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# N.M. Gravina, J.C. Gumbart and H.D. Kim, ''J. Phys. Chem. B'' accepted (2021) | # N.M. Gravina, J.C. Gumbart and H.D. Kim, ''J. Phys. Chem. B'' accepted (2021) | ||
#: [https://doi.org/10.1021/acs.jpcb.1c00432 Coarse-Grained Simulations of DNA Reveal Angular Dependence of Sticky-End Binding] | #: [https://doi.org/10.1021/acs.jpcb.1c00432 Coarse-Grained Simulations of DNA Reveal Angular Dependence of Sticky-End Binding] | ||
# A. Sengar, T.E. Ouldridge, O. Henrich, L. Rovigatti and P. | # A. Sengar, T.E. Ouldridge, O. Henrich, L. Rovigatti and P. Šulc, ''Front. Mol. Biosci.'', submitted (2021) | ||
#: A primer on the oxDNA model of DNA: When to use it, how to simulate it and how to interpret the results ([https://arxiv.org/abs/2104.11567 arXiv]) | #: A primer on the oxDNA model of DNA: When to use it, how to simulate it and how to interpret the results ([https://arxiv.org/abs/2104.11567 arXiv]) | ||
We are also maintaining a list of all published papers using oxDNA at [https://publons.com/researcher/3051012/oxdna-oxrna/ publons]. | We are also maintaining a list of all published papers using oxDNA at [https://publons.com/researcher/3051012/oxdna-oxrna/ publons]. |
Revision as of 10:29, 26 April 2021
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- J. S. Schreck, F. Romano, M.H. Zimmer, A.A. Louis and J.P.K. Doye, ACS Nano, 10, 4236-4247 (2016)
- M. Liu, J. Cheng, S.R. Tee, S. Sreelatha, I.Y. Loh, and Z. Wang, ACS Nano, 10, 5882–5890 (2016)
- J. Fernandez-Castanon, F. Bomboi, L. Rovigatti, M. Zanatta, A. Paciaroni, L. Comez, L. Porcar, C.J. Jafta, G.C. Fadda, T. Bellini and F. Sciortino, J. Chem. Phys. 145, 084910 (2016)
- T. Sutthibutpong, C. Matek, C. Benham, G.G. Slade, A. Noy, C. Laughton, J.P.K. Doye, A.A. Louis and S.A. Harris, Nucleic Acids Res. 44, 9121-9130 (2016)
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- A. Reinhardt, J.S. Schreck, F. Romano and J.P.K. Doye, J. Phys: Condens. Matter 29, 014006 (2017).
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- H. Yagyu, J.-Y. Lee, D.-N. Kim, and O. Tabata, J. Phys. Chem. B 121, 5033–5039 (2017)
- S. Vangaveti, R. J. D'Esposito, J. L. Lippens, D. Fabris and S. V. Ranganathan, Phys. Chem. Chem. Phys. 19, 14937-14946 (2017)
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- R. Sharma, J. S. Schreck, F. Romano, A.A. Louis and J.P.K. Doye, ACS Nano 11, 12426–12435 (2017)
- Q.Y. Yeo, I.Y. Loh, S.R. Tee, Y.H. Chiang, J. Cheng, M.H. Liu and Z.S. Wang, Nanoscale 9, 12142-12149 (2017)
- Q. Wang, R.N. Irobalieva, W. Chiu, M.F. Schmid, J.M. Fogg, L. Zechiedrich, B.M. Pettitt, Nucleic Acids Res. 45 7633-7642 (2017)
- B. Joffroy, Y.O. Uca, D. Prešern, J.P.K. Doye and T.L. Schmidt, Nucleic Acids Res. 46, 538-545 (2018)
- R.V. Reshetnikov, A.V. Stolyarova, A.O. Zalevsky, D.Y. Panteleev, G.V. Pavlova, D.V. Klinov, A.V. Golovin, A.D. Protopopova, Nucleic Acids Res. 46, 1102–1112 (2018)
