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# M. van Galen, A. Bok, T. Peshkovsky, J. van der Gucht, B. Albada and J. Sprakel, ''Nat. Chem.'' accepted (2024) | # M. van Galen, A. Bok, T. Peshkovsky, J. van der Gucht, B. Albada and J. Sprakel, ''Nat. Chem.'' accepted (2024) | ||
#: [https://doi.org/10.1038/s41557-024-01571-4 De novo DNA-based catch bonds] | #: [https://doi.org/10.1038/s41557-024-01571-4 De novo DNA-based catch bonds] | ||
# Y. Hu, J. Rogers, Y. Duan, A. Velusamy, S. Narum, S. Al Abdullatif and K. Salaita, ''Nat. Nanotechnol.'' | # Y. Hu, J. Rogers, Y. Duan, A. Velusamy, S. Narum, S. Al Abdullatif and K. Salaita, ''Nat. Nanotechnol.'' '''19''', 1674–1685 (2024) | ||
#: [https://doi.org/10.1038/s41565-024-01723-0 Quantifying T cell receptor mechanics at membrane junctions using DNA origami tension sensors] | #: [https://doi.org/10.1038/s41565-024-01723-0 Quantifying T cell receptor mechanics at membrane junctions using DNA origami tension sensors] | ||
# D. Svenšek, J. Sočan and M. Praprotnik, ''Macromol. Rapid Commun.'' accepted 2400382 (2024) | # D. Svenšek, J. Sočan and M. Praprotnik, ''Macromol. Rapid Commun.'' accepted 2400382 (2024) | ||
Line 627: | Line 627: | ||
# Y. Guo, T. Xiong, H. Yan and R.X. Zhang, submitted | # Y. Guo, T. Xiong, H. Yan and R.X. Zhang, submitted | ||
#: Correlation of precisely fabricated geometric characteristics of DNA-origami nanostructures with their cellular entry in human lens epithelial cells ([https://doi.org/10.21203/rs.3.rs-4897446/v1 ResearchSquare]) | #: Correlation of precisely fabricated geometric characteristics of DNA-origami nanostructures with their cellular entry in human lens epithelial cells ([https://doi.org/10.21203/rs.3.rs-4897446/v1 ResearchSquare]) | ||
# K. Zhou, M. Chung, J. Cheng, J.T. Powell, J. Liu, Y. Xiong, M.A. Schwartz and C. Lin, submitted. | |||
#: DNA nanodevice for analysis of force-activated protein extension and interactions ([https://doi.org/10.1101/2024.10.25.620262 bioRxiv]) | |||
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]. |
Latest revision as of 01:42, 18 November 2024
- T. E. Ouldridge, A. A. Louis and J. P. K. Doye, Phys. Rev. Lett. 104, 178101 (2010)
- T. E. Ouldridge, A. A. Louis and J. P. K. Doye, J. Phys. Condens. Matter. 22, 104102 (2010)
- T. E. Ouldridge, A. A. Louis and J. P. K. Doye, J. Chem. Phys, 134, 085101 (2011)
- T. E. Ouldridge, D.Phil. Thesis, University of Oxford, 2011.
- F. Romano, A. Hudson, J. P. K. Doye, T. E. Ouldridge, A. A. Louis, J. Chem. Phys. 136, 215102 (2012)
- C. De Michele, L. Rovigatti, T. Bellini, F. Sciortino, Soft Matter 8, 8388 (2012)
- C. Matek, T. E. Ouldridge, A. Levy, J. P. K. Doye, A. A. Louis, J. Phys. Chem. B 116, 1161-11625 (2012)
- P. Šulc, F. Romano, T. E. Ouldridge, L. Rovigatti, J. P. K. Doye, A. A. Louis, J. Chem. Phys. 137, 135101 (2012)
- T.E. Ouldridge, J. Chem. Phys. 137, 144105 (2012)
- F. Romano, D. Chakraborty, J. P. K. Doye, T. E. Ouldridge, A. A. Louis, J. Chem. Phys. 138, 085101 (2013)
- T. E. Ouldridge, R. L. Hoare, A. A. Louis, J. P. K. Doye, J. Bath, A. J. Turberfield, ACS Nano 7, 2479-2490 (2013)
- T. E. Ouldridge, P. Šulc, F. Romano, J. P. K. Doye, A. A. Louis, Nucleic Acids Res. 41, 8886-8895 (2013)
- J.P.K. Doye, T. E. Ouldridge, A. A. Louis, F. Romano, P. Šulc, C. Matek, B.E.K. Snodin, L. Rovigatti, J. S. Schreck, R.M. Harrison, W.P.J. Smith, Phys. Chem. Chem. Phys 15, 20395-20414 (2013)
- N. Srinivas, T. E. Ouldridge, P. Šulc, J. M. Schaeffer, B. Yurke, A. A. Louis, J. P. K. Doye, E. Winfree, Nucleic Acids Res. 41, 10641-10658 (2013)
