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The absence of tertiary interactions in a self-assembled DNA crystal structure
Journal of molecular recognition, 2012-04, Vol.25 (4), p.234-237
Nguyen, Nam
Birktoft, Jens J.
Sha, Ruojie
Wang, Tong
Zheng, Jianping
Constantinou, Pamela E.
Ginell, Stephan L.
Chen, Yi
Mao, Chengde
Seeman, Nadrian C.
2012
Volltextzugriff (PDF)
Details
Autor(en) / Beteiligte
Nguyen, Nam
Birktoft, Jens J.
Sha, Ruojie
Wang, Tong
Zheng, Jianping
Constantinou, Pamela E.
Ginell, Stephan L.
Chen, Yi
Mao, Chengde
Seeman, Nadrian C.
Titel
The absence of tertiary interactions in a self-assembled DNA crystal structure
Ist Teil von
Journal of molecular recognition, 2012-04, Vol.25 (4), p.234-237
Ort / Verlag
Chichester, UK: John Wiley & Sons, Ltd
Erscheinungsjahr
2012
Quelle
Wiley Online Library Journals Frontfile Complete
Beschreibungen/Notizen
DNA is a highly effective molecule for controlling nanometer‐scale structure. The convenience of using DNA lies in the programmability of Watson–Crick base‐paired secondary interactions, useful both to design branched molecular motifs and to connect them through sticky‐ended cohesion. Recently, the tensegrity triangle motif has been used to self‐assemble three‐dimensional crystals whose structures have been determined; sticky ends were reported to be the only intermolecular cohesive elements in those crystals. A recent communication in this journal suggested that tertiary interactions between phosphates and cytosine N(4) groups are responsible for intermolecular cohesion in these crystals, in addition to the secondary and covalent interactions programmed into the motif. To resolve this issue, we report experiments challenging this contention. Gel electrophoresis demonstrates that the tensegrity triangle exists in conditions where cytosine–PO4 tertiary interactions seem ineffective. Furthermore, we have crystallized a tensegrity triangle using a junction lacking the cytosine suggested for involvement in tertiary interactions. The unit cell is isomorphous with that of a tensegrity triangle crystal reported earlier. This structure has been solved by molecular replacement and refined. The data presented here leave no doubt that the tensegrity triangle crystal structures reported earlier depend only on base pairing and covalent interactions for their formation. Copyright © 2012 John Wiley & Sons, Ltd.
Sprache
Englisch
Identifikatoren
ISSN: 0952-3499
eISSN: 1099-1352
DOI: 10.1002/jmr.2183
Titel-ID: cdi_pubmedcentral_primary_oai_pubmedcentral_nih_gov_3454580
Format
–
Schlagworte
Base Pairing
,
Base Sequence
,
crystal design
,
Crystallography, X-Ray
,
DNA - chemistry
,
DNA nanotechnology
,
Models, Molecular
,
Molecular Sequence Data
,
Nucleic Acid Conformation
,
robust DNA motif
,
self-assembled DNA crystals
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