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Cellsorter單細胞分選捕獲系統(tǒng)發(fā)表部分文獻
1. Z. K?rnyei et al.: Cell sorting in a Petri dish controlled by computer vision Nature Scientific Reports 3, Article number: 1088 (2013) Open access paper.
2. R. Salánki et al.: Automated single cell sorting and deposition in submicroliter drops, Appl. Phys. Lett. 105, 083703 (2014)
3. R. Salánki et al.: High-throughput image based single cell isolation, Microscopy and Analysis, January issue, S10-13 (2015) Open access paper.
4. R. Ungai-Salánki et al.: Automated single cell isolation from suspension with computer vision, Scientific Reports 6, Article number: 20375 (2016) Open access paper.
B. Francz et al.: Subnanoliter precision piezo pipette for single cell isolation and droplet printing, Microfluidcs and Nanofluidics 24: 12 (2020)
1. Mia Palmkvist: Malaria and polypeptides of plasmodium falciparum at the infected erythrocyte surface, PhD Thesis, Karolinska Institutet, Stockholm (2016)
2. A. Kozlov et al.: A screening of UNF targets identifies Rnb, a novel regulator of Drosophila circadian rhythms, The Journal of Neuroscience 7, 3286-16 (2017)
3. M. Ngara et al.: Exploring parasite heterogeneity using single-cell RNA-seq reveals a gene signature among sexual stage Plasmodium falciparum parasites, Experimental Cell Research (2018)
4. Payam Haftbaradaran Esfahani et al.: Cell shape determines gene expression: cardiomyocyte morphotypic transcriptomes, Basic Research in Cardiology 115(7) (2020)
5. Payam Haftbaradaran Esfahani, Ralph Kn?ll: An Approach to Study Shape-Dependent Transcriptomics at a Single Cell Level, jove doi: 10.3791/61577 (2020).
Marnie Winter et al.: Isolation of Circulating Fetal Trophoblasts Using Inertial Microfluidics for Noninvasive Prenatal Testing, Advanced Materials Technologies 1800066 (2018)
1. K. Piatkevich et al. :A robotic multidimensional directed evolution approach applied to fluorescent voltage reporters, Nature Chem Biol, doi:10.1038/s41589-018-0004-9 (2018)
1. R. Salánki et al. : Single cell adhesion assay using computer controlled micropipette, PLoS ONE 9(10): e111450 (2014) Open access paper.
2. T. Gerecsei et al.: Adhesion force measurements on functionalized microbeads: An in-depth comparison of computer controlled micropipette and fluidic force microscopy, Journal of Colloid and Interface Science, 555, 245-53 (2019)
3. T. Gerecsei et al.: Dissociation Constant of Integrin-RGD Binding in Live Cells from Automated Micropipette and Label-Free Optical Data, Biosensors 2021, 11, 32 (2021)
4. P. K. Jani et al.: Complement MASP-1 enhances adhesion between endothelial cells and neutrophils by up-regulating E-selectin expression, Molecular Immunology 75, 38–47 (2016)
5. N. Orgován et al.: Adhesion kinetics of human primary monocytes, dendritic cells, and macrophages: Dynamic cell adhesion measurements with a label-free optical biosensor and their comparison with end-point assays, Biointerphases 11, 031001 (2016)
6. N. Sándor et al.: CD11c/CD18 Dominates Adhesion of Human Monocytes, Macrophages and Dendritic Cells over CD11b/CD18, PLoS ONE 11(9), e0163120 (2016) Open access paper.
7. B. Szilvia Lukácsi et al.: The differential role of CR3 (CD11b/CD18) and CR4 (CD11c/CD18) in the adherence, migration and podosome formation of human macrophages and dendritic cells under inflammatory conditions, PLoS ONE 15(5): e0232432 (2020) Open access paper.
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