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Preparation and characterization of manganese, cobalt and zinc DNA nanoflowers with tuneable morphology, DNA content and size

Preparation and characterization of manganese, cobalt and zinc DNA nanoflowers with tuneable morphology, DNA content and size
Preparation and characterization of manganese, cobalt and zinc DNA nanoflowers with tuneable morphology, DNA content and size
Recently reported DNA nanoflowers are an interesting class of organic-inorganic hybrid materials which are prepared using DNA polymerases. DNA nanoflowers combine the high surface area and scaffolding of inorganic Mg2P2O7 nanocrystals with the targeting properties of DNA, whilst adding enzymatic stability and enhanced cellular uptake. We have investigated conditions for chemically modifying the inorganic core of these nanoflowers through substitution of Mg2+ with Mn2+, Co2+ or Zn2+ and have characterized the resulting particles. These have a range of novel nanoarchitectures, retain the enzymatic stability of their magnesium counterparts and the Co2+ and Mn2+ DNA nanoflowers have added magnetic properties. We investigate conditions to control different morphologies, DNA content, hybridization properties, and size. Additionally, we show that DNA nanoflower production is not limited to Ф29 DNA polymerase and that the choice of polymerase can influence the DNA length within the constructs. We anticipate that the added control of structure, size and chemistry will enhance future applications.
0305-1048
7495–7505
Baker, Ysobel
4fceec1f-89ed-4a32-a753-8967daf6763a
Chen, Jinfeng
1be70334-2c20-485f-8b22-467053f130cb
Brown, Jason
1bafcdf0-3a0e-4642-ad48-572d9cd3b927
El-Sagheer, Afaf H
05b8295a-64ad-4fdf-ad57-c34934a46c04
Wiseman, Philip
f4e61678-558a-4c62-be3a-01375dd32aa2
Johnson, Errin
59133a16-0812-46cf-9525-3bd7a158475e
Goddard, Paul
cd4b1a70-eed0-4772-ba39-c0449c02e48e
Brown, Tom
a64aae36-bb30-42df-88a2-11be394e8c89
Baker, Ysobel
4fceec1f-89ed-4a32-a753-8967daf6763a
Chen, Jinfeng
1be70334-2c20-485f-8b22-467053f130cb
Brown, Jason
1bafcdf0-3a0e-4642-ad48-572d9cd3b927
El-Sagheer, Afaf H
05b8295a-64ad-4fdf-ad57-c34934a46c04
Wiseman, Philip
f4e61678-558a-4c62-be3a-01375dd32aa2
Johnson, Errin
59133a16-0812-46cf-9525-3bd7a158475e
Goddard, Paul
cd4b1a70-eed0-4772-ba39-c0449c02e48e
Brown, Tom
a64aae36-bb30-42df-88a2-11be394e8c89

Baker, Ysobel, Chen, Jinfeng, Brown, Jason, El-Sagheer, Afaf H, Wiseman, Philip, Johnson, Errin, Goddard, Paul and Brown, Tom (2018) Preparation and characterization of manganese, cobalt and zinc DNA nanoflowers with tuneable morphology, DNA content and size. Nucleic Acids Research, 46 (15), 7495–7505. (doi:10.1093/nar/gky630).

Record type: Article

Abstract

Recently reported DNA nanoflowers are an interesting class of organic-inorganic hybrid materials which are prepared using DNA polymerases. DNA nanoflowers combine the high surface area and scaffolding of inorganic Mg2P2O7 nanocrystals with the targeting properties of DNA, whilst adding enzymatic stability and enhanced cellular uptake. We have investigated conditions for chemically modifying the inorganic core of these nanoflowers through substitution of Mg2+ with Mn2+, Co2+ or Zn2+ and have characterized the resulting particles. These have a range of novel nanoarchitectures, retain the enzymatic stability of their magnesium counterparts and the Co2+ and Mn2+ DNA nanoflowers have added magnetic properties. We investigate conditions to control different morphologies, DNA content, hybridization properties, and size. Additionally, we show that DNA nanoflower production is not limited to Ф29 DNA polymerase and that the choice of polymerase can influence the DNA length within the constructs. We anticipate that the added control of structure, size and chemistry will enhance future applications.

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More information

Accepted/In Press date: 29 June 2018
e-pub ahead of print date: 12 July 2018
Published date: 6 September 2018
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Identifiers

Local EPrints ID: 473688
URI: http://eprints.soton.ac.uk/id/eprint/473688
DOI: doi:10.1093/nar/gky630
ISSN: 0305-1048
PURE UUID: 5a88aa53-2e2e-4c1b-a11f-80382079e229
ORCID for Ysobel Baker: ORCID iD orcid.org/0000-0002-0266-771X
ORCID for Afaf H El-Sagheer: ORCID iD orcid.org/0000-0001-8706-1292

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Date deposited: 27 Jan 2023 17:49
Last modified: 17 Mar 2024 04:17

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Contributors

Author: Ysobel Baker ORCID iD
Author: Jinfeng Chen
Author: Jason Brown
Author: Afaf H El-Sagheer ORCID iD
Author: Philip Wiseman
Author: Errin Johnson
Author: Paul Goddard
Author: Tom Brown

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