單細(xì)胞分離

應(yīng)用域：

FluidFM OMNIUM方便了單細(xì)胞水平的研究，尤其適合應(yīng)用于醫(yī)療、單細(xì)胞生物學(xué)、單細(xì)胞質(zhì)譜、單細(xì)胞基因編輯、藥物研發(fā)等域。

基本參數(shù)：

- 單細(xì)胞水平的顯微注射、提取、分離以及細(xì)胞粘附力測定，全過程通過軟件設(shè)置自動(dòng)化完成；

- 全自動(dòng)進(jìn)行細(xì)胞核、細(xì)胞質(zhì)定位注射；

- 軟件自動(dòng)更換探針更換，無需手動(dòng)加載；

- 樣品臺(tái)移動(dòng)精度：XY軸不大于1 nm；Z軸不大于0.2nm；

- 探針力學(xué)控制：提供探針當(dāng)前壓力值并繪制曲線；

- 配置高靈敏度液體微流控系統(tǒng)，流體壓力控制精度：±0.5 mbar；

設(shè)備點(diǎn)：

單細(xì)胞注射——快速、準(zhǔn)確、低損傷

單細(xì)胞提取——微量、低創(chuàng)、準(zhǔn)確

單細(xì)胞分離——直觀、簡單、低損

測試數(shù)據(jù)

肝細(xì)胞的微量注射

HeLa細(xì)胞的微量提取

CHO細(xì)胞的單細(xì)胞分離

納米光刻DAPI染料

發(fā)表文章

單細(xì)胞注射：

1. O.Guillaume-Gentil, E.Potthoff, D.Ossola, et al. Force-controlled fluidic injection into single cell nuclei.(2013)Small,9(11),1904?1907. doi:10.1002/ smll.201202276A.

2. Meister, M. Gabi, P.Behr, et al. FluidFM: Combining atomic force microscopy and nanofluidics in a universal liquid delivery system for single cell applications and beyond.(2009) Nano Letters, 9(6), 2501?2507. doi:10.1021/nl901384x

單細(xì)胞提?。?/strong>

1. O. Guillaume-Gentil, T. Rey, P. Kiefer, A.J. Ibá?ez, R. Steinhoff, R. Br?nnimann, L. Dorwling-Carter, H. Zambelli, R. Zenobi & J.A. Vorholt. Single-Cell Mass Spectrometry of Metabolites Extracted from Live Cells by Fluidic Force Microscopy. (May 2017) Anal Chem., 89(9), 5017-5023. doi:10.1021/acs.analchem.7b00367

2. O. Guillaume-Gentil, R.V. Grindberg, R. Kooger, L. Dorwling-Carter, V. Martinez, D. Ossola, M. Pilhofer, T. Zambelli & J.A. Vorholt. Tunable Single-Cell Extraction for Molecular Analyses. (Jul 2016) Cell, 166(2), 506-516. doi: 10.1016/j. cell.2016.06.025.

單細(xì)胞分離：

1. O. Guillaume-Gentil, T. Zambelli & J.A. Vorholt.Isolation of single mammalian cells from adherent cultures by fluidic force microscopy. (2014) Lab on a chip, 14(2), 402-414. doi:10.1039/c3lc51174j

2. P. Stiefel, T. Zambelli & J.A. Vorholt. Isolation of optically targeted single bacteria by application of fluidic force microscopy to aerobic anoxygenic phototrophs from the phyllosphere. (2013) Applied and Environmental Microbiology, 79(16), 4895-4905. doi:10.1128/AEM.01087-13P.

3. D?rig, P. Stiefel, P. Behr, et al. Force-controlled spatial manipulation of viable mammalian cells and micro-organisms by means of FluidFM technology.(2010) Applied Physics Letters, 97(2), 023701 1-3. doi:10.1063/1.3462979

新發(fā)表：

2021

1. M. Mathelié-Guinlet, F. Viela, J. Dehullu, S. Filimova, J.M. Rauceo, P.N. Lipke & Y.F. Dufrêne. Single-cell fluidic force microscopy reveals stress-dependent molecular interactions in yeast mating. (2021) Commun Biol. doi: 10.1038/s42003-020-01498-9
AFM Series: Adhesion of single cells

2020

1. A.G. Nagy, A. Bonyár, I. Székács & R. Horvath. Analysis of single-cell force-spectroscopy data of Vero cells recorded by FluidFM BOT. (2020) IEEE 26th International Symposium for Design and Technology in Electronic Packaging (SIITME). doi: 10.1109/SIITME50350.2020.9292265, BIO Series: Adhesion of single cells

2. I. Demir, J. Blockx, E. Dague, P. Guiraud, W. Thielmans, K. Muylaert & C. Formosa-Dague. Nanoscale Evidence Unravels Microalgae Flocculation Mechanism Induced by Chitosan. (2020) ACS Applied Biomaterials. doi: 10.1021/acsabm.0c007722. AFM Series: Adhesion of single cells

3. P. Saha, T. Duanis-Assaf & M. Reches. Fundamentals and Applications of FluidFM Technology in Single-Cell Studies. (2020) Advanced Materials Interfaces. doi: 10.1002/admi.20001115. AFM Series: REVIEW

4. T. Schlotter, S. Weaver, C. Forró, D. Momotenko, J. Voros, T. Zambelli & M. Aramesh. Force-Controlled formation of dynamic nanopores for single-biomolecule sensing and single-cell secretomics. (2020) ACS Nano. doi: 10.1021/acs.nano.0c04281. AFM Series: SICM, other

5. L. Hofherr, C. Müller-Renno, C. Ziegler. FluidFM as a tool to study adhesion forces of bacteria - Optimization of parameters and comparison to conventional bacterial probe Scanning Force Spectroscopy. (2020). PLOS ONE. doi: 10.1371/journal.pone.0227395. AFM Series: Adhesion of single bacteria

6. T. Schlotter, S. Weaver, T. Zambelli, J. Voros & M. Aramesh. Force-controlled nanopores for single cell measurements using micro-channelled AFM Cantilevers. (2020). Biophysical Journal. doi: 10.1016/j.bpj.2019.11.1066. AFM Series: Other

7. J. Zhang, H. Yu, B. Harris, Y. Zheng, U. Celik, L. Na, R. Faller, X. Chen, D. R. Haudenschild, G. Liu. New Means to Control Molecular Assembly (2020) ACS Publications. doi.org/10.1021/acs.jpcc.9b11377. BIO Series: Nanolithography

8. P. Wysotzki, A. Sancho, J. Gimsa, J. Groll.  A comparative analysis of detachment forces and energies in initial and mature cell-material interaction (2020) Science Direct. doi.org/10.1016/j.colsurfb.2020.110894. AFM Series: Single Force Spectroscopy

9. M. Sztilkovics, T. Gerecsei, B. Peter, A. Saftics, S. Kurunczi, I. Szekacs, B. Szabo & R. Horvath. Single-cell adhesion force kinetics of cell populations from combined label-free optical biosensor and robotic fluidic force microscopy. (2020) Scientific Reports. doi: 10.1038/s41598-019-56898-7. BIO Series: Adhesion of single cells

用戶單位

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