[{"data":1,"prerenderedAt":572},["ShallowReactive",2],{"publications":3},{"data":4,"meta":567},[5,18,28,37,46,56,65,74,83,92,102,111,120,129,138,147,156,165,175,185,194,202,210,221,229,238,247,256,265,274,283,292,300,309,318,328,337,346,355,364,373,383,392,401,410,419,427,436,448,459,470,481,492,503,514,525,536,546,556],{"id":6,"attributes":7},193,{"title":8,"authors":9,"journal":10,"area":11,"citation":12,"url":13,"notm_url":14,"createdAt":15,"updatedAt":15,"publishedAt":16,"year":17},"How Virtual Reality Is Changing the Future of Learning in K-12 and Beyond","Adžgauskait M, Abhari K, Pesavento M, editors"," HCI International 2020 – Late Breaking Papers: Cognition Learning and Games","Education & VR Learning","Adžgauskait M, Abhari K, Pesavento M, editors. How Virtual Reality Is Changing the Future of Learning in K-12 and Beyond. HCI International 2020 – Late Breaking Papers: Cognition Learning and Games. 2020; Cham: Springer International Publishing.","https:\u002F\u002Firis.uniroma1.it\u002Fbitstream\u002F11573\u002F1458076\u002F1\u002FPerna_Tirana-Plug-in-River_2020.pdf",null,"2022-10-28T21:15:49.076Z","2022-10-28T14:27:52.718Z",2020,{"id":19,"attributes":20},195,{"title":21,"authors":22,"journal":23,"area":11,"citation":24,"url":25,"notm_url":14,"createdAt":26,"updatedAt":26,"publishedAt":16,"year":27},"Zoom combined with Virtual Reality (VR) to visualize chemical structures inorganic chemistry","Broman K, Chorell E, Holmboe M, Mårell-Olsson E","  Universitetspedagogiska konferensen 2021: Den goda utbildningsmiljön 21 Umeå universitet","Broman K, Chorell E, Holmboe M, Mårell-Olsson E. Zoom combined with Virtual Reality (VR) to visualize chemical structures inorganic chemistry.  Universitetspedagogiska konferensen 2021: Den goda utbildningsmiljön 21 Umeå universitet. 7-8 oktober, 2021; 20212021. p. 12-3.","http:\u002F\u002Furn.kb.se\u002Fresolve?urn=urn:nbn:se:umu:diva-173402","2022-10-28T21:15:49.085Z",2021,{"id":29,"attributes":30},196,{"title":31,"authors":32,"journal":33,"area":11,"citation":34,"url":35,"notm_url":14,"createdAt":36,"updatedAt":36,"publishedAt":16,"year":27},"Virtual Reality and Zoom in combination to visualise chemical structures and develop students' spatial ability during the Corona pandemic","Broman K, Chorell E, Holmboe M"," Utvecklingskonferensen för Sveriges ingenjörsutbildningar Karlstads universitet","Broman K, Chorell E, Holmboe M. Virtual Reality and Zoom in combination to visualise chemical structures and develop students' spatial ability during the Corona pandemic. Utvecklingskonferensen för Sveriges ingenjörsutbildningar Karlstads universitet. 24-25 november, 2021; 2021: Karlstads universitet; 2021.","http:\u002F\u002Furn.kb.se\u002Fresolve?urn=urn:nbn:se:umu:diva-189154","2022-10-28T21:15:49.089Z",{"id":38,"attributes":39},197,{"title":40,"authors":41,"journal":42,"area":11,"citation":43,"url":44,"notm_url":14,"createdAt":45,"updatedAt":45,"publishedAt":16,"year":17},"Digital tools and techniques in chemistry","Broman K","  ECRICE (European Conference on Research in Chemistry Education) conference","Broman K. Digital tools and techniques in chemistry.  ECRICE (European Conference on Research in Chemistry Education) conference. Webinar, July 6, 2020; 20202020.","http:\u002F\u002Furn.kb.se\u002Fresolve?urn=urn:nbn:se:umu:diva-188371","2022-10-28T21:15:49.096Z",{"id":47,"attributes":48},198,{"title":49,"authors":50,"journal":51,"area":52,"citation":53,"url":54,"notm_url":14,"createdAt":55,"updatedAt":55,"publishedAt":16,"year":17},"An immersive journey to the molecular structure of SARS-CoV-2: Virtual reality in COVID-19","Calvelo M, Piñeiro Á, Garcia-Fandino R"," Computational and Structural Biotechnology Journal","Molecular Graphics & Visualization","Calvelo M, Piñeiro Á, Garcia-Fandino R. An immersive journey to the molecular structure of SARS-CoV-2: Virtual reality in COVID-19. Computational and Structural Biotechnology Journal. 2020;18:2621-8. doi: https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.csbj.2020.09.018.","http:\u002F\u002Fdx.doi.org\u002Fhttps:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.csbj.2020.09.018","2022-10-28T21:15:49.101Z",{"id":57,"attributes":58},199,{"title":59,"authors":60,"journal":61,"area":52,"citation":62,"url":63,"notm_url":14,"createdAt":64,"updatedAt":64,"publishedAt":16,"year":27},"How Blockchain, Virtual Reality, and Augmented Reality are Converging, and Why","Cannavò A, Lamberti F"," IEEE Consumer Electronics Magazine","Cannavò A, Lamberti F. How Blockchain, Virtual Reality, and Augmented Reality are Converging, and Why. IEEE Consumer Electronics Magazine. 2021;10(5):6-13. doi: 10.1109\u002FMCE.2020.3025753.","http:\u002F\u002Fdx.doi.org\u002F10.1109\u002FMCE.2020.3025753","2022-10-28T21:15:49.106Z",{"id":66,"attributes":67},200,{"title":68,"authors":69,"journal":70,"area":52,"citation":71,"url":72,"notm_url":14,"createdAt":73,"updatedAt":73,"publishedAt":16,"year":17},"ProteinVR: Web-based molecular visualization in virtual reality","Cassidy KC, Šefík J, Raghav Y, Chang A, Durrant JD"," PLOS Computational Biology","Cassidy KC, Šefík J, Raghav Y, Chang A, Durrant JD. ProteinVR: Web-based molecular visualization in virtual reality. PLOS Computational Biology. 