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Sandor Kasas

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112 publications

2025 | 2024 | 2023 | 2022 | 2021 | 2020 | 2018 | 2017 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009 | 2008 | 2007 | 2006 | 2005 | 2004 | 2003 | 2002 | 2001 | 2000 | 1999 | 1998 | 1997 | 1996 | 1995 | 1994 | 1993 | 1992 |

2025

Effect of surfactants on inactivation of Bacillus subtilis spores by chlorine.

Zhang T., Villalba M.I., Gao R., Kasas S., von Gunten U., 2025/03/15. Water research, 272 p. 122944. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_42EC0A57D089]

2024

Optical Nanomotion Detection to Rapidly Discriminate between Fungicidal and Fungistatic Effects of Antifungals on Single-Cell Candida albicans.

Radonicic V., Kalauzi A., Villalba M.I., Radotić K., Devreese B., Kasas S., Willaert R.G., 2024/07/29. Antibiotics, 13 (8). Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_FC969A16FC45]

Accurate and rapid antibiotic susceptibility testing using a machine learning-assisted nanomotion technology platform.

Sturm A., Jóźwiak G., Verge M.P., Munch L., Cathomen G., Vocat A., Luraschi-Eggemann A., Orlando C., Fromm K., Delarze E. et al., 2024/03/18. Nature communications, 15 (1) p. 2037. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_ABB57C7C3258]

An Optical Fiber-Based Nanomotion Sensor for Rapid Antibiotic and Antifungal Susceptibility Tests.

Zhou J., Liao C., Zou M., Villalba M.I., Xiong C., Zhao C., Venturelli L., Liu D., Kohler A.C., Sekatskii S.K. et al., 2024/03/13. Nano letters, 24 (10) pp. 2980-2988. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_3C1B1FB78F1A]

A simplified version of rapid susceptibility testing of bacteria and yeasts using optical nanomotion detection.

Villalba M.I., Gligorovski V., Rahi S.J., Willaert R.G., Kasas S., 2024. Frontiers in microbiology, 15 p. 1328923. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_E8897E6AAC82]

Editorial: Cellular nanomotion as a new signature of life.

Willaert R.G., Kasas S., 2024. Frontiers in microbiology, 15 p. 1390002. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_E5A63EAF9CDC]

Editorial: New marketable discoveries in nanobiotechnology.

Willaert R.G., Kasas S., 2024. Frontiers in bioengineering and biotechnology, 12 p. 1412587. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_36BC265FAE7A]

Machine learning method for the classification of the state of living organisms' oscillations.

Kweku D., Villalba M.I., Willaert R.G., Yantorno O.M., Vela M.E., Panorska A.K., Kasas S., 2024. Frontiers in bioengineering and biotechnology, 12 p. 1348106. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_5DC661531346]

2023

Candida albicans Adhesion Measured by Optical Nanomotion Detection

Villalba Maria I., LeibundGut-Landmann Salomé, Bougnoux Marie-Elisabeth, d'Enfert Christophe, Willaert Ronnie G., Kasas Sandor, 2023/11/20. Fermentation, 9 (11) p. 991.

[URN][DOI][WoS][serval:BIB_DF5BE86279D8]

Mechanical Properties and Nanomotion of BT-20 and ZR-75 Breast Cancer Cells Studied by Atomic Force Microscopy and Optical Nanomotion Detection Method.

Starodubtseva M.N., Shkliarava N.M., Chelnokova I.A., Villalba M.I., Krylov A.Y., Nadyrov E.A., Kasas S., 2023/09/26. Cells, 12 (19) p. 2362. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_957D09A6324D]

Simple optical nanomotion method for single-bacterium viability and antibiotic response testing.

Villalba M.I., Rossetti E., Bonvallat A., Yvanoff C., Radonicic V., Willaert R.G., Kasas S., 2023/05/02. Proceedings of the National Academy of Sciences of the United States of America, 120 (18) pp. e2221284120. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_4D9EEDB5E9C7]

Fast Self-Assembly Dynamics of a β-Sheet Peptide Soft Material.

Bertouille J., Kasas S., Martin C., Hennecke U., Ballet S., Willaert R.G., 2023/05. Small, 19 (20) pp. e2206795. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_253C28F91B89]

Single-Cell Optical Nanomotion of Candida albicans in Microwells for Rapid Antifungal Susceptibility Testing

Radonicic Vjera, Yvanoff Charlotte, Villalba Maria Ines, Devreese Bart, Kasas Sandor, Willaert Ronnie G., 2023/04/07. Fermentation, 9 (4) p. 365.

[URN][DOI][WoS][serval:BIB_543E1AC4F12B]

3D printed fiber-optic nanomechanical bioprobe

Zou M., Liao C., Chen Y., Xu L., Tang S., Xu G., Ma K., