Culturing and patch clamping of Jurkat T cells and neurons on Al2O3 coated nanowire arrays of altered morphology

Jann Harberts; Robert Zierold; Cornelius Fendler; Aune Koitm?e; Parisa Bayat; Irene Fernandez-Cuesta; Gabriele Loers; Bj?rn-Philipp Diercks; Ralf Fliegert; Andreas H. Guse; Carsten Ronning; Gaute Otnes; Magnus Borgstr?m; Robert H. Blick

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Culturing and patch clamping of Jurkat T cells and neurons on Al2O3 coated nanowire arrays of altered morphology

机译：在形态改变的Al2O3包覆的纳米线阵列上Jurkat T细胞和神经元的培养和膜片钳

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Nanowire substrates play an increasingly important role for cell cultures as an approach for hybrid bio-semiconductor junctions. We investigate Jurkat T cells and neurons from mice cultured on Al _(2) O _(3) coated ordered and randomly distributed nanowires. Cell viability was examined by life/membrane staining reporting comparable viability on planar and nanowire substrates. Imaging the hybrid interface reveals a wrapping of the cell membrane around the very nanowire tip. Patch clamp recordings show similar electrophysiological responses on each type of nanowires compared to planar control substrates. We demonstrate that the morphological characteristic of the nanowire substrate plays a subordinate role which opens up the arena for a large range of nanowire substrates in a functionalized application such as stimulation or sensing.

机译：纳米线基板作为一种混合生物半导体结的方法，在细胞培养中起着越来越重要的作用。我们调查了来自在Al _（2）O _（3）涂层有序和随机分布的纳米线上培养的小鼠的Jurkat T细胞和神经元。通过生命/膜染色检查细胞活力，报告在平面和纳米线基材上的活力相当。对混合界面进行成像可以揭示细胞膜包裹在纳米线尖端周围。膜片钳记录显示，与平面控制基板相比，每种类型的纳米线上的电生理响应相似。我们证明纳米线基板的形态特征起从属作用，这在功能化应用（例如刺激或传感）中为大范围的纳米线基板打开了舞台。

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《RSC Advances 》 |2019年第20期| 共8页
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Jann Harberts; Robert Zierold; Cornelius Fendler; Aune Koitm?e; Parisa Bayat; Irene Fernandez-Cuesta; Gabriele Loers; Bj?rn-Philipp Diercks; Ralf Fliegert; Andreas H. Guse; Carsten Ronning; Gaute Otnes; Magnus Borgstr?m; Robert H. Blick;
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1. Culturing and patch clamping of Jurkat T cells and neurons on Al2O3 coated nanowire arrays of altered morphology [J] . Harberts Jann, Zierold Robert, Fendler Cornelius, RSC Advances . 2019 ,第20期

机译：Jurkat T细胞和神经元在Al2O3涂覆纳米线阵列改变形态的培养和贴片
2. Culturing and patch clamping of Jurkat T cells and neurons on Al2O3 coated nanowire arrays of altered morphology (vol 9, pg 11194, 2019) [J] . Harberts Jann, Zierold Robert, Fendler Cornelius, RSC Advances . 2019 ,第24期

机译：Jurkat T细胞和神经元在改变形态的Al2O3涂层纳米线阵列中的培养和贴片钳位（Vol 9，PG 11194,2019）
3. Correction: Culturing and patch clamping of Jurkat T cells and neurons on Al2O3 coated nanowire arrays of altered morphology [J] . Jann Harberts, Robert Zierold, Cornelius Fendler, RSC Advances . 2019 ,第24期

机译：校正：Jurkat T细胞和神经元在形态改变的Al2O3涂层纳米线阵列上的培养和膜片钳
4. Secretion of different altered laminin isoforms results in three-dimensional morphological changes in cells cultured on Matrigel [C] . Imai Masayoshi, Mizutani Tomoko, Kawabata Kuniaki, International Symposium on Micro-NanoMechatronics and Human Science . 2014

机译：分泌不同的层粘连蛋白同工型会导致基质胶上培养的细胞发生三维形态变化
5. Patch-clamp analysis of peptidergic excitation in rat supraoptic neurons. [D] . Chakfe, Yassar. 1997

机译：大鼠超视神经元肽能兴奋的膜片钳分析。
6. A Temperature-Controlled Patch Clamp Platform Demonstrated on Jurkat T Lymphocytes and Human Induced Pluripotent Stem Cell-Derived Neurons [O] . Jann Harberts, Max Kusch, John O’Sullivan, 2020

机译：在Jurkat T淋巴细胞和人类诱导的多能干细胞衍生的神经元上展示了一个温度控制的膜片钳平台
7. Simultaneous multi-patch-clamp and extracellular-array recordings: Single neuron reflects network activity [O] . Vardi, Roni, Goldental, Amir, Sardi, Shira, 2017

机译：同时多片钳和细胞外阵列记录：单神经元反映网络活动

Culturing and patch clamping of Jurkat T cells and neurons on Al2O3 coated nanowire arrays of altered morphology

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