2020;16(3):e1007747. doi: 10.1371\u002Fjournal.pcbi.1007747.","http:\u002F\u002Fdx.doi.org\u002F10.1371\u002Fjournal.pcbi.1007747","2022-10-28T21:15:49.110Z",{"id":75,"attributes":76},201,{"title":77,"authors":78,"journal":79,"area":52,"citation":80,"url":81,"notm_url":14,"createdAt":82,"updatedAt":82,"publishedAt":16,"year":27},"Ligand GA: a genetic algorithm for automated protein inhibitor design","Chalmers G"," bioRxiv","Chalmers G. Ligand GA: a genetic algorithm for automated protein inhibitor design. bioRxiv. 2021;2021.10.11.463970. doi: 10.1101\u002F2021.10.11.463970.","http:\u002F\u002Fdx.doi.org\u002F10.1101\u002F2021.10.11.463970","2022-10-28T21:15:49.115Z",{"id":84,"attributes":85},202,{"title":86,"authors":87,"journal":88,"area":11,"citation":89,"url":90,"notm_url":14,"createdAt":91,"updatedAt":91,"publishedAt":16,"year":17},"Practical steps for an effective virtual reality course integration","Cook M, Lischer-Katz Z"," College & Undergraduate Libraries","Cook M, Lischer-Katz Z. Practical steps for an effective virtual reality course integration. College & Undergraduate Libraries. 2020;27(2-4):210-26. doi: 10.1080\u002F10691316.2021.1923603.","http:\u002F\u002Fdx.doi.org\u002F10.1080\u002F10691316.2021.1923603","2022-10-28T21:15:49.120Z",{"id":93,"attributes":94},203,{"title":95,"authors":96,"journal":97,"area":52,"citation":98,"url":99,"notm_url":14,"createdAt":100,"updatedAt":100,"publishedAt":16,"year":101},"Online tools to easily build virtual molecular models for display in augmented and virtual reality on the web","Cortés Rodríguez F, Dal Peraro M, Abriata LA"," Journal of Molecular Graphics and Modelling","Cortés Rodríguez F, Dal Peraro M, Abriata LA. Online tools to easily build virtual molecular models for display in augmented and virtual reality on the web. Journal of Molecular Graphics and Modelling. 2022;114:108164. doi: https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.jmgm.2022.108164.","http:\u002F\u002Fdx.doi.org\u002Fhttps:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.jmgm.2022.108164","2022-10-28T21:15:49.124Z",2022,{"id":103,"attributes":104},204,{"title":105,"authors":106,"journal":107,"area":11,"citation":108,"url":109,"notm_url":14,"createdAt":110,"updatedAt":110,"publishedAt":16,"year":17},"Developing a Virtual Reality Approach toward a Better Understanding of Coordination Chemistry and Molecular Orbitals","Dai R, Laureanti JA, Kopelevich M, Diaconescu PL"," Journal of Chemical Education","Dai R, Laureanti JA, Kopelevich M, Diaconescu PL. Developing a Virtual Reality Approach toward a Better Understanding of Coordination Chemistry and Molecular Orbitals. Journal of Chemical Education. 2020;97(10):3647-51. doi: 10.1021\u002Facs.jchemed.0c00469.","http:\u002F\u002Fdx.doi.org\u002F10.1021\u002Facs.jchemed.0c00469","2022-10-28T21:15:49.132Z",{"id":112,"attributes":113},205,{"title":114,"authors":115,"journal":116,"area":11,"citation":117,"url":118,"notm_url":14,"createdAt":119,"updatedAt":119,"publishedAt":16,"year":17},"Peppy: A virtual reality environment for exploring the principles of polypeptide structure","Doak DG, Denyer GS, Gerrard JA, Mackay JP, Allison JR"," Protein Science","Doak DG, Denyer GS, Gerrard JA, Mackay JP, Allison JR. Peppy: A virtual reality environment for exploring the principles of polypeptide structure. Protein Science. 2020;29(1):157-68. doi: https:\u002F\u002Fdoi.org\u002F10.1002\u002Fpro.3752.","http:\u002F\u002Fdx.doi.org\u002Fhttps:\u002F\u002Fdoi.org\u002F10.1002\u002Fpro.3752","2022-10-28T21:15:49.136Z",{"id":121,"attributes":122},206,{"title":123,"authors":124,"journal":107,"area":11,"citation":125,"url":126,"notm_url":14,"createdAt":127,"updatedAt":127,"publishedAt":16,"year":128},"Chemical Exploration with Virtual Reality in Organic Teaching Laboratories","Ferrell JB, Campbell JP, McCarthy DR, McKay KT, Hensinger M, Srinivasan R, Zhao X, Wurthmann A, Li J, Schneebeli ST","Ferrell JB, Campbell JP, McCarthy DR, McKay KT, Hensinger M, Srinivasan R, Zhao X, Wurthmann A, Li J, Schneebeli ST. Chemical Exploration with Virtual Reality in Organic Teaching Laboratories. Journal of Chemical Education. 2019;96(9):1961-6. doi: 10.1021\u002Facs.jchemed.9b00036.","http:\u002F\u002Fdx.doi.org\u002F10.1021\u002Facs.jchemed.9b00036","2022-10-28T21:15:49.140Z",2019,{"id":130,"attributes":131},207,{"title":132,"authors":133,"journal":134,"area":52,"citation":135,"url":136,"notm_url":14,"createdAt":137,"updatedAt":137,"publishedAt":16,"year":101},"VR in chemistry, a review of scientific research on advanced atomic\u002Fmolecular visualization","Fombona-Pascual A, Fombona J, Vázquez-Cano E"," Chemistry Education Research and Practice","Fombona-Pascual A, Fombona J, Vázquez-Cano E. VR in chemistry, a review of scientific research on advanced atomic\u002Fmolecular visualization. Chemistry Education Research and Practice. 2022;23(2):300-12. doi: 10.1039\u002FD1RP00317H.","http:\u002F\u002Fdx.doi.org\u002F10.1039\u002FD1RP00317H","2022-10-28T21:15:49.144Z",{"id":139,"attributes":140},208,{"title":141,"authors":142,"journal":143,"area":11,"citation":144,"url":145,"notm_url":14,"createdAt":146,"updatedAt":146,"publishedAt":16,"year":27},"Possibilities of Learning Contemporary Chemistry via Virtual Reality","Frevert M, Fuccia D-SD"," World Journal of Chemical Education","Frevert M, Fuccia D-SD. Possibilities of Learning Contemporary Chemistry via Virtual Reality. World Journal of Chemical Education. 