- D.C. Khara, J.S. Schreck, T.E. Tomov, Y. Berger, T.E. Ouldridge, J.P.K. Doye and E. Nir, Nucleic Acids Res. 46, 1553-1561 (2018)
- P. Fonseca, F. Romano, J. S. Schreck, T.E. Ouldridge, J.P.K. Doye and A.A. Louis, J. Chem. Phys 148, 134910 (2018)
- T.D. Craggs, M. Sustarsic, A. Plochowietz, M. Mosayebi, H. Kaju, A. Cuthbert, J. Hohlbein, L. Domicevica, P.C. Biggin, J.P.K. Doye and A.N. Kapanidis, Nucleic Acids Res. 47, 10788–10800 (2019)
- S.R. Tee and Z. Wang, ACS Omega, 3, 292-301 (2018)
- E. Skoruppa, S.K. Nomidis, J.F. Marko and E. Carlon, Phys. Rev. Lett. 121, 088101 (2018)
- M.M.C. Tortora and J.P.K. Doye, Mol. Phys. 116, 2773-2791 (2018)
- O. Henrich, Y.A. Gutierrez-Fosado, T. Curk, T.E. Ouldridge, Eur. Phys. J. E 41, 57 (2018)
- M.C. Engel, D. M. Smith, M.A. Jobst, M. Sajfutdinow, T. Liedl, F. Romano, L. Rovigatti, A.A. Louis and J.P.K. Doye, ACS Nano 12, 6734-6747 (2018)
- F. Romano and L. Rovigatti, in Design of Self-Assembling Materials (Springer, ed. I. Coluzza) pp 71-90 (2017)
- S.R. Tee, X. Hu, I.Y. Loh and Z. Wang, Phys. Rev. Applied 9, 034025 (2018)
- E. Locatelli and L. Rovigatti, Polymers 10, 447 (2018)
- E. Spruijt, S.E. Tusk and H. Bayley, Nature Nanotechnology 13, 739-745 (2018)
- L. Coronel, A. Suma and C. Micheletti, Nucleic Acids Res. 46,7522–7532 (2018)
- E. Torelli, J.W. Kozyra, J.-Y. Gu, U. Stimming, L. Piantanida. K. Voitchovsky and N. Krasnogor, Scientific Reports 8, 6989 (2018)
- R. Jin and L. Maibaum, J. Chem. Phys. 150, 105103 (2019)
- F. Kriegel, C. Matek, T. Dršata, K. Kulenkampff, S. Tschirpke, M. Zacharias, F. Lankas and J. Lipfert, Nucleic Acids Res. 46, 7998–8009 (2018)
- E. Benson, A. Mohammed, D. Rayneau-Kirkhope, A. Gådin, P. Orponen, and B. Högberg, ACS Nano 12, 9291-9299 (2018)
- S.K. Nomidis, E. Skoruppa, E. Carlon and J.F. Marko, Phys. Rev. E 99 032414 (2019).
- B. E. K. Snodin, J. S. Schreck, F. Romano, A.A. Louis and J.P.K. Doye, Nucleic Acids Res. 47, 1585–1597 (2019).
- N. E. C. Haley, T. E. Ouldridge, A. Geraldini, A. A. Louis, J. Bath and A. J. Turberfield, Nat. Commun 11, 2562 (2020)
- L. Zhou, A.E. Marras, C.-M. Huang, C.E. Castro and H.-J Su, Small 14, 1802580 (2018)
- R. A. Brady, W.T. Kaufhold, N.J. Brooks, V. Foderà and L. Di Michele, J. Phys. Condens. Matter 31, 074003 (2019)
- F. Hong, S. Jiang, X. Lan, R.P. Narayanan, P. Šulc, F. Zhang, Y. Liu, and H. Yan, J. Am. Chem. Soc. 140, 14670–14676 (2018)
- Y. Choi, H. Choi, A.C. Lee, S. Kwon, J. Vis. Exp., e58364 (2018)
- M.M.C. Tortora, G. Mishra, D. Prešern and J.P.K. Doye, Sci. Adv. 6, eaaw8331 (2020)
- C.-M. Huang, A. Kucinic, J.V. Le, C.E. Castro and H.-J. Su, Nanoscale 11, 1647-1660 (2019)
- I.T. Hoffecker, S. Chen, A. Gådin, A. Bosco, A.I. Teixeira and B. Högberg, Small 15, 1803628 (2019)
- M. Coraglio, E. Skoruppa and E. Carlon, J. Chem. Phys. 150, 135101 (2019)
- M. Matthies, N.P. Agarwal, E. Poppleton, F.M. Joshi, P. Šulc, and T.L. Schmidt, ACS Nano 13 1839-1848 (2019)
- Y.A.G. Fosado, Z. Xing, E. Eiser, M. Hudek, O. Henrich, submitted