- P. Šulc, T. E. Ouldridge, F. Romano, J. P. K. Doye, A. A. Louis, Natural Computing 13, 535 (2014)
- L. Rovigatti, F. Bomboi, F. Sciortino, J. Chem. Phys. 140, 154903 (2014)
- P. Šulc, F. Romano, T. E. Ouldridge, J. P. K. Doye, A. A. Louis, J. Chem. Phys. 140, 235102 (2014)
- L. Rovigatti, F. Smallenburg, F. Romano, F. Sciortino, ACS Nano 8, 3567-3574 (2014)
- Q. Wang, B. M. Pettitt, Biophys. J. 106, 1182–1193 (2014)
- J. S. Schreck, T. E. Ouldridge, F. Romano, P. Šulc, L. Shaw, A. A. Louis, J.P.K. Doye, Nucleic Acids Res. 43, 6181-6190 (2014)
- R. Machinek, T.E. Ouldridge, N.E.C. Haley, J. Bath, A. J. Turberfield, Nature Comm. 5, 5324 (2014)
- M. Mosayebi, F. Romano, T. E. Ouldridge, A. A. Louis, J. P. K. Doye, J. Phys. Chem. B 118, 14326-14335 (2014)
- I. Y. Loh, J.Cheng, S. R. Tee, A. Efremov, and Z. Wang, ACS Nano 8, 10293–10304 (2014)
- C. Matek, T. E. Ouldridge, J. P. K. Doye, A. A. Louis, Sci. Rep., 5, 7655 (2015)
- L. Rovigatti, P. Šulc, I. Reguly, F. Romano, J. Comput. Chem., 36, 1-8 (2015)
- P. Krstić, B. Ashcroft and S. Lindsay, Nanotechnology, 26, 084001 (2015)
- F. Romano and F. Sciortino, Phys. Rev. Lett. 114, 078104 (2015)
- J. S. Schreck, T. E. Ouldridge, F. Romano, A. A. Louis, J.P.K. Doye, J. Chem. Phys. 142, 165101 (2015)
- M. Mosayebi, A. A. Louis, J.P.K. Doye, T. E. Ouldridge ACS Nano 9, 11993 (2015)
- T. E. Ouldridge, Mol. Phys. 113, 1-15 (2015)
- P. Šulc, T. E. Ouldridge, F. Romano, J.P.K. Doye, A. A. Louis, Biophys. J. 108, 1238-1247 (2015)
- B. E. K. Snodin, F. Randisi, M. Mosayebi, P. Šulc, J. S. Schreck, F. Romano, T. E. Ouldridge, R. Tsukanov, E. Nir, A. A. Louis, J. P. K. Doye, J. Chem. Phys. 142, 234901 (2015)
- C. Matek, P. Šulc, F. Randisi, J.P.K. Doye, A. A. Louis, J. Chem. Phys. 143, 243122 (2015)
- Q. Wang, C.G. Myers, and B.M. Pettitt, J. Phys. Chem. B 119, 4937–4943 (2015)
- R. M. Harrison, F. Romano, T. E. Ouldridge, A. A. Louis, J.P.K. Doye, arXiv (2015)
- R. M. Harrison, F. Romano, T. E. Ouldridge, A. A. Louis, J.P.K. Doye, J. Chem. Theor. Comput. 15 4660-4672 (2019)
- J. Y. Lee, T. Terakawa, Z. Qi, J. B. Steinfeld, S. Redding, Y. Kwon, W. A. Gaines, W. Zhao, P. Sung, E. C. Greene, Science 349, 977-981 (2015)
- B. E. K. Snodin, F. Romano, L. Rovigatti, T. E. Ouldridge, A. A. Louis, J. P. K. Doye, ACS Nano 10, 1724-1737 (2016)
- V. Kočar, J. S. Schreck, S. Čeru, H. Gradišar, N. Bašić, T. Pisanski, J. P. K. Doye, and R. Jerala, Nat. Commun. 7, 10803 (2016)
- 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)
- Q. Wang and B.M. Pettitt, J. Phys. Chem. Lett 7, 1042–1046 (2016)
- A. Reinhardt, J.S. Schreck, F. Romano and J.P.K. Doye, J. Phys: Condens. Matter 29, 014006 (2017).
- E. Locatelli, P. H. Handle, C. N. Likos, F. Sciortino and L. Rovigatti, ACS Nano 11, 2094-2102 (2017)
- E. Skoruppa, M. Laleman, S. Nomidis, E. Carlon, J. Chem. Phys 146, 214902 (2017)
- A. Suma and C. Micheletti, Proc. Natl. Acad. Sci. USA 114, E2991–E2997 (2017)
- Z. Shi, C. E. Castro and G. Arya, ACS Nano 11, 4617–4630 (2017)
- 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)
- A. Henning-Knechtel, J. Knechtel and M. Magzoub, Nucleic Acids Res. 45, 12057–12068 (2017)
- 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)
- G. Chatterjee, N. Dalchau, R.A. Muscat, A. Phillips and G. Seelig, Nat. Nanotechnol. 12, 920–927 (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, Nat. Nanotechnol. 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).
- E. Poppleton, J. Bohlin, M. Matthies, S. Sharma, F. Zhang and P. Šulc, Nucleic Acids Res. 48, e72 (2020)
- 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 2639, 93-112 (2023).