2021;9(1):1-7. doi: 10.12691\u002Fwjce-9-1-1.","http:\u002F\u002Fdx.doi.org\u002F10.12691\u002Fwjce-9-1-1","2022-10-28T21:15:49.149Z",{"id":148,"attributes":149},209,{"title":150,"authors":151,"journal":152,"area":52,"citation":153,"url":154,"notm_url":14,"createdAt":155,"updatedAt":155,"publishedAt":16,"year":17},"Molecular MR Multiplayer: a cross-platform collaborative interactive game for scientists","Frish S, Druchok M, Shchur H","  26th ACM Symposium on Virtual Reality Software and Technology Virtual Event Canada: Association for Computing Machinery","Frish S, Druchok M, Shchur H. Molecular MR Multiplayer: a cross-platform collaborative interactive game for scientists.  26th ACM Symposium on Virtual Reality Software and Technology Virtual Event Canada: Association for Computing Machinery. 2020; p. Article 65.","https:\u002F\u002Fdoi.org\u002F10.1145\u002F3385956.3422098","2022-10-28T21:15:49.153Z",{"id":157,"attributes":158},210,{"title":159,"authors":160,"journal":161,"area":11,"citation":162,"url":163,"notm_url":14,"createdAt":164,"updatedAt":164,"publishedAt":16,"year":128},"Dynamic Virtual Proteins: Visualization, Interaction and Collaboration in Virtual Reality","Gauthier J-M, McGrath I, Patel JS","  25th ACM Symposium on Virtual Reality Software and Technology NSW Australia: Association for Computing Machinery","Gauthier J-M, McGrath I, Patel JS. Dynamic Virtual Proteins: Visualization, Interaction and Collaboration in Virtual Reality.  25th ACM Symposium on Virtual Reality Software and Technology NSW Australia: Association for Computing Machinery. 2019; p. Article 107.","https:\u002F\u002Fdoi.org\u002F10.1145\u002F3359996.3365050","2022-10-28T21:15:49.158Z",{"id":166,"attributes":167},211,{"title":168,"authors":169,"journal":170,"area":52,"citation":171,"url":172,"notm_url":14,"createdAt":173,"updatedAt":173,"publishedAt":16,"year":174},"Molecular Visualization on the Holodeck","Goddard TD, Brilliant AA, Skillman TL, Vergenz S, Tyrwhitt-Drake J, Meng EC, Ferrin TE"," Journal of Molecular Biology","Goddard TD, Brilliant AA, Skillman TL, Vergenz S, Tyrwhitt-Drake J, Meng EC, Ferrin TE. Molecular Visualization on the Holodeck. Journal of Molecular Biology. 2018;430(21):3982-96. doi: https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.jmb.2018.06.040.","http:\u002F\u002Fdx.doi.org\u002Fhttps:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.jmb.2018.06.040","2022-10-28T21:15:49.165Z",2018,{"id":176,"attributes":177},213,{"title":178,"authors":179,"journal":180,"area":181,"citation":182,"url":183,"notm_url":14,"createdAt":184,"updatedAt":184,"publishedAt":16,"year":17},"Computational Studies of SARS-CoV-2 3CLpro: Insights from MD Simulations","Grottesi A, Bešker N, Emerson A, Manelfi C, Beccari AR, Frigerio F, Lindahl E, Cerchia C, Talarico C"," International Journal of Molecular Sciences","Research using Nanome","Grottesi A, Bešker N, Emerson A, Manelfi C, Beccari AR, Frigerio F, Lindahl E, Cerchia C, Talarico C. Computational Studies of SARS-CoV-2 3CLpro: Insights from MD Simulations. International Journal of Molecular Sciences. 2020;21(15):5346. doi:10.3390\u002Fijms21155346.","https:\u002F\u002Fwww.mdpi.com\u002F1422-0067\u002F21\u002F15\u002F5346","2022-10-28T21:15:49.173Z",{"id":186,"attributes":187},215,{"title":188,"authors":189,"journal":190,"area":11,"citation":191,"url":192,"notm_url":14,"createdAt":193,"updatedAt":193,"publishedAt":16,"year":27},"Pioneering Platforms and UX Learnings","Hillmann C"," UX for XR: User Experience Design and Strategies for Immersive Technologies","Hillmann C. Pioneering Platforms and UX Learnings. UX for XR: User Experience Design and Strategies for Immersive Technologies. Berkeley, CA: Apress. 2021; p. 157-200.","https:\u002F\u002Flink.springer.com\u002Fbook\u002F10.1007\u002F978-1-4842-7020-2","2022-10-28T21:15:49.182Z",{"id":195,"attributes":196},216,{"title":197,"authors":198,"journal":88,"area":11,"citation":199,"url":200,"notm_url":14,"createdAt":201,"updatedAt":201,"publishedAt":16,"year":17},"Becoming immersed: Using Virtual Reality technologies in academic libraries to expand outreach and enhance course curricula","Huber A, Embree JK, Gay A, Gilman NV","Huber A, Embree JK, Gay A, Gilman NV. Becoming immersed: Using Virtual Reality technologies in academic libraries to expand outreach and enhance course curricula. College & Undergraduate Libraries. 2020;27(2-4):245-64. doi: 10.1080\u002F10691316.2021.1902892.","http:\u002F\u002Fdx.doi.org\u002F10.1080\u002F10691316.2021.1902892","2022-10-28T21:15:49.186Z",{"id":203,"attributes":204},217,{"title":205,"authors":206,"journal":97,"area":181,"citation":207,"url":208,"notm_url":14,"createdAt":209,"updatedAt":209,"publishedAt":16,"year":128},"Development of a virtual reality platform for effective communication of structural data in drug discovery","Kingsley LJ, Brunet V, Lelais G, McCloskey S, Milliken K, Leija E, Fuhs SR, Wang K, Zhou E, Spraggon G","Kingsley LJ, Brunet V, Lelais G, McCloskey S, Milliken K, Leija E, Fuhs SR, Wang K, Zhou E, Spraggon G. Development of a virtual reality platform for effective communication of structural data in drug discovery. Journal of Molecular Graphics and Modelling. 