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Functionalized DNA Hydrogels Produced by Polymerase‐Catalyzed Incorporation of Non‐Natural Nucleotides as a Surface Coating for Cell Culture Applications
Author(s) -
Finke Alexander,
Schneider AnnKathrin,
Spreng AnnaSophie,
Leist Marcel,
Niemeyer Christof M.,
Marx Andreas
Publication year - 2019
Publication title -
advanced healthcare materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.288
H-Index - 90
eISSN - 2192-2659
pISSN - 2192-2640
DOI - 10.1002/adhm.201900080
Subject(s) - dna , extracellular matrix , cell , polymerase , self healing hydrogels , cell culture , surface modification , materials science , microbiology and biotechnology , biophysics , nanotechnology , chemistry , biochemistry , biology , genetics , polymer chemistry
Cells from most mammalian tissues require an extracellular matrix (ECM) for attachment and proper functioning. In vitro cell cultures therefore must be supplied with an ECM that satisfies both the biological needs of cells used and the technical demands of the experimental setup. The latter include matrix functionalization for cell attachment, favorable microscopic properties, and affordable production costs. Here, modified DNA materials are therefore developed as an ECM mimic. The material is prepared by chemical cross‐linking of commonly available salmon sperm DNA. To render the material cell‐compatible, it is enzymatically modified by DNA polymerase I to provide versatile attachment points for peptides, proteins, or antibodies via a modular strategy. Different cells specifically attach to the material, even from mixed populations. They can be mildly released for further cell studies by DNase I‐mediated digestion of the DNA material. Additionally, neural stem cells not only attach and survive on the material but also differentiate to a neural lineage when prompted. Furthermore, the DNA material can be employed to capture and retain cells under flow conditions. The simple preparation of the DNA material and its wide scope of applications open new perspectives for various cell study challenges and medical applications.

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