- 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, Nat. Mater. 20, 1264–1271 (2021)
- 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 15, 7065–7077 (2021)
- E.G. Noya, C.K. Wong, P. Llombart and J.P.K. Doye, Nature 596, 367–371 (2021)
- 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, J. Mater. Chem. B 9, 5102-5113
- 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 125, 4016–4024 (2021)
- A. Sengar, T.E. Ouldridge, O. Henrich, L. Rovigatti and P. Šulc, Front. Mol. Biosci. 8, 693710 (2021)
- E. Poppleton, R. Romero, A. Mallya, L. Rovigatti and P. Šulc, Nucl. Acids Res. 49 W491–W498 (2021)
- Y. Yamashita, K. Watanabe, S. Murata and I. Kawamata, Chem-Bio Informatics Journal 21, 28-38 (2021)
- E. Benson, R. Carrascosa Marzo, J. Bath, A.J. Turberfield, Small 17, 2007704 (2021)
- Z. Qu, Y.N. Zhang, Z. Dai, Y. Zhang, Y. Hao, J. Shen, F. Wang, Q. Li, C. Fan, X. Liu, Angew. Chem. Int. Ed. 60, 16693-16699 (2021)
- Y. Wang, I. Baars, F. Fördös and B. Högberg, ACS Nano 15 9614–9626 (2021)
- Y. Wang, E. Benson, F. Fördős, M. Lolaico, I. Baars, T. Fang, A.I. Teixeira, B. Högberg, Adv. Mater. 33, 2008457 (2021)
- L. Li, H. Wang, C. Xiong, D. Luo, H. Chen and Y. Liu, J. Phys.: Condens. Matter 33, 185102 (2021)
- J. P. Mahalik and M. Muthukumar, submitted
- Nucleotide Dynamics During Flossing of Polycation-DNA-Polycation through a Nanopore using Molecular Dynamics (bioRxiv)
- N. Li, Y. Liu, Z. Yin, R. Liu, L. Zhang, Y. Zhao, L. Ma, X. Dai, D. Zhou, X. Su, Nano Today 41 101308 (2021)
- Y. Yang, Q. Lu, C.-M. Huang, H. Qian, Y. Zhang, S. Deshpande, G. Arya, Y. Ke, S. Zauscher, Angew. Chem. Int. Ed. 60, 3241-23247 (2021)
- Z. Yu, M. Centola, J. Valero, M. Matthies, P. Šulc, and M. Famulok, J. Am. Chem. Soc. 143, 13292–13298 (2021)
- T. Lee, S. Do, J.G. Lee, D.-N. Kim and Y. Shin, Nanoscale 13, 17638-17647 (2021)
- Y. Wang, J. V. Le, K. Crocker, M.A. Darcy, P.D. Halley, D. Zhao, N. Andrioff, C. Croy, M.G Poirier, R. Bundschuh, C.E Castro, Nucleic Acids Res. 49, 8987–8999 (2021)
- F. Liu, X. Liu, Q. Shi, C. Maffeo, M. Kojima, L. Dong, A. Aksimentiev, Q. Huang, T. Fukuda and T. Arai, Nanoscale 13, 15552-15559 (2021)
- J. Appeldorn, S. Lemcke, T. Speck and A. Nikoubashman, J. Phys. Chem. B 126, 5007–5016 (2022).
- H. Jun, X. Wang, M.F. Parsons, W.P. Bricker, T. John, S. Li, S. Jackson, W. Chiu, M. Bathe, Nucleic Acids Res. 49, 10265–10274 (2021)
- C.K. Wong, C. Tang, J.S. Schreck and J.P.K. Doye, Nanoscale 14, 2638–2648 (2022).
- W. Lim, F. Randisi, J.P.K. Doye and A.A. Louis, Nucleic Acids Res. 50, 2480–2492 (2022).
- W.T. Kaufhold, W. Pfeifer, C.E. Castro and L. Di Michele, ACS Nano 16, 8784–8797 (2022).
- H. Su, J.M. Brockman, Y. Duan, N. Sen, H. Chhabra, A. Bazrafshan, A.T. Blanchard, T. Meyer, B. Andrews, J.P.K. Doye, Y. Ke, R.B. Dyer and K. Salaita, J. Am. Chem. Soc. 43, 19466–19473 (2021).
- L. Yang, C. Cullin and J. Elezgaray, ChemPhysChem 23, e202200021 (2022).
- Y. Pan, R. Weng, L. Zhang, J. Qiu, X. Wang, G. Liao, Z. Qin, L. Zhang, H. Xiao, Y. Qian, X. Su, Nano Today 46 101573 (2022).
- X. Wang, S. Li, H. Jun, T. John, K. Zhang, H. Fowler, J.P.K. Doye, W. Chiu and M. Bathe, Sci. Adv. 8, eabn0039 (2022).
- E. Poppleton, A. Mallya, S. Dey, J. Joseph, P. Šulc, Nucleic Acids Res. 50, D246–D252 (2022)
- R. Foffi, F. Sciortino, J. M. Tavares, P. I. C. Teixeira, Soft Matter 17, 10736-10743 (2021)
- J. Yoo, S. Park, C. Maffeo, T. Ha, A. Aksimentiev, Nucleic Acids Res. 49, 11459–11475 (2021).
- E. Lin-Shiao, W.G. Pfeifer, B.R. Shy, M. Saffari Doost, E. Chen, V.S. Vykunta, J.R. Hamilton, E.C. Stahl, D.M. Lopez, C.R. Sandoval Espinoza, A.E. Dejanov, R.J. Lew, M.G. Poirer, A. Marson, C.E. Castro, J.A. Doudna, Nucleic Acids Res. 50, 1256–1268 (2022)
- J.P.K. Doye, A.A. Louis, J.S. Schreck, F. Romano, R.M. Harrison, M. Mosayebi, M.C. Engel, T.E. Ouldridge, in Energy Landscapes of Nanoscale Systems, ed. D.J. Wales, Frontiers of Nanoscience (Elsevier) Vol. 21, Chapter 9, pp 195-210 (2022)
- Y. Deng, Y. Tan, L. Zhang, C. Zhang, X. Su, submitted.
- Forecasting the reaction of DNA modifying enzymes on DNA nanostructures by coarse grained model for stimuli-responsive drug delivery (Research Square)
- D. Smith and G. Tikhomirov, submitted.