2019;89:234-41. doi: https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.jmgm.2019.03.010.","http:\u002F\u002Fdx.doi.org\u002Fhttps:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.jmgm.2019.03.010","2022-10-28T21:15:49.192Z",{"id":211,"attributes":212},218,{"title":213,"authors":214,"journal":215,"area":181,"citation":216,"url":217,"notm_url":218,"createdAt":219,"updatedAt":220,"publishedAt":16,"year":27},"Structural, Electronic, and Electrostatic Determinants for Inhibitor Binding to Subsites S1 and S2 in SARS-CoV-2 Main Protease","Kneller DW, Li H, Galanie S, Phillips G, Labbé A, Weiss KL, Zhang Q, Arnould MA, Clyde A, Ma H, Ramanathan A, Jonsson CB, Head MS, Coates L, Louis JM, Bonnesen PV, Kovalevsky A"," Journal of Medicinal Chemistry","Kneller DW, Li H, Galanie S, Phillips G, Labbé A, Weiss KL, Zhang Q, Arnould MA, Clyde A, Ma H, Ramanathan A, Jonsson CB, Head MS, Coates L, Louis JM, Bonnesen PV, Kovalevsky A. Structural, Electronic, and Electrostatic Determinants for Inhibitor Binding to Subsites S1 and S2 in SARS-CoV-2 Main Protease. Journal of Medicinal Chemistry. 2021;64(23):17366-83. doi: 10.1021\u002Facs.jmedchem.1c01475.","http:\u002F\u002Fdx.doi.org\u002F10.1021\u002Facs.jmedchem.1c01475","https:\u002F\u002Fwww.youtube.com\u002Fwatch?v=DG2UIJ4KrAw","2022-10-28T21:15:49.197Z","2022-10-28T22:20:09.603Z",{"id":222,"attributes":223},220,{"title":224,"authors":225,"journal":116,"area":52,"citation":226,"url":227,"notm_url":14,"createdAt":228,"updatedAt":228,"publishedAt":16,"year":17},"Visualizing biomolecular electrostatics in virtual reality with UnityMol-APBS","Laureanti J, Brandi J, Offor E, Engel D, Rallo R, Ginovska B, Martinez X, Baaden M, Baker NA","Laureanti J, Brandi J, Offor E, Engel D, Rallo R, Ginovska B, Martinez X, Baaden M, Baker NA. Visualizing biomolecular electrostatics in virtual reality with UnityMol-APBS. Protein Science. 2020;29(1):237-46. doi: https:\u002F\u002Fdoi.org\u002F10.1002\u002Fpro.3773.","http:\u002F\u002Fdx.doi.org\u002Fhttps:\u002F\u002Fdoi.org\u002F10.1002\u002Fpro.3773","2022-10-28T21:15:49.205Z",{"id":230,"attributes":231},231,{"title":232,"authors":233,"journal":234,"area":181,"citation":235,"url":236,"notm_url":14,"createdAt":237,"updatedAt":237,"publishedAt":16,"year":27},"Shifts in Backbone Conformation of Acetylcholinesterases upon Binding of Covalent Inhibitors, Reversible Ligands and Substrates","Radić Z"," Crystals","Radić Z. Shifts in Backbone Conformation of Acetylcholinesterases upon Binding of Covalent Inhibitors, Reversible Ligands and Substrates. Crystals. 2021;11(12). doi: 10.3390\u002Fcryst11121557.","http:\u002F\u002Fdx.doi.org\u002F10.3390\u002Fcryst11121557","2022-10-28T21:15:49.252Z",{"id":239,"attributes":240},222,{"title":241,"authors":242,"journal":243,"area":11,"citation":244,"url":245,"notm_url":14,"createdAt":246,"updatedAt":246,"publishedAt":16,"year":17},"Examining the potential of VR and AR technologies for education","Magomadov VS"," Journal of Physics: Conference Series","Magomadov VS. Examining the potential of VR and AR technologies for education. Journal of Physics: Conference Series. 2020;1691(1):012160. doi: 10.1088\u002F1742-6596\u002F1691\u002F1\u002F012160.","http:\u002F\u002Fdx.doi.org\u002F10.1088\u002F1742-6596\u002F1691\u002F1\u002F012160","2022-10-28T21:15:49.214Z",{"id":248,"attributes":249},223,{"title":250,"authors":251,"journal":252,"area":181,"citation":253,"url":254,"notm_url":14,"createdAt":255,"updatedAt":255,"publishedAt":16,"year":27},"Refined AI-Generated Drugs for COVID-19 Using Virtual Reality","Manjushree S KG, Mala BM, Shobharani DA, Nirmala S"," Annals of RSCB","Manjushree S KG, Mala BM, Shobharani DA, Nirmala S. Refined AI-Generated Drugs for COVID-19 Using Virtual Reality. Annals of RSCB. 2021;25(4):5748–51. doi: ADD","https:\u002F\u002Fwww.proquest.com\u002Fopenview\u002F7d09e95c5e0d540cd124bc9cfc49d94a\u002F1.pdf?pq-origsite=gscholar&cbl=2031963","2022-10-28T21:15:49.218Z",{"id":257,"attributes":258},225,{"title":259,"authors":260,"journal":261,"area":11,"citation":262,"url":263,"notm_url":14,"createdAt":264,"updatedAt":264,"publishedAt":16,"year":101},"Extended Reality Based Remote Learning Experience During Pandemic: Effectiveness and Barriers","Mathew PS, Pillai AS"," Cham: Springer International Publishing","Mathew PS, Pillai AS. Extended Reality Based Remote Learning Experience During Pandemic: Effectiveness and Barriers. Cham: Springer International Publishing. 2022; p. 15-38.","https:\u002F\u002Flink.springer.com\u002Fbook\u002F10.1007\u002F978-3-030-91394-6","2022-10-28T21:15:49.227Z",{"id":266,"attributes":267},227,{"title":268,"authors":269,"journal":270,"area":11,"citation":271,"url":272,"notm_url":14,"createdAt":273,"updatedAt":273,"publishedAt":16,"year":27},"Intelligence Augmentation for Educators, Training Professionals, and Learners","Olaniyi N, Chuang J, editors"," Adaptive Instructional Systems Design and Evaluation","Olaniyi N, Chuang J, editors. Intelligence Augmentation for Educators, Training Professionals, and Learners. Adaptive Instructional Systems Design and Evaluation. 2021; Cham: Springer International Publishing.","https:\u002F\u002Fdl.acm.org\u002Fdoi\u002Fabs\u002F10.1007\u002F978-3-030-77857-6_15","2022-10-28T21:15:49.235Z",{"id":275,"attributes":276},228,{"title":277,"authors":278,"journal":279,"area":52,"citation":280,"url":281,"notm_url":14,"createdAt":282,"updatedAt":282,"publishedAt":16,"year":27},"VRChem: A Virtual Reality Molecular Builder","Pietikäinen O, Hämäläinen P, Lehtinen J, Karttunen AJ"," Applied Sciences","Pietikäinen O, Hämäläinen P, Lehtinen J, Karttunen AJ. VRChem: A Virtual Reality Molecular Builder. Applied Sciences. 