Research articles in self-assembleD 3D DNA crystals

[^ Joint first author]

Designing higher resolution self-assembled 3D DNA crystals via strand terminus modifications.
YP Ohayon, C Hernandez, AR Chandrasekaran, X Wang, HO Abdallah, MA Jong, MG Mohsen, R Sha, JJ Birktoft, PS Lukeman, PM Chaikin, SL Ginell, C Mao & NC Seeman
ACS Nano 13: 7957-7965 (2019). [PDF]

Self-assembly of 3D DNA crystals containing a torsionally stressed component.
C Hernandez, JJ Birktoft, YP Ohayon, AR Chandrasekaran, H Abdallah, R Sha, V Stojanoff, C Mao & NC Seeman
Cell Chem. Biol. 24, 1401-1406 (2017). [PDF]

Stabilisation of self-assembled DNA crystals by triplex-directed photo-cross-linking.
HO Abdallah, YP Ohayon, AR Chandrasekaran, R Sha, KR Fox, T Brown, DA Rusling, C Mao & NC Seeman
Chem. Comm. 52: 8014-8017 (2016). [PDF]

Post-assembly stabilization of rationally designed DNA crystals.
J Zhao, AR Chandrasekaran, Q Li, X Li, R Sha, NC Seeman & C Mao
Angew. Chem. Int. Ed. 54: 9936-9939 (2015). [PDF]

Functionalizing designer DNA crystals with a triple-helical veneer.
DA Rusling, AR Chandrasekaran,^ YP Ohayon, T Brown, KR Fox, R Sha, C Mao & NC Seeman
Angew. Chem. Int. Ed. 53: 3979-3982 (2014). [PDF]

Self-assembled DNA crystals: The impact on resolution of 5'-phosphates and the DNA source.
R Sha, JJ Birktoft, N Nguyen, AR Chandrasekaran, J Zheng, X Zhao, C Mao & NC Seeman
Nano Lett. 13: 793-797 (2013). [PDF]

Ring crystals of oligonucleotides: Growth stages and X-ray diffraction studies.
PK Mandal, AR Chandrasekaran, BR Madhanagopal, S Venkadesh & N Gautham
J. Cryst. Growth 354: 20-26 (2012). [PDF]