- small: A programmatic nanostructure design and modelling environment (arXiv)
- S. Assenza and R. Pérez, J. Chem. Theory Comput 18, 3239–3256 (2022)
- D. Kuťák, E. Poppleton, H. Miao, P. Šulc and I. Barišić, Molecules 27, 63 (2022)
- M. Centola, E. Poppleton, M. Centola, J. Valero, P. Šulc and M. Famulok, Nat. Nanotechnol. 19, 226–236 (2024)
- C.K. Wong and J.P.K. Doye, Appl. Sci. 12, 5875 (2022)
- L. Zhang, J. Chen, M. He, X. Su, Exploration 2, 20210265 (2022)
- F. Mambretti, N. Pedrani, L. Casiraghi, E. M. Paraboschi, T. Bellini, S. Suweis, Entropy 24, 458 (2022)
- Y.A.G. Fosado, Soft Matter 19, 4820-4828 (2023)
- X. Hu, L. Tang, M. Zheng, J. Liu, Z. Zhang, Z. Li, Q. Yang, S. Xiang, L. Fang, Q. Ren, X. Liu, C.Z. Huang, C. Mao and H. Zuo, J. Am. Chem. Soc. 144, 4507–4514 (2022)
- L. Liu F. Hong H. Liu X. Zhou S. Jiang P. Šulc J.-H. Jiang and H. Yan, Sci. Adv. 8, eabm9530 (2022)
- Y. Xin, P. Piskunen, A. Suma, C. Li, H. Ijäs, S. Ojasalo, I. Seitz, M.A. Kostiainen, G. Grundmeier, V. Linko and A. Keller, Small 18, 2107393 (2022)
- R.L. Bender, H. Ogasawara, A.V. Kellner, A. Velusamy and K. Salaita, submitted
- Unbreakable DNA tension probes show that cell adhesion receptors detect the molecular force-extension curve of their ligands (bioRxiv)
- E. Benson, R. Carrascosa Marzo, J. Bath and A.J. Turberfield, Sci. Robot. 7, eabn5459 (2022)
- A. Dutta, K. Tapio, A. Suma, A. Mostafa, Y. Kanehira, V. Carnevale, G. Bussi and I. Bald, Nanoscale 14, 16467-16478 (2022)
- D.J. Hart, J. Jeong, J.C. Gumbart and H.D. Kim, Nucleic Acids Res. 51, 3030–3040 (2023)
- S. Sensale, P. Sharma and G. Arya, Phys. Rev. E 105, 044136 (2022)
- S. Dey, A. Dorey, L. Abraham, Y. Xing, I. Zhang, F. Zhang, S. Howorka and H. Yan, Nat. Commun. 13, 2271 (2022)
- D. Luo, A. Kouyoumdjian, O. Strnad, H. Miao, I. Barišić and I. Viola, submitted (2022)
- SynopSet: Multiscale visual abstraction set for explanatory analysis of DNA nanotechnology simulations (arXiv)
- L. Rovigatti, J. Russo, F. Romano, M. Matthies, L. Kroc and P. Sulc, Nanoscale 14, 14268-14275 (2022)
- J. Bohlin, M. Matthies, E. Poppleton, J. Procyk, A. Mallya, H. Yan and P. Šulc, Nat. Protoc. 17, 1762–1788 (2022)
- C. Zhou, D. Yang, S. Sensale, P. Sharma, D. Wang, L. Yu, G. Arya, Y. Ke and P. Wang, Sci. Adv 8, eade3003 (2022)
- R. Li, M. Zheng, A.S. Madhvacharyula, Y. Du, C. Mao and J.H. Choi, Biophys. J. 121, 4078-4090 (2022)
- C. Xie, Y. Hu, Z. Chen, K. Chen and L. Pan, Nanotechnology 33, 405603 (2022)
- F. Fontana, T. Bellini and M. Todisco, Macromolecules 55, 5946–5953 (2022)
- Z. Weng, H. Yu, W. Luo, L. Zhang, Z. Zhang, T. Wang, Q. Liu, Y. Guo, Y. Yang, J. Li, L. Yang, L. Dai, Q. Pu, X. Zhou and G. Xie, Anal. Chim. Acta 1199, 339568 (2022)
- J. Bohlin, A.J. Turberfield, A.A. Louis and P. Šulc, ACS Nano 17, 5387–5398 (2023)
- Y. Deng, Y. Tan, Y. Zhang, L. Zhang, C. Zhang, Y. Ke and X. Su, ACS Appl. Mater. Interfaces 14, 34470–34479 (2022)
- J. G. Lee, K. S. Kim, J. Y. Lee and D.-N. Kim, ACS Nano 16, 4289–4297 (2022)
- M. Micheloni, L. Petrolli, G. Lattanzi and R. Potestio, Biophys. J. 122, 3314-3322 (2023)
- A. Elonen, A.K. Natarajan, I. Kawamata, L. Oesinghaus, A. Mohammed, J. Seitsonen, Y. Suzuki, F. C. Simmel, A. Kuzyk and P. Orponen, ACS Nano 16, 16608–16616 (2022)
- D. Fu, R.P. Narayanan, A. Prasad, F. Zhang, D. Williams, J.S. Schreck, H. Yan and J. Reif, Sci. Adv. 8, ade4455 (2022)
- N. Chauhan, Y. Xiong, S. Ren, A. Dwivedy, N. Magazine, L. Zhou, X. Jin, T. Zhang, B.T. Cunningham, S. Yao, W. Huang and X. Wang, J. Am. Chem. Soc. 145, 20214–20228 (2023)