2021;11(22). doi: 10.3390\u002Fapp112210767.","http:\u002F\u002Fdx.doi.org\u002F10.3390\u002Fapp112210767","2022-10-28T21:15:49.239Z",{"id":284,"attributes":285},229,{"title":286,"authors":287,"journal":288,"area":11,"citation":289,"url":290,"notm_url":14,"createdAt":291,"updatedAt":291,"publishedAt":16,"year":17},"Bioscience education 2030 and beyond: Where will technology take the curriculum?","Poronnik P, Sellwood MJ"," Biochemistry and Molecular Biology Education","Poronnik P, Sellwood MJ. Bioscience education 2030 and beyond: Where will technology take the curriculum?. Biochemistry and Molecular Biology Education. 2020;48(6):563-7. doi: https:\u002F\u002Fdoi.org\u002F10.1002\u002Fbmb.21393.","http:\u002F\u002Fdx.doi.org\u002Fhttps:\u002F\u002Fdoi.org\u002F10.1002\u002Fbmb.21393","2022-10-28T21:15:49.244Z",{"id":293,"attributes":294},230,{"title":295,"authors":296,"journal":107,"area":11,"citation":297,"url":298,"notm_url":14,"createdAt":299,"updatedAt":299,"publishedAt":16,"year":27},"Exploring Chemistry with Wireless, PC-Less Portable Virtual Reality Laboratories","Qin T, Cook M, Courtney M","Qin T, Cook M, Courtney M. Exploring Chemistry with Wireless, PC-Less Portable Virtual Reality Laboratories. Journal of Chemical Education. 2021;98(2):521-9. doi: 10.1021\u002Facs.jchemed.0c00954.","http:\u002F\u002Fdx.doi.org\u002F10.1021\u002Facs.jchemed.0c00954","2022-10-28T21:15:49.248Z",{"id":301,"attributes":302},232,{"title":303,"authors":304,"journal":305,"area":11,"citation":306,"url":307,"notm_url":14,"createdAt":308,"updatedAt":308,"publishedAt":16,"year":17},"Learning organic chemistry with virtual reality","Ramírez JÁ, Bueno AMV, editors"," 2020 IEEE International Conference on Engineering Veracruz (ICEV)","Ramírez JÁ, Bueno AMV, editors. Learning organic chemistry with virtual reality. 2020 IEEE International Conference on Engineering Veracruz (ICEV). 2020; 26-29 Oct. 2020.","https:\u002F\u002Fieeexplore.ieee.org\u002Fdocument\u002F9289672","2022-10-28T21:15:49.256Z",{"id":310,"attributes":311},233,{"title":312,"authors":313,"journal":314,"area":181,"citation":315,"url":316,"notm_url":14,"createdAt":317,"updatedAt":317,"publishedAt":16,"year":27},"Live Virus Neutralisation of the 501Y-V1 and 501Y-V2 SARS-CoV-2 Variants following INO-4800 Vaccination of Ferrets","Riddell S, Goldie S, McAuley AJ, Kuiper MJ, Durr PA, Blasdell KR, Tachedjian M, Druce JD, Smith TRF, Broderick KE, Vasan SS"," Frontiers in Immunology","Riddell S, Goldie S, McAuley AJ, Kuiper MJ, Durr PA, Blasdell KR, Tachedjian M, Druce JD, Smith TRF, Broderick KE, Vasan SS. Live Virus Neutralisation of the 501Y-V1 and 501Y-V2 SARS-CoV-2 Variants following INO-4800 Vaccination of Ferrets. Frontiers in Immunology. 2021;12. doi: 10.3389\u002Ffimmu.2021.694857.","http:\u002F\u002Fdx.doi.org\u002F10.3389\u002Ffimmu.2021.694857","2022-10-28T21:15:49.261Z",{"id":319,"attributes":320},221,{"title":321,"authors":322,"journal":234,"area":181,"citation":323,"url":324,"notm_url":325,"createdAt":326,"updatedAt":327,"publishedAt":16,"year":27},"Backbone Conformation Shifts in X-ray Structures of Human Acetylcholinesterase upon Covalent Organophosphate Inhibition","Luedtke S, Bojo C, Li Y, Luna E, Pomar B, Radić Z","Luedtke S, Bojo C, Li Y, Luna E, Pomar B, Radić Z. Backbone Conformation Shifts in X-ray Structures of Human Acetylcholinesterase upon Covalent Organophosphate Inhibition. Crystals. 2021;11(11):1270. https:\u002F\u002Fdoi.org\u002F10.3390\u002Fcryst11111270","https:\u002F\u002Fdoi.org\u002F10.3390\u002Fcryst11111270","https:\u002F\u002Fwww.youtube.com\u002Fwatch?v=CDZilvzTf6o","2022-10-28T21:15:49.210Z","2023-08-23T19:56:28.046Z",{"id":329,"attributes":330},192,{"title":331,"authors":332,"journal":333,"area":11,"citation":334,"url":335,"notm_url":14,"createdAt":336,"updatedAt":336,"publishedAt":16,"year":17},"Building blocks for commodity augmented reality-based molecular visualization and modeling in web browsers","Abriata LA"," PeerJ Computer Science","Abriata LA. Building blocks for commodity augmented reality-based molecular visualization and modeling in web browsers. PeerJ Computer Science. 2020;6:e260. doi: 10.7717\u002Fpeerj-cs.260.","http:\u002F\u002Fdx.doi.org\u002F10.7717\u002Fpeerj-cs.260","2022-10-28T21:15:49.069Z",{"id":338,"attributes":339},194,{"title":340,"authors":341,"journal":342,"area":181,"citation":343,"url":344,"notm_url":14,"createdAt":345,"updatedAt":345,"publishedAt":16,"year":27},"sFLT01-anti-ANG2: a Novel Potent Inhibitor as a Next-generation Anti-angiogenic Molecule","Ahmadieh H, Latifi-navid H, Soheili Z-S, Sadeghi M, Samiei S, Ranaei Pirmardan E, Taghizadeh S, Arab S, Tajbakhsh S, Zakeri F, editors"," Investigative Ophthalmology & Visual Science","Ahmadieh H, Latifi-navid H, Soheili Z-S, Sadeghi M, Samiei S, Ranaei Pirmardan E, Taghizadeh S, Arab S, Tajbakhsh S, Zakeri F, editors. sFLT01-anti-ANG2: a Novel Potent Inhibitor as a Next-generation Anti-angiogenic Molecule. Investigative Ophthalmology & Visual Science. 2021; doi:ADD","https:\u002F\u002Faacrjournals.org\u002Fmct\u002Farticle\u002F10\u002F3\u002F404\u002F91058\u002FsFLT01-A-Novel-Fusion-Protein-with-Antiangiogenic","2022-10-28T21:15:49.081Z",{"id":347,"attributes":348},234,{"title":349,"authors":350,"journal":351,"area":11,"citation":352,"url":353,"notm_url":14,"createdAt":354,"updatedAt":354,"publishedAt":16,"year":128},"An industry perspective of crystallography: its communities and its educational courses and labs","Šišak Jung D"," Crystallography Reviews","Šišak Jung D. An industry perspective of crystallography: its communities and its educational courses and labs. Crystallography Reviews. 