Spatiotemporal dynamics of DNA nanocage uptake in zebrafish embryos for targeted tissue bioimaging applications
Three-dimensional DNA nanocages have attracted significant attention for various biomedical applications including targeted bioimaging in vivo . Despite the numerous advantages, the use and in vivo exploration of DNA nanocages are limited as the cellular targeting and intracellular fate of these DNA...
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| Veröffentlicht in: | Nanoscale advances 2023-05, Vol.5 (9), p.2558-2564 |
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| container_title | Nanoscale advances |
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| creator | Kansara, Krupa Mansuri, Abdulkhalik Rajwar, Anjali Vaswani, Payal Singh, Ramesh Kumar, Ashutosh Bhatia, Dhiraj |
| description | Three-dimensional DNA nanocages have attracted significant attention for various biomedical applications including targeted bioimaging
in vivo
. Despite the numerous advantages, the use and
in vivo
exploration of DNA nanocages are limited as the cellular targeting and intracellular fate of these DNA nanocages within various model systems have not been explored well. Herein, using a zebrafish model system, we provide a detailed understanding of time-, tissue- and geometry-dependent DNA nanocage uptake in developing embryos and larvae. Of all the geometries tested, tetrahedrons showed significant internalization in 72 hours post-fertilized larvae upon exposure, without disturbing the expression of genes involved in embryo development. Our study provides a detailed understanding of the time and tissue-specific uptake of DNA nanocages in the zebrafish embryos and larvae. These findings will provide valuable insights into the internalization and biocompatible potential of DNA nanocages and will help to predict their candidature for biomedical applications.
Three-dimensional DNA nanocages have attracted significant attention for various biomedical applications including targeted bioimaging
in vivo
. |
| doi_str_mv | 10.1039/d2na00905f |
| format | Article |
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in vivo
. Despite the numerous advantages, the use and
in vivo
exploration of DNA nanocages are limited as the cellular targeting and intracellular fate of these DNA nanocages within various model systems have not been explored well. Herein, using a zebrafish model system, we provide a detailed understanding of time-, tissue- and geometry-dependent DNA nanocage uptake in developing embryos and larvae. Of all the geometries tested, tetrahedrons showed significant internalization in 72 hours post-fertilized larvae upon exposure, without disturbing the expression of genes involved in embryo development. Our study provides a detailed understanding of the time and tissue-specific uptake of DNA nanocages in the zebrafish embryos and larvae. These findings will provide valuable insights into the internalization and biocompatible potential of DNA nanocages and will help to predict their candidature for biomedical applications.
Three-dimensional DNA nanocages have attracted significant attention for various biomedical applications including targeted bioimaging
in vivo
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in vivo
. Despite the numerous advantages, the use and
in vivo
exploration of DNA nanocages are limited as the cellular targeting and intracellular fate of these DNA nanocages within various model systems have not been explored well. Herein, using a zebrafish model system, we provide a detailed understanding of time-, tissue- and geometry-dependent DNA nanocage uptake in developing embryos and larvae. Of all the geometries tested, tetrahedrons showed significant internalization in 72 hours post-fertilized larvae upon exposure, without disturbing the expression of genes involved in embryo development. Our study provides a detailed understanding of the time and tissue-specific uptake of DNA nanocages in the zebrafish embryos and larvae. These findings will provide valuable insights into the internalization and biocompatible potential of DNA nanocages and will help to predict their candidature for biomedical applications.
Three-dimensional DNA nanocages have attracted significant attention for various biomedical applications including targeted bioimaging
in vivo
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in vivo
. Despite the numerous advantages, the use and
in vivo
exploration of DNA nanocages are limited as the cellular targeting and intracellular fate of these DNA nanocages within various model systems have not been explored well. Herein, using a zebrafish model system, we provide a detailed understanding of time-, tissue- and geometry-dependent DNA nanocage uptake in developing embryos and larvae. Of all the geometries tested, tetrahedrons showed significant internalization in 72 hours post-fertilized larvae upon exposure, without disturbing the expression of genes involved in embryo development. Our study provides a detailed understanding of the time and tissue-specific uptake of DNA nanocages in the zebrafish embryos and larvae. These findings will provide valuable insights into the internalization and biocompatible potential of DNA nanocages and will help to predict their candidature for biomedical applications.
Three-dimensional DNA nanocages have attracted significant attention for various biomedical applications including targeted bioimaging
in vivo
.</abstract><cop>England</cop><pub>RSC</pub><pmid>37143798</pmid><doi>10.1039/d2na00905f</doi><tpages>7</tpages><orcidid>https://orcid.org/0000-0002-6856-3980</orcidid><orcidid>https://orcid.org/0000-0002-1478-6417</orcidid><oa>free_for_read</oa></addata></record> |
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| source | DOAJ Directory of Open Access Journals; EZB-FREE-00999 freely available EZB journals; PubMed Central |
| subjects | Chemistry |
| title | Spatiotemporal dynamics of DNA nanocage uptake in zebrafish embryos for targeted tissue bioimaging applications |
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