- A. Mills, N. Aissaoui, D. Maurel, J. Elezgaray, F. Morvan, J. J. Vasseur, E. Margeat, R.B. Quast, J. Lai Kee-Him, N. Saint, C. Benistant, A. Nord, F. Pedaci and G. Bellot, Nat. Commun. 13, 3182 (2022)
- T. Panczyk, K. Nieszporek and P. Wolski, Molecules 27, 4915 (2022)
- E.E. Kurisinkal, V. Caroprese, M.M. Koga, D. Morzy and M.M.C. Bastings, Molecules 27 4968 (2022)
- R.P. Narayanan, J. Procyk, P. Nandi, A. Prasad, Y. Xu, E. Poppleton, D. Williams, F. Zhang, H. Yan, P.-L. Chiu, N. Stephanopoulos and P. Šulc, ACS Nano 16, 14086–14096 (2022)
- J. Wang, Y. Wei, P. Zhang, Y. Wang, Q. Xia, X. Liu, S. Luo, J. Shi, J. Hu, C. Fan, B. Li, L. Wang, X. Zhou and J. Li, Nano Lett. 22, 7173–7179 (2022)
- S. Li, Y. Coffinier, C. Lagadec, F. Cleri, K. Nishiguchi, A. Fujiwara, T. Fujii, S.-H. Kim and N.Clément, Biosens. Bioelectron. 216, 114643 (2022)
- S. Bianco, T. Hu, O. Henrich and S. W.Magennis, Biophysical Reports 2, 100070 (2022)
- Y. Li, C. Maffeo, H. Joshi, A. Aksimentiev, B. Ménard and R. Schulman, Sci. Adv. 8, eabq4834 (2022)
- G. Kloes, T.J.D. Bennett, A. Chapet-Batlle, A. Behjatian, A.J. Turberfield and M. Krishnan, Nano Lett. 22, 7834–7840 (2022)
- L. Guo, Y. Zhang, Y. Wang, M. Xie, J. Dai, Z. Qu, M. Zhou, S. Cao, J. Shi, L. Wang, X. Zuo, C. Fan and J. Li, Angew. Chem. Int. Ed. 61, e202117168 (2022)
- N. Xie, M. Li, Y. Wang, H. Lv, J. Shi, J. Li, Q. Li, F. Wang and C. Fan, J. Am. Chem. Soc. 144, 9479–9488 (2022)
- E. Lattuada, T. Pietrangeli and F. Sciortino, J. Chem. Phys. 157, 135101 (2022)
- X. Chen, Y. Wang, X. Dai, L. Ding, J. Chen, G. Yao, X. Liu, S. Luo, J. Shi, L. Wang, R. Nechushtai, E. Pikarsky, I. Willner, C. Fan, and J. Li, J. Am. Chem. Soc. 144, 6311–6320 (2022)
- Q. Kou, L. Wang, L. Zhang, L. Ma, S. Fu and X. Su, Small 18, 2205191 (2022)
- P. E. Beshay, A. Kucinic, N. Wile, P. Halley, L. Des Rosiers, A. Chowdhury, J. L. Hall, C. E. Castro and M. W. Hudoba, The Biophysicist 4, 68–81 (2023)
- A. Büchl, E. Kopperger, M. Vogt, M. Langecker, F.C.Simmel and J. List, Biophys. J. 121, 4849-4859 (2022)
- E. Poppleton, M. Matthies, D. Mandal, F. Romano, P. Šulc and L. Rovigatti, J. Open Source Softw. 8, 4693 (2023)
- A. Suma, V. Carnevale and C. Micheletti, Phys. Rev. Lett. 130, 048101 (2023)
- Y. Tang, H. Liu, Q. Wang, X. Qi, L. Yu, P. Šulc, F. Zhang, H. Yan and S. Jiang, J. Am. Chem. Soc. 145, 25, 13858–13868 (2023)
- M. DeLuca, W.G. Pfeifer, B. Randoing, C.-M. Huang, M.G. Poirier, C.E. Castro and G. Arya, Nanoscale 15, 8356-8365 (2023)
- T. Liang, C. Yang, X. Song, Y. Feng, Y. Liu and H. Chen, Phys. Rev. E 108, 014406 (2023)
- D. Lysne, T. Hachigian, C. Thachuk, J. Lee and E. Graugnard J. Am. Chem. Soc. 145, 16691–16703 (2023)
- A. Kucinic, C.-M. Huang, J. Wang, H.-J. Su and C.E. Castro, Nanoscale, 15 562-572 (2023)
- Y. Zhang, X. Yin, C. Cui, K. He, F. Wang, J. Chao, T. Li, X. Zuo, A. Li, L. Wang, N. Wang, X. Bo and C. Fan, Sci. Adv. 9, adf8263 (2023)
- W.G. Pfeifer, C.-M. Huang, M. G. Poirier, G. Arya and C. E. Castro, Sci. Adv. 9, adi0697 (2023)
- M. Lolaico, S. Blokhuizen, B. Shen, Y. Wang, and B. Högberg, ACS Nano 17, 6565–6574 (2023)
- Y. Wang, A. Kucinic, L. Des Rosiers, P.E. Beshay, N. Wile, M.W. Hudoba and C.E. Castro, Appl. Sci. 13, 3208 (2023)
- D. Morzy, C. Tekin, V. Caroprese, R. Rubio-Sánchez, L. Di Michele and M.M.C. Bastings, Nanoscale 15, 2849-2859 (2023)
- L. Zhang, H. Zhao, H. Yang and X. Su, Biosens. Bioelectron. 239, 115622 (2023)
- Y.-P. Qiao, C.-L. Ren and Y.-Q. Ma J. Phys. Chem. B 127, 4015–4021 (2023)
- K. Cervantes-Salguero, Y.A. Gutiérrez Fosado, W. Megone, J.E. Gautrot and M. Palma, Molecules 28, 3686 (2023)
- H.L. Too and Z. Wang, Nanoscale 15, 11915-11926 (2023)
