structure–Function Studies of Model Bacterial Outer Membranes Using Neutron Reflectometry, Methods in Enzymology 256, 231-252 (2015) (from NDF - Biodeuteration) DOI
  87. Le Brun, AP; Soliakov, A; Shah, DSH; Holt, SA; McGill, A and Lakey, JH, Engineered self-assembling monolayers for label free detection of influenza nucleoprotein, Biomed. Microdevices 17(3), Art. No. 49 (2015) (from NDF - Biodeuteration, Platypus) DOI
  88. Lu, J; Le Brun, AP; Chow, SH; Shiota, T; Wang, B; Lin, T-W; Liu, G-S and Shen, H-H, Defining the structural characteristics of annexin V binding to a mimetic apoptotic membrane, Eur. Biophys. J. Biophy. 44(8), 697-708 (2015) (from NDF - Biodeuteration, Platypus) DOI
  89. McIntosh, L; Whitelaw, C; Rekas, A; Holt, SA and van der Walle, CF, Interrogating protonated/deuterated fibronectin fragment layers adsorbed to titania by neutron reflectivity and their concomitant control over cell adhesion, J. R. Soc. Interface 12(107), Art. No. 0164 (2015) (from NDF - Biodeuteration, Platypus) DOI
  90. Phan, S; Salentinig, S; Gilbert, E; Darwish, TA; Hawley, A; Nixon-Luke, R; Bryant, G and Boyd, BJ , Disposition and crystallization of saturated fatty acid in mixed micelles of relevance to lipid digestion , J. Colloid Interface Sci. 449, 160-166 (2015) (from NDF - Chemical Deuteration, Quokka) DOI
  91. Russell, RA; Garvey, CJ; Darwish, TA; Foster, LJR and Holden, PJ, Biopolymer Deuteration For Neutron Scattering And Other Isotope-Sensitive Techniques, Methods in Enzymology 565, 97-121 (2015) (from NDF - Biodeuteration) DOI
  92. Salentinig, S; Yepuri, NR; Hawley, A; Boyd, BJ; Gilbert, E and Darwish, TA, Selective deuteration for molecular insights into the digestion of medium chain triglycerides, Chem. Phys. Lipids 190, 43-50 (2015) (from NDF - Chemical Deuteration) DOI
  93. Vanston, CR; Kearley, GJ; Edwards, AJ; Darwish, TA; de Souza, NR; Ramirez-Cuesta, AJ and Gardiner, MG, The free-energy barrier to hydride transfer across a dipalladium complex, Faraday Discuss. 177, 99-109 (2015) (from Koala, NDF - Chemical Deuteration) DOI
  94. Ciampi, S; Luais, E; James, M; Choudhury, MH; Darwish, NA and Gooding, JJ, The rapid formation of functional monolayers on silicon under mild conditions, Phys. Chem. Chem. Phys. 16(17), 8003-8011 (2014) (from NDF - Chemical Deuteration, X-ray reflectometer) DOI
  95. Darwish, N; Aragonès, AC; Darwish, T; Ciampi, S and Díez-Pérez, I, Multi-Responsive Photo- and Chemo-Electrical Single-Molecule Switches, Nano Lett. 14(12), 7064-7070 (2014) (from NDF - Chemical Deuteration) DOI
  96. Hatty, CR; Le Brun, AP; Lake, V; Clifton, LA; Liu, GJ; James, M and Banati, RB, Investigating the interactions of the 18 kDa translocator protein and its ligand PK11195 in planar lipid bilayers, Biochim. Biophys. Acta-Biomembr. 1838(3), 1019-1030 (2014) (from NDF - Biodeuteration, Platypus) DOI
  97. Kent, B; Hunt, T; Darwish, TA; Hauß, T; Garvey, CJ and Bryant, G, Localization of trehalose in partially hydrated DOPC bilayers: insights into cryoprotective mechanisms, J. R. Soc. Interface 11, 95 (2014) (from NDF - Chemical Deuteration) DOI
  98. Krause-Heuer, AM; Yepuri, NR; Darwish, TA and Holden, PJ, Mild Conditions for Deuteration of Primary and Secondary Arylamines for the Synthesis of Deuterated Optoelectronic Organic Molecules, Molecules 19(11), 18604-18617 (2014) (from NDF - Chemical Deuteration) DOI
  99. Le Brun, AP; Haigh, CL; Drew, SC; James, M; Boland, MP and Collins, SJ, Neutron Reflectometry Studies Define Prion Protein N-terminal Peptide Membrane Binding, Biophys. J. 107(10), 2313-2324 (2014) (from NDF - Chemical Deuteration, Platypus) DOI