2019;25(4):295-315. doi: 10.1080\u002F0889311X.2019.1631295.","http:\u002F\u002Fdx.doi.org\u002F10.1080\u002F0889311X.2019.1631295","2022-10-28T21:15:49.265Z",{"id":356,"attributes":357},235,{"title":358,"authors":359,"journal":360,"area":11,"citation":361,"url":362,"notm_url":14,"createdAt":363,"updatedAt":363,"publishedAt":16,"year":17},"Application of Web-based Immersive Virtual Reality in Mathematics Education","Takac M"," 21th International Carpathian Control Conference (ICCC)","Takac M. Application of Web-based Immersive Virtual Reality in Mathematics Education. 21th International Carpathian Control Conference (ICCC). 2020; 27-29 Oct. 2020.","https:\u002F\u002Fieeexplore.ieee.org\u002Fabstract\u002Fdocument\u002F9257276","2022-10-28T21:15:49.269Z",{"id":365,"attributes":366},236,{"title":367,"authors":368,"journal":369,"area":52,"citation":370,"url":371,"notm_url":14,"createdAt":372,"updatedAt":372,"publishedAt":16,"year":27},"Development and assessment of CootVR, a virtual reality computer program for model building","Todd H, Emsley P"," Acta Crystallographica Section D","Todd H, Emsley P. Development and assessment of CootVR, a virtual reality computer program for model building. Acta Crystallographica Section D. 2021;77(1):19-27. doi: doi:10.1107\u002FS2059798320013625.","http:\u002F\u002Fdx.doi.org\u002Fdoi:10.1107\u002FS2059798320013625","2022-10-28T21:15:49.274Z",{"id":374,"attributes":375},224,{"title":376,"authors":377,"journal":378,"area":11,"citation":379,"url":380,"notm_url":14,"createdAt":381,"updatedAt":382,"publishedAt":16,"year":17},"Virtual Reality Applications and Experiential Learning Needs","Marta Adzgauskaite KA,"," AIS 2020 Virtual Conference Series","Marta Adzgauskaite KA, editor. Virtual Reality Applications and Experiential Learning Needs. AIS 2020 Virtual Conference Series. 2020; San Diego.","https:\u002F\u002Faisel.aisnet.org\u002Ftreos_amcis2020\u002F65\u002F","2022-10-28T21:15:49.223Z","2022-10-28T21:19:17.786Z",{"id":384,"attributes":385},239,{"title":386,"authors":387,"journal":388,"area":52,"citation":389,"url":390,"notm_url":14,"createdAt":391,"updatedAt":391,"publishedAt":16,"year":101},"The emerging potential of interactive virtual reality in drug discovery","Walters RK, Gale EM, Barnoud J, Glowacki DR, Mulholland AJ"," Expert Opin Drug Discov","Walters RK, Gale EM, Barnoud J, Glowacki DR, Mulholland AJ. The emerging potential of interactive virtual reality in drug discovery. Expert Opin Drug Discov. 2022; doi: 10.1080\u002F17460441.2022.2079632.","http:\u002F\u002Fdx.doi.org\u002F10.1080\u002F17460441.2022.2079632","2022-10-28T21:15:49.287Z",{"id":393,"attributes":394},242,{"title":395,"authors":396,"journal":397,"area":52,"citation":398,"url":399,"notm_url":14,"createdAt":400,"updatedAt":400,"publishedAt":16,"year":128},"Molecular Interactions Using New Technology: A Virtual Reality Gaming Platform to Visualize and Manipulate Molecules","Zhang W FJ, Sculley C, McGraw J, Chopra G"," ChemRxiv","Zhang W FJ, Sculley C, McGraw J, Chopra G. Molecular Interactions Using New Technology: A Virtual Reality Gaming Platform to Visualize and Manipulate Molecules. ChemRxiv. 2019;Cambridge: Cambridge Open Engage.","https:\u002F\u002Fchemrxiv.org\u002Fengage\u002Fchemrxiv\u002Farticle-details\u002F60c744b5bdbb8901e2a3888a","2022-10-28T21:15:49.301Z",{"id":402,"attributes":403},212,{"title":404,"authors":405,"journal":406,"area":181,"citation":407,"url":408,"notm_url":14,"createdAt":409,"updatedAt":409,"publishedAt":16,"year":17},"Rational design, synthesis, and evaluation of uncharged, \"smart\" bis-oxime antidotes of organophosphate-inhibited human acetylcholinesterase","Gorecki L, Gerlits O, Kong X, Cheng X, Blumenthal DK, Taylor P, Ballatore C, Kovalevsky A, Radić Z"," J Biol Chem","Gorecki L, Gerlits O, Kong X, Cheng X, Blumenthal DK, Taylor P, Ballatore C, Kovalevsky A, Radić Z. Rational design, synthesis, and evaluation of uncharged, \"smart\" bis-oxime antidotes of organophosphate-inhibited human acetylcholinesterase. J Biol Chem. 2020;295(13):4079-92. Epub 2020\u002F02\u002F04. doi: 10.1074\u002Fjbc.RA119.012400.","http:\u002F\u002Fdx.doi.org\u002F10.1074\u002Fjbc.RA119.012400","2022-10-28T21:15:49.169Z",{"id":411,"attributes":412},238,{"title":413,"authors":387,"journal":414,"area":52,"citation":415,"url":416,"notm_url":14,"createdAt":417,"updatedAt":418,"publishedAt":16,"year":101},"Interactivity: the missing link between virtual reality technology and drug discovery pipelines"," arXiv","Walters RK, Gale EM, Barnoud J, Glowacki DR, Mulholland AJ. Interactivity: the missing link between virtual reality technology and drug discovery pipelines. arXiv. 2022; https:\u002F\u002Fdoi.org\u002F10.48550\u002FarXiv.2202.03953."," https:\u002F\u002Fdoi.org\u002F10.48550\u002FarXiv.2202.03953","2022-10-28T21:15:49.283Z","2023-08-22T05:20:04.971Z",{"id":420,"attributes":421},219,{"title":422,"authors":423,"journal":152,"area":52,"citation":424,"url":425,"notm_url":14,"createdAt":426,"updatedAt":426,"publishedAt":16,"year":17},"Immersive Analysis of Crystallographic Diffraction Data","Knote A, Mammen Sv, Gao Y, Thorn A","Knote A, Mammen Sv, Gao Y, Thorn A. Immersive Analysis of Crystallographic Diffraction Data.  26th ACM Symposium on Virtual Reality Software and Technology Virtual Event Canada: Association for Computing Machinery. 