- D. Saliba, X. Luo, F.J. Rizzuto and H.F. Sleiman, Nanoscale 15, 5403-5413 (2023)
- J. Lee and S. Lee, Anal. Chem. 95, 1856–1866 (2023)
- X. Shen, Q. Ouyang, H. Tan, J. Ouyang and N. Na, Anal. Chem. 95, 5903–5910 (2023)
- L. Tang, M. Huang, M. Zhang, Y. Pei, Y. Liu, Y. Wei, C. Yang, T. Xie, D. Zhang, R. Zhou, Y. Song, J. Song, Small Methods 7, 2300327 (2023)
- Z. Zheng, S.H. Kim, A. Chovin, N. Clement and C. Demaille, Chem. Sci. 14, 3652-3660 (2023)
- M. Vogt, M. Langecker, M. Gouder, E. Kopperger, F. Rothfischer, F.C. Simmel and J. List, Nature Physics 19, 741–751 (2023)
- C. Xie, Y. Hu, K. Chen, Z. Chen and L. Pan, Commun. Comput. Inf. Sci., 1801, 647–654 (2023)
- S. Yu, J. Zhao, R. Chu, X. Li, G. Wu and X. Meng, Entropy 25, 796 (2023)
- I. Madrid, Z. Zheng, C. Gerbelot, A. Fujiwara, S. Li, S. Grall, K. Nishiguchi, S.H. Kim, A. Chovin, C. Demaille and N. Clement, ACS Nano 17, 17031–17040 (2023)
- Y. Ma, W. Guo, Q. Mou, X. Shao, M. Lyu, V. Garcia, L. Kong, W. Lewis, C. Ward, Z. Yang, X. Pan, S.S. Yi and Y. Lu, Nat. Biotechnol. (2023)
- X. Luo, D. Saliba, T. Yang, S. Gentile, K. Mori, P.I. Garcia, T. Das, N. Bagheri, A. Porchetta, A. Guarne, G. Cosa, H.F. Sleiman, Angew. Chem. Int. Ed. 62 e202309869 (2023)
- Y. Zhao, S. Cao, Y. Wang, F. Li, L. Lin, L. Guo, F. Wang, J. Chao, X. Zuo, Y. Zhu, L. Wang, J. Li and C. Fan, Nat. Mach. Intell. 5, 980–990 (2023)
- X.R. Liu, I.Y. Loh, W. Siti, H.L. Too, T. Anderson and Z. Wang, Nanoscale Horiz., 8, 827-841 (2023)
- H. Lv, N. Xie, M. Li, M. Dong, C. Sun, Q. Zhang, L. Zhao, J. Li, X. Zuo, H. Chen, F. Wang and C. Fan, Nature 622, 292–300(2023).
- C. Yang, X. Song, Y. Feng, G. Zhao, and Y. Liu, J. Phys.: Condens. Matter 35, 265101 (2023)
- Xiaoya Song, Chao Yang, Yuyu Feng, Hu Chen, and Yanhui Liu, Commun. Theor. Phys. 75, 055601 (2023)
- W. Siti, H.L. Too, T. Anderson, X.R. Liu, I.Y. Loh and Z. Wang, Sci. Adv. 9, adi8444 (2023)
- R. Ma, A. Velusamy, S.A. Rashid, B.R. Deal, W. Chen, B. Petrich, R. Li, K. Salaita, Nat. Methods 20, 1666–1671 (2023)
- D. Karna, E. Mano, J. Ji, I. Kawamata, Y. Suzuki and H. Mao, Nat. Commun. 14, 6459 (2023)
- J. Fu, L. Zhang, Y. Long, Z. Liu, G. Meng, H. Zhao, X. Su and S. Shi, Anal. Chem. 95, 16089–16097 (2023)
- Y. Yang, Q. Lu, Y. Chen, M. DeLuca, G. Arya, Y. Ke and S. Zauscher, Angew. Chem. Int. Ed. 62, e202311727 (2023)
- J.Y. Lee, H. Koh and D.-N. Kim, Nat. Commun. 14, 7079 (2023)
- M.C. Engel, J.A. Smith and M.P. Brenner, Phys. Rev. X 13, 041032 (2023)
- L. Yu, Y. Xu, M. Al-Amin, S. Jiang, M. Sample, A. Prasad, N. Stephanopoulos, P. Šulc, and H. Yan, J. Am. Chem. Soc. 145, 27336–27347 (2023)
- Y.-P. Qiao and C.-L. Ren, Langmuir 40, 109–117 (2024)
- L. Kilwing, P. Lill, B. Nathwani, R. Guerra, E. Benson, T. Liedl and W. M. Shih, ACS Nano 18, 885–893 (2024)
- N. Adžić, C. Jochum, C. N. Likos, E. Stiakakis, Small, 20, 2308763 (2024)
- A. Velusamy, R. Sharma, S.A. Rashid, H. Ogasawara and K. Salaita, Nat. Commun. 15, 704 (2024)
- Y. Liu, B. Li, F. Wang, Q. Li, S. Jia, X. Liu, and M. Li, ACS Appl. Bio Mater. 7, 1311–1316 (2024)
- S. He, H. Deng, P. Li, Q. Tian, Y. Yang, J. Hu, H. Li, T. Zhao, H. Ling, Y. Liu, S. Liu and Q. Guo, J. Nanobiotechnol. 22, 39 (2024)
- Bimodal DNA self-origami material with nucleic acid function enhancement
- B. Babatunde, J. Cagan, R.E. Taylor, J. Mech. Des. 146, 051708 (2024)
- A.S.G. Martins, S.D. Reis, E. Benson, M.M. Domingues, J. Cortinhas, J.A. Vidal Silva, S.D. Santos, N.C. Santos, A.P. Pêgo, P.M.D. Moreno, Small 20, 2309140 (2024)
- S Dey, R. Rivas-Barbosa, F. Sciortino, E. Zaccarelli and P. Zijlstra, Nanoscale 16, 4872-4879 (2024)
