寡聚体长度决定了单链 DNA-胶原蛋白复合纤维的自组装。

Oligomer Length Defines the Self-Assembly of Single-Stranded DNA-Collagen Complex Fibers.

机构信息

Department of Materials Science and Engineering, University of Florida, 100 Rhines Hall, Gainesville, Florida 32611 United States.

出版信息

ACS Biomater Sci Eng. 2020 Jan 13;6(1):213-218. doi: 10.1021/acsbiomaterials.9b01435. Epub 2019 Dec 17.

DOI:10.1021/acsbiomaterials.9b01435

PMID:33463189

Abstract

Collagen and single-stranded DNA (ssDNA) complex to self-assemble into fibers depending on the length of the ssDNA and the relative amounts of collagen and ssDNA in solution. We report for the first time that when monodisperse, random sequences of ssDNA in the range of 15-90 nucleotides and type I collagen were mixed together at room temperature, fibers several tens of micrometers in length and as large as 10 μm in diameter were formed. Fiber formation was rapid and spontaneous, requiring no further treatment after mixing. Most notably, more ssDNA oligomers were incorporated into the fibers formed using shorter ssDNA oligomers. Endothelial cells formed angiogenic-like structures using the fibers with elevated expression of von Willebrand factor for cells in direct contact with the fibers. These fibers open the door to future applications in the administration and functionality of ssDNA and collagen.

摘要

胶原和单链 DNA（ssDNA）会根据 ssDNA 的长度以及溶液中胶原和 ssDNA 的相对含量自组装成纤维。我们首次报道，当单分散的、长度在 15-90 个核苷酸范围内的随机 ssDNA 序列与 I 型胶原在室温下混合时，会形成几十微米长、直径达 10 μm 的纤维。纤维的形成是快速且自发的，混合后无需进一步处理。值得注意的是，使用较短的 ssDNA 寡聚物形成的纤维中掺入了更多的 ssDNA 寡聚物。与纤维直接接触的细胞中，内皮细胞使用纤维形成了类似血管生成的结构，血管生成因子 von Willebrand 因子的表达水平升高。这些纤维为 ssDNA 和胶原的给药和功能应用开辟了新的途径。

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寡聚体长度决定了单链 DNA-胶原蛋白复合纤维的自组装。

Oligomer Length Defines the Self-Assembly of Single-Stranded DNA-Collagen Complex Fibers.

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