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DOI

  • Станислав Шмаков
  • Злата Сосновицкая
  • Екатерина Махеева
  • Марина Аникина
  • Алексей Кузнецов
  • Валерий Михайлович Кондратьев
  • Никита Александрович Соломонов
  • Виталий Михайлович Бойцов
  • Владимир Викторович Федоров
  • Иван Сергеевич Мухин
  • Антон Сергеевич Букатин
  • Алексей Дмитриевич Большаков
  • Родион Романович Резник
Semiconductor nanowires are known for their unusual geometry, providing unique electronic and optical properties. Substrates with vertical nanowires have highly non-uniform surfaces, which are attractive in terms of the study of live cells that can interact and be labeled with the wires. Despite several previous works studying cells cultivated over nanowires, questions regarding cell rupture and interaction with the wires remain open. Here, we demonstrate that nanowires can not only penetrate the cell membrane, but even be broken by a cell and trapped inside it. Even after mechanical poration of the membrane manifested by the efficient transfection and delivery of a fluorescent protein encoding plasmid, the cells are found to be viable for 7 days of incubation. The endocytosed wires are then aligned along the nucleus periphery and ousted to pseudopodia with the formation of nanowire-rich fibrils as a result of complex intracellular processes. We demonstrate that endocytosis of the wires may lead to their chemical modification manifested by the red shift of the luminescence spectra. Analysis of the wires’ breakdown reveals that the cells can generate forces as high as several hundreds of nN. Using this work, we demonstrate several phenomena with the potential to be used in intriguing methods for intracellular visualization and the development of biointerfaces.
Язык оригиналаанглийский
ЖурналNanoscale
DOI
СостояниеЭлектронная публикация перед печатью - 7 окт 2024

ID: 126625261