- T. Chen, S. Mao, J. Ma, X. Tang, R. Zhu, D. Mao, X. Zhu, Q. Pan, Angew. Chem. Int. Ed 63, e202319117 (2024)
- Y. Liu, Z. Dai, X. Xie, B. Li, S. Jia, Q. Li, M. Li, C. Fan and X. Liu, J. Am. Chem. Soc. 146, 8, 5461–5469 (2024)
- Z. Zheng, S. Grall, S.H. Kim, A. Chovin, N. Clement and C. Demaille, J. Am. Chem. Soc. 146, 9, 6094–6103 (2024)
- M. Sample, M. Matthies and P. Šulc, ACS Nano 18, 30004–30016 (2024)
- M. Sample, M. Matthies and P. Šulc, 2023 Winter Simulation Conference (WSC), San Antonio, TX, USA, pp. 91-105 (2023)
- V. Caroprese, C. Tekin, V. Cencen, M. Mosayebi, T.B. Liverpool, D.N. Woolfson, G. Fantner, M.M.C. Bastings, submitted
- Structural flexibility dominates over binding strength for supramolecular crystallinity (bioRxiv)
- C. Shi, D. Yang, X.Ma, L. Pan, Y. Shao, G. Arya, Y. Ke, C. Zhang, F. Wang, X. Zuo, M. Li and P. Wang, Angew. Chem. Int. Ed. 63 e202320179 (2024)
- F. Smith, A. Sengar, G.‐B.V. Stan, T.E. Ouldridge, M. Stevens, J. Goertz and W. Bae, submitted
- Overcoming the speed limit of four‐way DNA branch migration with bulges in toeholds (bioRxiv)
- K. Gallagher, J. Yu, D.A. King, R. Liu, E. Eiser, APL Mater. 11, 061129 (2023)
- G.B.M. Wisna, D. Sukhareva, J. Zhao, D. Satyabola, M. Matthies, S. Roy, P. Šulc, H. Yan and R.F. Hariadia, submitted
- High-speed 3D DNA-PAINT and unsupervised clustering for unlocking 3D DNA origami cryptography (bioRxiv)
- H. Koh, J.Y. Lee, J.G. Lee, submitted
- Forming superhelix of double stranded DNA from local deformation (arXiv)
- N.P. Agarwal and A. Gopinath, submited
- DNA origami 2.0 (bioRxiv)
- J.M. Weck and A. Heuer-Jungemann, submitted
- Fully addressable, designer superstructures assembled from a single modular DNA origami (bioRxiv)
- Y. Xu, R. Zheng, A. Prasad, M. Liu, Z. Wan, X. Zhou, R.M. Porter, M. Sample, E. Poppleton, J. Procyk, H. Liu, Y. Li, S. Wang, H. Yan, P. Sulc, N. Stephanopoulos, submitted
- High-affinity binding to the SARS-CoV-2 spike trimer by a nanostructured, trivalent protein-DNA synthetic antibody (bioRxiv)
- H. Liu, M. Matthies, J. Russo, L. Rovigatti, R.P. Narayanan, T. Diep, D. McKeen, O. Gang, N. Stephanopoulos, F. Sciortino, H. Yan, F. Romano and P. Šulc, Science 384, 776-781 (2024)
- L. Grabenhorst, M. Pfeiffer, T. Schinkel, M. Kümmerlin, J.B. Maglic, G.A. Brüggenthies, F. Selbach, A.T. Murr, P. Tinnefeld, V. Glembockyte, Nat. Nanotechnol. accepted (2024)
- F. Tosti Guerra, E. Poppleton, P. Šulc, L. Rovigatti, submitted
- nNxB: a new coarse-grained model for RNA and DNA nanotechnology (arXiv)
- E.J. Ratajczyk, P. Šulc, A.J. Turberfield, J.P.K. Doye and A.A. Louis, J. Chem. Phys. 160, 115101 (2024)
- M. DeLuca, D. Duke, T. Ye, M. Poirier, Y. Ke, C. Castro and G. Arya, Nat. Commun. 15, 3015 (2024)
- S. Cristofaro, L. Querciagrossa, L. Soprani, T.P. Fraccia, T. Bellini, R. Berardi, A. Arcioni, C. Zannoni, L. Muccioli, and S. Orlandi, Biomacromolecules 25, 3920–3929 (2024)
- A. Velusamy, R. Sharma, S.A. Rashid, H. Ogasawara and K. Salaita, Nat. Commun. 15, 704 (2024)
- A. Voorspoels, J. Gevers, S. Santermans, N. Akkan, K. Martens, K. Willems, P. Van Dorpe, and A.S. Verhulst, J. Phys. Chem. A 128, 3926–3933 (2024)
- F. Tosti Guerra, E. Poppletoni, P. Šulc and L. Rovigatti, J. Chem. Phys. 160, 205102 (2024)
- Y. Wang, I. Baars, I. Berzina, I. Rocamonde-Lago, B. Shen, Y. Yang, M. Lolaico, J. Waldvogel, I. Smyrlaki, K. Zhu, R.A. Harris and B. Högberg, Nat. Nanotechnol. 19, 1366–137 (2024)
- W. Ji, X. Xiong, M. Cao, Y. Zhu, L. Li, F. Wang, C. Fan and H. Pei, Nat. Chem. 16, 1408–1417 (2024)
- M. van Galen, A. Bok, T. Peshkovsky, J. van der Gucht, B. Albada and J. Sprakel, Nat. Chem. accepted (2024)