  100. Linser, R; Bardiaux, B; Andreas, LB; Hyberts, SG; Morris, VK; Pintacuda, G; Sunde, M; Kwan, AH and Wagner, G, Solid-State NMR Structure Determination from Diagonal-Compensated, Sparsely Nonuniform-Sampled 4D Proton-Proton Restraints, J. Am. Chem. Soc. 136(31), 11002-11010 (2014) (from NDF - Biodeuteration) DOI
  101. Queen, WL; Hudson, MR; Bloch, ED; Mason, JA; Gonzalez, MI; Lee, JS; Gygi, D; Howe, JD; Lee, K; Darwish, TA; James, M; Peterson, VK; Teat, SJ; Smit, B; Neaton, JB; Long, JR and Brown, CM, Comprehensive study of carbon dioxide adsorption in the metal-organic frameworks M2(dobdc) (M = Mg, Mn, Fe, Co, Ni, Cu, Zn), Chem. Sci. 5(12), 4569-4581 (2014) (from Echidna, NDF - Chemical Deuteration, Wombat) DOI
  102. Rath, EM; Duff, AP; Håkansson, AP; Knott, RB and Church, WB, Small-angle X-ray scattering of BAMLET at pH 12: A complex of α-lactalbumin and oleic acid, Proteins 82(7), 1400-1408 (2014) (from Computing Cluster, NDF - Biodeuteration, Small-Angle X-ray Scattering) DOI
  103. Russell, RA; Darwish, TA; Puskar, L; Martin, DE; Holden, PJ and Foster, LJR, Deuterated Polymers for Probing Phase Separation Using Infrared Microspectroscopy, Biomacromolecules 15(2), 644-649 (2014) (from NDF - Biodeuteration) DOI
  104. Salentinig, S; Phan, S; Darwish, TA; Kirby, N; Boyd, BJ and Gilbert, EP, pH-Responsive Micelles Based on Caprylic Acid, Langmuir 30(25), 7296-7303 (2014) (from NDF - Chemical Deuteration, Quokka) DOI
  105. Wu, Y; Peterson, VK; Luks, E; Darwish, TA and Kepert, CJ, Interpenetration as a Mechanism for Negative Thermal Expansion in the Metal-Organic Framework Cu3(btb)2 (MOF-14), Angew. Chem. Int. Ed. Engl. 53(20), 5175-5178 (2014) (from Echidna, NDF - Chemical Deuteration) DOI
  106. Yepuri, NR; Holt, SA; Moraes, G; Holden, PJ; Hossain, KR; Valenzuela, SM; James, M and Darwish, TA, Stereoselective synthesis of perdeuterated phytanic acid, its phospholipid derivatives and their formation into lipid model membranes for neutron reflectivity studiesreflectivity studies, Chem. Phys. Lipids 183, 22-33 (2014) (from NDF - Chemical Deuteration) DOI
  107. Darwish, TA; Luks, E; Moraes, G; Yepuri, NR; Holden, PJ and James, M, Synthesis of deuterated [D32]oleic acid and its phospholipid derivative [D64]dioleoyl-sn-glycero-3-phosphocholine, J. Label. Compd. Radiopharm. 56(9-10), 520-529 (2013) (from NDF - Chemical Deuteration) DOI
  108. Dwyer, MD; He, L; James, M; Nelson, A and Middelberg, APJ, Insights into the role of protein molecule size and structure on interfacial properties using designed sequences, J. R. Soc. Interface 10(80), Art. No. 20120987 (2013) (from NDF - Biodeuteration, Platypus) DOI
  109. Ge, A; Wu, H; Darwish, TA; James, M; Osawa, M and Ye, S, Structure and Lateral Interaction in Mixed Monolayers of Dioctadecyldimethylammonium Chloride (DOAC) and Stearyl Alcohol, Langmuir 29(18), 5407–5417 (2013) (from NDF - Chemical Deuteration) DOI
  110. Holt, SA; Le Brun, AP; Nelson, ARJ and Lakey, JH, In situ study of the impact of acidic and neutral deposition pH on alkane phosphate film formation and stability on TiO2, RSC Adv. 3(8), 2581-2589 (2013) (from NDF - Biodeuteration) DOI
  111. Le Brun, AP; Clifton, LA; Halbert, CE; Lin, B; Meron, M; Holden, PJ; Lakey, JH and Holt, SA, Structural Characterization of a Model Gram-Negative Bacterial Surface Using Lipopolysaccharides from Rough Strains of Escherichia coli, Biomacromolecules 14(6), 2014-2022 (2013) (from NDF - Biodeuteration) DOI
  112. Le Brun, AP; Darwish, TA and James, M, Studies of Biomimetic Cellular Membranes using Neutron Reflection, Journal of Chemical and Biological Interfaces 1(1), 3-24 (2013) (from NDF - Biodeuteration, NDF - Chemical Deuteration, Platypus) DOI