- A Numerical Study of Three-Armed DNA Hydrogel Structures (arXiv)
- W.T. Kaufhold, R.A. Brady, J.M. Tuffnell, P. Cicuta, and L. Di Michele, Bioconjugate Chem 30, 1850-1859 (2019)
- S.K. Nomidis, M. Coraglio, M. Laleman, K. Phillips, E. Skoruppa and E. Carlon, Phys. Rev. E 100, 022402 (2019)
- A. Suma, A. Stopar, A.W. Nicholson, M. Castronovo, V. Carnevale, Nucleic Acids Res. 48, 4672–4680 (2020)
- J. Liu, S. Shukor, S. Li, A. Tamayo, L. Tosi, B. Larman, V. Nanda, W.K. Olson and B. Parekkadan, Biomolecules 9, 199 (2019)
- A. Suma, E. Poppleton, M. Matthies, P. Šulc, F. Romano, A.A. Louis, J.P.K. Doye, C. Micheletti, and L. Rovigatti, J. Comput. Chem. 40, 2586-2595 (2019)
- J.F. Berengut, J.C. Berengut, J.P.K. Doye, D. Prešern, A. Kawamoto, J. Ruan, M.J. Wainwright and L.K. Lee,, Nucleic Acids Res. 47, 11963–11975(2019)
- K.G. Young, B. Najafi, W.M. Sant, S. Contera, A.A. Louis, J.P.K. Doye, A.J. Turberfield and J. Bath, Angew. Chem. Int. Ed. 59, 15942-15946 (2020)
- I.D. Stoev, T. Cao, A. Caciagli, J. Yu, C. Ness, R. Liu, R. Ghosh, T. O'Neill, D. Liu and E. Eiser, Soft Matter 16, 990-1001 (2020)
- E. Benson, M. Lolaico, Y. Tarasov, A. Gådin and B. Högberg, ACS Nano 13, 12591-12598 (2019)
- S.W. Shin, S.Y. Ahn, Y.T. Lim and S.H. Um, Anal. Chem. 91, 14808-14811 (2019)
- Z. Shi and G. Arya, Nucleic Acids Research 48, 548-560 (2020)
- E. Torelli, J.W. Kozyra, B. Shirt-Ediss, L. Piantanida, K. Voïtchovsky, N. Krasnogor, ACS Synth. Biol. 9, 1682-1692 (2020)
- P.R Desai, S. Brahmachari, J.F. Marko, S. Das, K.C. Neuman, Nucleic Acids Res. 48, 10713–10725 (2020)
- Coarse-Grained Modeling of DNA Plectoneme Formation in the Presence of Base-Pair Mismatches (bioRxiv)
- K. Bartnik, A. Barth, M. Pilo-Pais, A.H. Crevenna, T. Liedl and D.C. Lamb, J. Am. Chem. Soc 142, 815-825 (2020).
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- M.C. Engel, F. Romano, A.A. Louis and J.P.K. Doye, J. Chem. Theor. Comput. 16, 7764–7775 (2020).
- C. Bores and B.M. Pettitt, Phys. Rev. E 101, 012406 (2020)
- A. Bader and S.L. Cockroft, Chem. Commun. 56, 5135-5138 (2020)
- J.P.K. Doye, H. Fowler, D. Prešern, J. Bohlin, L. Rovigatti, F. Romano, P. Šulc, C.K. Wong, A.A. Louis, J.S. Schreck and M.C. Engel, M. Matthies, E. Benson, E. Poppleton and B.E.K. Snodin, Methods in Molecular Biology, submitted.
- J. Lee, J.-H. Huh, S. Lee, Langmuir 36, 5118–5125 (2020)
- A.H. Clowsley, W.T. Kaufhold, T. Lutz, A. Meletiou, L. Di Michele, C. Soeller, Nat. Commun. 12, 501 (2021)
- B. Najafi, K.G. Young, J. Bath, A.A. Louis, J.P.K. Doye and A.J. Turberfield, submitted
- Characterising DNA T-motifs by simulation and experiment (arXiv)
- C.M. Huang, A. Kucinic, J.A. Johnson, H.-J. Su, C.E. Castro, submitted
- Integrating computer-aided engineering and computer-aided design for DNA assemblies (bioRxiv)
- P. Irmisch, T.E. Ouldridge, and R. Seidel, J. Am. Chem. Soc 142, 11451–11463 (2020)
- F. Hong, J.S. Schreck and P. Šulc, Nucleic Acids Res. 48, 10726–10738 (2020).