- Y. Hu, J. Rogers, Y. Duan, A. Velusamy, S. Narum, S. Al Abdullatif and K. Salaita, Nat. Nanotechnol. 19, 1674–1685 (2024)
- D. Svenšek, J. Sočan and M. Praprotnik, Macromol. Rapid Commun. accepted 2400382 (2024)
- M. Mogheiseh and R.H. Ghasemi, J. Chem. Phys. 161, 045101 (2024)
- S.H. Wong, S.N. Kopf, V. Caroprese, Y. Zosso, D. Morzy, M.M.C. Bastings, Nano Lett. 24, 11210–11216 (2024)
- G. Nava, T. Carzaniga, L. Casiraghi, E. Bot, G. Zanchetta, F. Damin, M. Chiari, G. Weber, T. Bellini, L. Mollica and M. Buscaglia, Nucl. Acids Res. 52, 8661–8674 (2024)
- Y. Du, R. Li, A.S. Madhvacharyula, A.A. Swett, J.H. Choi, submitted
- DNA nanostar structures with tunable auxetic properties (bioRxiv)
- G.M. Roozbahani, P. Colosi, A. Oravecz, E.M. Sorokina, W. Pfeifer, S. Shokri, Y. Wei, P. Didier, M. DeLuca, G. Arya, L. Tora, M. Lakadamyali, M.G. Poirier, C. E. Castro
- Piggybacking functionalized DNA nanostructures into live cell nuclei (bioRxiv)
- A. Walbrun, T. Wang, M. Matthies, P. Šulc, F.C. Simmel, M. Rief, Nat. Commun. 15, 7564 (2024)
- S. Chandrasekhar, T.P. Swope, F. Fadaei, D.R. Hollis, R. Bricker, D. Houser, J. Portman, T.L. Schmidt, submitted
- Bending Unwinds DNA (bioRxiv)
- X. Liu, F. Liu, H. Chhabra, C. Maffeo, Q. Huang, A. Aksimentiev, T. Arai, Nat. Commun. 15, 7210 (2024)
- L. Yang, G. Pecastaings, C. Drummond and J. Elezgaray, Nano Lett. 24, 13481–13486 (2024)
- J.-Y. Liou, M. Awan, K. Leyba, P. Šulc, S. Hofmeyr, C.-J. Wu and S. Forrest, ACM Trans. Evol. Learn. Optim. accepted (2024)
- C. Karfusehr, M. Eder, F.C. Simmel
- Self-assembled cell-scale containers made from DNA origami membranes (bioRxiv)
- M.T. Luu, J.F. Berengut, J.K.D. Singh, K.C.D. Glieze, M. Turner, K. Skipper, S. Meppat, H. Fowler, W. Close, J.P.K. Doye, A. Abbas, S.F.J. Wickham, submitted
- Reconfigurable multi-component nanostructures built from DNA origami voxels (bioRxiv)
- M.P. Tran, T. Chakraborty, E. Poppleton, L. Monari, F. Giessler and K. Göpfrich, submitted
- Genetic encoding and expression of RNA origami cytoskeletons in synthetic cells (bioRxiv)
- V. Bukina and A. Božič, Biophys. J. 123, 3397-3407 (2024)
- R. Walker-Gibbons, X. Zhu, A. Behjatian, T.J.D. Bennett and M. Krishnan, Sci. Rep. 14, 20582 (2024)
- E.J. Ratajczyk, J. Bath, P. Sulc, J.P.K. Doye, A.A. Louis, A.J. Turberfield, submitted
- Controlling DNA-RNA strand displacement kinetics with base distribution (bioRxiv)
- A. Suma and C. Micheletti, submitted
- Unzipping of knotted DNA via nanopore translocation (arXiv)
- G. Mattiotti, M. Micheloni, L. Petrolli, L. Tubiana, S. Pasquali, R. Potestio, submitted.
- Molecular dynamics characterization of the free and encapsidated RNA2 of CCMV with the oxRNA model (arXiv)
- S. Haggenmueller, M. Matthies, M. Sample and P. Šulc, submitted.
- How we simulate DNA origami (arXiv)
- Y. Guo, T. Xiong, H. Yan and R.X. Zhang, submitted
- Correlation of precisely fabricated geometric characteristics of DNA-origami nanostructures with their cellular entry in human lens epithelial cells (ResearchSquare)
- R.K. Krueger, M.C. Engel, R. Hausen, M.P. Brenner, submitted (2024)
- A Differentiable Model of Nucleic Acid Dynamics (arXiv)
- Y. Guo, T. Xiong, H. Yan and R.X. Zhang, submitted
- Correlation of precisely fabricated geometric characteristics of DNA-origami nanostructures with their cellular entry in human lens epithelial cells (ResearchSquare)
- K. Zhou, M. Chung, J. Cheng, J.T. Powell, J. Liu, Y. Xiong, M.A. Schwartz and C. Lin, submitted.
- DNA nanodevice for analysis of force-activated protein extension and interactions (bioRxiv)
We are also maintaining a list of all published papers using oxDNA at publons.