Abstract
2D DNA nanoporous scaffold promotes osteogenic differentiation of pre-osteoblast
Biofunctional materials with nanomechanical parameters similar to bone tissue may promote the adherence, migration, proliferation, and differentiation of pre-osteoblasts. In this study, deoxyribonucleic acid (DNA) nanoporous scaffold (DNA-NPS) was synthesized by the polymerization of rectangular and double-crossover (DX) DNA tiles. The diagonally precise polymerization of nanometer-sized DNA tiles (A + B) through sticky end cohesion gave rise to a micrometer-sized porous giant-sheet material. The synthesized DNA-NPS exhibited a uniformly distributed porosity with a size of 25 ± 20 nm.
Author(s): Mirza Muhammad
Warning: Undefined variable $art_rows in /efsdata/imedpub-com/abstract/abstract-page.php on line 110
Warning: Attempt to read property "select_abs_row" on null in /efsdata/imedpub-com/abstract/abstract-page.php on line 110
Abstract | Full-Text | PDF
Share This Article
Awards Nomination
Warning: Attempt to read property "page_url" on null in /efsdata/imedpub-com/bootstrap_journal_right_content.php on line 194
Google Scholar citation report
Abstracted/Indexed in
- Google Scholar
Warning: Attempt to read property "page_url" on null in /efsdata/imedpub-com/bootstrap_journal_right_content.php on line 194
Open Access Journals
- Aquaculture & Veterinary Science
- Chemistry & Chemical Sciences
- Clinical Sciences
- Engineering
- General Science
- Genetics & Molecular Biology
- Health Care & Nursing
- Immunology & Microbiology
- Materials Science
- Mathematics & Physics
- Medical Sciences
- Neurology & Psychiatry
- Oncology & Cancer Science
- Pharmaceutical Sciences