  113. Shen, H-H; Lake, V; Le Brun, AP; James, M; Duff, AP; Peng, Y; McLean, KM and Hartley, PG, Targeted detection of phosphatidylserine in biomimetic membranes and in vitro cell systems using annexin V-containing cubosomes, Biomaterials 34(33), 8361-8369 (2013) (from NDF - Biodeuteration, Platypus) DOI
  114. Tangso, KJ; Fong, W-K; Darwish, T; Kirby, N; Boyd, BJ and Hanley, TL, Novel Spiropyran Amphiphiles and Their Application as Light-Responsive Liquid Crystalline Components, J. Phys. Chem. B 117(35), 10203-10210 (2013) (from NDF - Chemical Deuteration) DOI
  115. Yepuri, NR; Jamieson, SA; Darwish, TA; Rawal, A; Hook, JM; Thordarson, P; Holden, PJ and James, M, Synthesis of per-deuterated alkyl amines for the preparation of deuterated organic pyromellitamide gelators, Tetrahedron Lett. 54(20), 2538-2541 (2013) (from NDF - Chemical Deuteration) DOI
  116. Chen, X; Wilde, KL; Wang, H; Lake, V; Holden, PJ; Middelberg, APJ; He, L and Duff, AP, High yield expression and efficient purification of deuterated human protein galectin-2, Food Bioprod. Process. 90(3), 563-572 (2012) (from NDF - Biodeuteration) DOI
  117. Christie, MP; Whitten, AE; King, GJ; Hu, SH; Jarrott, RJ; Chen, KE; Duff, AP; Callow, P; Collins, BM; James, DE and Martin, JL, Low-resolution solution structures of Munc18:Syntaxin protein complexes indicate an open binding mode driven by the Syntaxin N-peptide, PNAS 109(25), 9816-9821 (2012) (from NDF - Biodeuteration) DOI
  118. Darwish, TA; Smith, ARG; Gentle, IR; Burn, PL; Luks, E; Moraes, G; Gillon, M; Holden, PJ and James, M, Deuteration of molecules for neutron reflectometry on organic light-emitting diode thin films, Tetrahedron Lett. 53(8), 931-935 (2012) (from NDF - Chemical Deuteration, Platypus) DOI
  119. Darwish, TA; Tong, Y; James, M; Hanley, TL; Peng, Q and Ye, S, Characterizing the Photoinduced Switching Process of a Nitrospiropyran Self-Assembled Monolayer Using In Situ Sum Frequency Generation Spectroscopy, Langmuir 28(39), 13852-13860 (2012) (from NDF - Chemical Deuteration) DOI
  120. Dimitrijev-Dwyer, M; He, L; James, M; Nelson, A; Wang, L and Middelberg, APJ, The effects of acid hydrolysis on protein biosurfactant molecular, interfacial, and foam properties: pH responsive protein hydrolysates, Soft Matter 8(19), 5131-5139 (2012) (from NDF - Biodeuteration, Platypus) DOI
  121. Morris, VK; Linser, R; Wilde, KL; Duff, AP; Sunde, M and Kwan, AH, Solid-State NMR Spectroscopy of Functional Amyloid from a Fungal Hydrophobin: A Well-Ordered β-Sheet Core Amidst Structural Heterogeneity, Angew. Chem. Int. Ed. Engl. 51(50), 12621-12625 (2012) (from NDF - Biodeuteration) DOI
  122. Smith, ARG; Lee, KH; Nelson, A; James, M; Burn, PL and Gentle, IR, Diffusion - the Hidden Menace in Organic Optoelectronic Devices, Adv. Mater. 24(6), 822-826 (2012) (from NDF - Chemical Deuteration, Platypus, X-ray reflectometer) DOI
  123. Taylor, JEN; Chow, JYH; Jeffries, CM; Kwan, AH; Duff, AP; Hamilton, WA and Trewhella, J, Calmodulin Binds a Highly Extended HIV-1 MA Protein That Refolds Upon Its Release, Biophys. J. 103(3), 541-549 (2012) (from NDF - Biodeuteration, Quokka) DOI
  124. Wang, CK; Wacklin, HP and Craik, DJ, Cyclotides Insert into Lipid Bilayers to Form Membrane Pores and Destabilize the Membrane through Hydrophobic and Phosphoethanolamine-specific Interactions, J. Biol. Chem. 287(52), 43884-43898 (2012) (from NDF - Biodeuteration) DOI
  125. Smith, ARG; Ruggles, JL; Cavaye, H; Shaw, PE; Darwish, TA; James, M; Gentle, IR and Burn, PL, Investigating Morphology and Stability of Fac-tris (2-phenylpyridyl)iridium(III) Films for OLEDs, Adv. Funct. Mater. 21(12), 2225-2231 (2011) (from NDF - Chemical Deuteration, Platypus) DOI