- A.H. Clowsley, W.T. Kaufhold, T. Lutz, A. Meletiou, L. Di Michele, C. Soeller, J. Am. Chem. Soc. 142, 12069–12078 (2020)
- H. Chhabra, G. Mishra, Y. Cao, D. Prešern, E. Skoruppa, M.M.C. Tortora and J.P.K. Doye, J. Chem. Theor. Comput. 16, 7748–7763 (2020).
- K. Tapio, A. Mostafa, Y. Kanehira, A. Suma, A. Dutta, I. Bald, ACS Nano accepted (2021)
- E.G. Noya, C.K. Wong, P. Llombart and J.P.K. Doye, submitted
- How to design an icosahedral quasicrystal through directional bonding
- Y.A.G. Fosado, F. Landuzzi and T. Sakaue, Soft Matter 17, 1530-1537 (2021)
- F. Spinozzi, M.G. Ortore, G. Nava, F. Bomboi, F. Carducci, H. Amenitsch, T. Bellini, F. Sciortino, and P. Mariani, Langmuir 36, 10387–10396 (2020)
- J. Huang A. Suma, M. Cui, G. Grundmeier, V. Carnevale, Y. Zhang, C. Kielar and A. Keller, Small Str. 1, 2000038 (2020)
- G. Yao, F. Zhang, F. Wang, T. Peng, H. Liu, E. Poppleton, P. Šulc, S. Jiang, L. Liu, C. Gong, X. Jing, X. Liu, L. Wang, Y. Liu, C. Fan and H. Yan, Nat. Chem. 12, 1067–1075 (2020)
- J.F. Berengut, C.K. Wong, J.C. Berengut, J.P.K. Doye, T.E. Ouldridge and L.K. Lee, ACS Nano 14, 17428–17441 (2020)
- J. Procyk, E. Poppleton and P. Šulc, Soft Matter 17, 3586-3593 (2021).
- Z. Sierzega, J. Wereszczynski and C. Prior, Sci. Rep. 11, 1527 (2021)
- E. Skoruppa, A. Voorspoels, J. Vreede and E. Carlon, Phys. Rev. E 103, 042408 (2021)
- C. Bores, M. Woodson, M.C. Morais, and B. Montgomery Pettitt, J. Phys. Chem. B 124, 10337–10344 (2020)
- E. Lattuada, D. Caprara, V. Lamberti, F. Sciortino, Nanoscale 12, 23003-23012 (2020)
- B.J.H.M. Rosier, A.J. Markvoort, B. Gumí Audenis, J.A.L. Roodhuizen, A. den Hamer, L. Brunsveld and T.F.A. de Greef, Nat. Catal. 3, 295–306 (2020)
- R. Li, H. Chen and J.H. Choi, Angew. Chem. Int. Ed. 60, 7165-7173 (2021)
- D. Wang, L. Yu, C.-M. Huang, G. Arya, S. Chang, and Y. Ke, J. Am. Chem. Soc. 143, 2256–2263 (2021)
- R. Li, H. Chen, H. Lee, J. H. Choi, Appl. Sci. 11, 2357 (2021)
- G. Park, M. K. Cho, and Y. Jung, J. Chem. Theory Comput., 17 1308-1317 (2021)
- S. Jonchhe, S. Pandey, D. Karna, P. Pokhrel, Y. Cui, S. Mishra, H. Sugiyama, M. Endo and H. Mao, J. Am. Chem. Soc 142, 10042–10049 (2020)
- R. Li, H. Chen and J. H. Choi, Small 17, 2007069 (2021)
- S. Naskar, P. K. Maiti, submitted
- Mechanical properties of DNA and DNA nanostructures: comparison of atomistic, martini and oxDNA (arXiv)
- B. Babatunde, S. Arias, J. Cagan and R.E. Taylor, Appl. Sci. 11, 2950 (2021)
- N.M. Gravina, J.C. Gumbart and H.D. Kim, J. Phys. Chem. B accepted (2021)
- A. Sengar, T.E. Ouldridge, O. Henrich, L. Rovigatti and P. Šulc, Front. Mol. Biosci., submitted (2021)
- A primer on the oxDNA model of DNA: When to use it, how to simulate it and how to interpret the results (arXiv)
We are also maintaining a list of all published papers using oxDNA at publons.