DNA-coated microcrystals

B.D. Moore, M. Kreiner, G. Fuglevand, M. Parker

Research output: Contribution to journalArticle

10 Citations (Scopus)
130 Downloads (Pure)

Abstract

Coprecipitation leads to self-assembly of bioactive DNA on the surface of salt, sugar or amino-acid crystals and provides a rapid inexpensive immobilization method suitable for preparing dry-powder formulations of nucleic acids, useful for storage, imaging and drug delivery.



Original languageEnglish
Pages (from-to)2675-2676
Number of pages2
JournalChemical Communications (London)
Volume2005
Issue number21
DOIs
Publication statusPublished - 2005

Fingerprint

Sugar Acids
Microcrystals
Coprecipitation
Drug delivery
Powders
Self assembly
Nucleic Acids
Salts
Imaging techniques
Amino Acids
Crystals
DNA

Keywords

  • bioactive DNA

Cite this

Moore, B.D. ; Kreiner, M. ; Fuglevand, G. ; Parker, M. / DNA-coated microcrystals. In: Chemical Communications (London). 2005 ; Vol. 2005, No. 21. pp. 2675-2676.
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Moore, BD, Kreiner, M, Fuglevand, G & Parker, M 2005, 'DNA-coated microcrystals', Chemical Communications (London), vol. 2005, no. 21, pp. 2675-2676. https://doi.org/10.1039/b501045d

DNA-coated microcrystals. / Moore, B.D.; Kreiner, M.; Fuglevand, G.; Parker, M.

In: Chemical Communications (London), Vol. 2005, No. 21, 2005, p. 2675-2676.

Research output: Contribution to journalArticle

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T1 - DNA-coated microcrystals

AU - Moore, B.D.

AU - Kreiner, M.

AU - Fuglevand, G.

AU - Parker, M.

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AB - Coprecipitation leads to self-assembly of bioactive DNA on the surface of salt, sugar or amino-acid crystals and provides a rapid inexpensive immobilization method suitable for preparing dry-powder formulations of nucleic acids, useful for storage, imaging and drug delivery.

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EP - 2676

JO - Chemical Communications (London)

JF - Chemical Communications (London)

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