2020; p. Article 58.","https:\u002F\u002Fdoi.org\u002F10.1145\u002F3385956.3422097","2022-10-28T21:15:49.201Z",{"id":428,"attributes":429},241,{"title":430,"authors":431,"journal":432,"area":11,"citation":433,"url":434,"notm_url":14,"createdAt":435,"updatedAt":435,"publishedAt":16,"year":27},"Technical Details and Educational Applications for Virtual Reality Technologies","Wang Y"," Current and Prospective Applications of Virtual Reality in Higher Education","Wang Y. Technical Details and Educational Applications for Virtual Reality Technologies. Current and Prospective Applications of Virtual Reality in Higher Education. Hershey, PA, USA: IGI Global. 2021; p. 74-95.","https:\u002F\u002Fwww.igi-global.com\u002Fchapter\u002Ftechnical-details-and-educational-applications-for-virtual-reality-technologies\u002F259658","2022-10-28T21:15:49.297Z",{"id":437,"attributes":438},252,{"title":439,"authors":440,"journal":441,"area":181,"citation":442,"url":443,"notm_url":14,"createdAt":444,"updatedAt":445,"publishedAt":446,"year":447},"A Virtual and Mixed Reality Platform for Molecular Design & Drug Discovery - Nanome Version 1.24","Bennie S, Maritan M, Gast J, Loschen M, Gruffat D, Bartolotta R, Hessenauer S, Leija E, McCloskey S.","The Eurographics Association","Bennie S, Maritan M, Gast J, Loschen M, Gruffat D, Bartolotta R, Hessenauer S, Leija E, McCloskey S. A Virtual and Mixed Reality Platform for Molecular Design & Drug Discovery - Nanome Version 1.24. 5th Workshop on Molecular Graphics and Visual Analysis of Molecular Data, 2023; 2023\u002F06\u002F12, The Eurographics Association. https:\u002F\u002Fdoi.org\u002F10.2312\u002Fmolva.20231114","https:\u002F\u002Fdiglib.eg.org:443\u002Fhandle\u002F10.2312\u002Fmolva20231114","2023-06-12T17:32:33.062Z","2023-06-12T19:14:54.268Z","2023-06-12T17:38:15.908Z",2023,{"id":449,"attributes":450},244,{"title":451,"authors":452,"journal":453,"area":11,"citation":454,"url":455,"notm_url":14,"createdAt":456,"updatedAt":457,"publishedAt":458,"year":101},"Can Virtual Reality Increases Students Interest in Computational Chemistry Course? A Review","Jumbri K, Ishak MAI","Jurnal Penelitian Dan Pengkajian Ilmu Pendidikan: E-Saintika","Jumbri, K., & Ishak, M. A. I. (2022). Can Virtual Reality Increases Students Interest in Computational Chemistry Course? A Review. Jurnal Penelitian Dan Pengkajian Ilmu Pendidikan: E-Saintika, 6(3), 190–201. https:\u002F\u002Fdoi.org\u002F10.36312\u002Fesaintika.v6i3.885","https:\u002F\u002Fdoi.org\u002F10.36312\u002Fesaintika.v6i3.885","2022-12-05T20:36:25.101Z","2023-08-23T19:57:22.537Z","2022-12-05T20:38:57.506Z",{"id":460,"attributes":461},245,{"title":462,"authors":463,"journal":464,"area":11,"citation":465,"url":466,"notm_url":14,"createdAt":467,"updatedAt":468,"publishedAt":469,"year":447},"Virtual Reality as a Medium of Asynchronous Content Delivery for Teaching about Enzymes. Journal of Chemical Education","Abbasi I, Rasool S, Habib U.","Journal of Chemical Education","Abbasi I, Rasool S, Habib U. Virtual Reality as a Medium of Asynchronous Content Delivery for Teaching about Enzymes. Journal of Chemical Education. 2023;100(3):1203-10. doi: 10.1021\u002Facs.jchemed.2c01113.","https:\u002F\u002Fpubs.acs.org\u002Fdoi\u002Fabs\u002F10.1021\u002Facs.jchemed.2c01113","2023-03-28T00:45:11.005Z","2023-03-28T00:45:35.418Z","2023-03-28T00:45:16.140Z",{"id":471,"attributes":472},246,{"title":473,"authors":474,"journal":475,"area":11,"citation":476,"url":477,"notm_url":14,"createdAt":478,"updatedAt":479,"publishedAt":480,"year":447},"Eliciting Co-Creation Best Practices of Virtual Reality Reusable e-Resources","Antoniou PE, Pears M, Schiza EC, Frangoudes F, Pattichis CS, Wharrad H","Virtual Worlds","Antoniou PE, Pears M, Schiza EC, Frangoudes F, Pattichis CS, Wharrad H, et al. Eliciting Co-Creation Best Practices of Virtual Reality Reusable e-Resources. Virtual Worlds [Internet]. 2023; 2(1):[75-89 pp.].","https:\u002F\u002Fdoi.org\u002F10.3390\u002Fvirtualworlds2010005","2023-03-28T00:50:49.632Z","2023-03-28T00:58:19.738Z","2023-03-28T00:58:19.734Z",{"id":482,"attributes":483},249,{"title":484,"authors":485,"journal":486,"area":11,"citation":487,"url":488,"notm_url":14,"createdAt":489,"updatedAt":490,"publishedAt":491,"year":447},"A Glimpse into the Future","Surveswaran S, Deshpande L. A","AI in Clinical Medicine","Surveswaran S, Deshpande L. A Glimpse into the Future.  AI in Clinical Medicine2023. p. 521-7. doi.org\u002F10.1002\u002F9781119790686.ch47","https:\u002F\u002Fdoi.org\u002F10.1002\u002F9781119790686.ch47","2023-03-28T00:57:58.783Z","2023-03-28T00:57:59.941Z","2023-03-28T00:57:59.936Z",{"id":493,"attributes":494},247,{"title":495,"authors":496,"journal":497,"area":11,"citation":498,"url":499,"notm_url":14,"createdAt":500,"updatedAt":501,"publishedAt":502,"year":101},"Classroom Model for Virtual Reality Integration and Unlocking Student Creativity. In: MacDowell P, Lock J, editors. Immersive Education: Designing for Learning","Kaser D. A ","Immersive Education: Designing for Learning","Kaser D. A Classroom Model for Virtual Reality Integration and Unlocking Student Creativity. In: MacDowell P, Lock J, editors. Immersive Education: Designing for Learning. Cham: Springer International Publishing; 2022. p. 249-72.","https:\u002F\u002Flink.springer.com\u002Fchapter\u002F10.1007\u002F978-3-031-18138-2_15","2023-03-28T00:52:37.253Z","2023-03-28T00:58:14.856Z","2023-03-28T00:58:14.847Z",{"id":504,"attributes":505},248,{"title":506,"authors":507,"journal":508,"area":52,"citation":509,"url":510,"notm_url":14,"createdAt":511,"updatedAt":512,"publishedAt":513,"year":447},"State of the Art of Molecular Visualization in Immersive Virtual Environments","Kuťák D, Vázquez P-P, Isenberg T, Krone M, Baaden M, Byška J","Computer Graphics Forum","Kuťák D, Vázquez P-P, Isenberg T, Krone M, Baaden M, Byška J, et al. State of the Art of Molecular Visualization in Immersive Virtual Environments. Computer Graphics Forum. 2023;n\u002Fa(n\u002Fa). doi: https:\u002F\u002Fdoi.org\u002F10.1111\u002Fcgf.14738.","https:\u002F\u002Fonlinelibrary.wiley.com\u002Fdoi\u002Ffull\u002F10.1111\u002Fcgf.14738","2023-03-28T00:54:24.859Z","2023-03-28T00:58:24.107Z","2023-03-28T00:58:24.103Z",{"id":515,"attributes":516},250,{"title":517,"authors":518,"journal":519,"area":11,"citation":520,"url":521,"notm_url":14,"createdAt":522,"updatedAt":523,"publishedAt":524,"year":447},"Understanding How News Content Utilizes Experiential Media (AR, VR, and 360° Video)in COVID-19 Storytelling","Iyer SR","Athens Journal of Mass Media and Communications","Iyer SR. Understanding How News Content Utilizes Experiential Media (AR, VR, and 360° Video)in COVID-19 Storytelling. Athens Journal of Mass Media and Communications. 2023;9(2):85-112. Epub April 2023. doi: https:\u002F\u002Fdoi.org\u002F10.30958\u002Fajmmc.9-2-2.","https:\u002F\u002Fdoi.org\u002F10.30958\u002Fajmmc.9-2-2","2023-03-28T01:00:24.384Z","2023-03-28T01:00:26.122Z","2023-03-28T01:00:26.118Z",{"id":526,"attributes":527},251,{"title":528,"authors":529,"journal":530,"area":181,"citation":531,"url":532,"notm_url":14,"createdAt":533,"updatedAt":534,"publishedAt":535,"year":447},"The Impact of the Scientific Metaverse on the Biotech Industry: How Virtual Reality Helped Researchers Fight Back Against COVID-19","C. Talarico, E. Leija","Springer International Publishing 2023 ","Talarico, C., Leija, E. (2023). The Impact of the Scientific Metaverse on the Biotech Industry: How Virtual Reality Helped Researchers Fight Back Against COVID-19. In: Coletti, S., Bernardi, G. (eds) Exscalate4CoV. SpringerBriefs in Applied Sciences and Technology. Springer, Cham. https:\u002F\u002Fdoi.org\u002F10.1007\u002F978-3-031-30691-4_5","https:\u002F\u002Fdoi.org\u002F10.1007\u002F978-3-031-30691-4_5","2023-05-12T18:11:02.854Z","2023-05-12T18:11:10.840Z","2023-05-12T18:11:10.836Z",{"id":537,"attributes":538},237,{"title":539,"authors":540,"journal":541,"area":181,"citation":542,"url":543,"notm_url":14,"createdAt":544,"updatedAt":545,"publishedAt":16,"year":174},"Interactive 3D Graphs Alongside Atomic Resolution Macromolecular Structures in the VR Space","Tran A, Zheng Z, Rohrer J, Martins S, Radić Z, editors"," The FASEB Journal","Tran A, Zheng Z, Rohrer J, Martins S, Radić Z, editors. Interactive 3D Graphs Alongside Atomic Resolution Macromolecular Structures in the VR Space. The FASEB Journal. 2018; 2018\u002F04\u002F01: John Wiley & Sons, Ltd. doi: https:\u002F\u002Fdoi.org\u002F10.1096\u002Ffasebj.2018.32.1_supplement.lb61 ","https:\u002F\u002Fdoi.org\u002F10.1096\u002Ffasebj.2018.32.1_supplement.lb61","2022-10-28T21:15:49.279Z","2023-06-12T17:34:10.020Z",{"id":547,"attributes":548},243,{"title":549,"authors":550,"journal":397,"area":181,"citation":551,"url":552,"notm_url":553,"createdAt":554,"updatedAt":555,"publishedAt":16,"year":17},"Potential Non-Covalent SARS-CoV-2 3C-like Protease Inhibitors Designed Using Generative Deep Learning Approaches and Reviewed by Human Medicinal Chemist in Virtual Reality","Zhavoronkov A, Zagribelnyy B, Zhebrak A, Aladinskiy V, Terentiev V, Vanhaelen Q, Bezrukov D, Polykovskiy D, Shayakhmetov R, Filimonov A, Bishop M, McCloskey S, Leija E, Bright D, Funakawa K, Lin Y-C, Huang S-H, Liao H-J, Aliper A, Ivanenkov Y","Zhavoronkov A, Zagribelnyy B, Zhebrak A, Aladinskiy V, Terentiev V, Vanhaelen Q, Bezrukov D, Polykovskiy D, Shayakhmetov R, Filimonov A, Bishop M, McCloskey S, Leija E, Bright D, Funakawa K, Lin Y-C, Huang S-H, Liao H-J, Aliper A, Ivanenkov Y. Potential Non-Covalent SARS-CoV-2 3C-like Protease Inhibitors Designed Using Generative Deep Learning Approaches and Reviewed by Human Medicinal Chemist in Virtual Reality. ChemRxiv. 2020; doi: 10.26434\u002Fchemrxiv.12301457.v1.","http:\u002F\u002Fdx.doi.org\u002F10.26434\u002Fchemrxiv.12301457.v1","https:\u002F\u002Fwww.youtube.com\u002Fwatch?v=KnQqR6G00sE","2022-10-28T21:15:49.307Z","2022-10-28T22:21:19.374Z",{"id":557,"attributes":558},226,{"title":559,"authors":560,"journal":561,"area":181,"citation":562,"url":563,"notm_url":564,"createdAt":565,"updatedAt":566,"publishedAt":16,"year":17},"Experimental and in silico evidence suggests vaccines are unlikely to be affected by D614G mutation in SARS-CoV-2 spike protein","McAuley AJ, Kuiper MJ, Durr PA, Bruce MP, Barr J, Todd S, Au GG, Blasdell K, Tachedjian M, Lowther S, Marsh GA, Edwards S, Poole T, Layton R, Riddell S-J, Drew TW, Druce JD, Smith TRF, Broderick KE, Vasan SS"," npj Vaccines","McAuley AJ, Kuiper MJ, Durr PA, Bruce MP, Barr J, Todd S, Au GG, Blasdell K, Tachedjian M, Lowther S, Marsh GA, Edwards S, Poole T, Layton R, Riddell S-J, Drew TW, Druce JD, Smith TRF, Broderick KE, Vasan SS. Experimental and in silico evidence suggests vaccines are unlikely to be affected by D614G mutation in SARS-CoV-2 spike protein. npj Vaccines. 2020;5(1):96. doi: 10.1038\u002Fs41541-020-00246-8.","http:\u002F\u002Fdx.doi.org\u002F10.1038\u002Fs41541-020-00246-8","https:\u002F\u002Fwww.youtube.com\u002Fwatch?v=de89sFYbc4E ","2022-10-28T21:15:49.231Z","2022-10-28T22:20:42.806Z",{"pagination":568},{"page":569,"pageSize":570,"pageCount":569,"total":571},1,100,59,1775871859876]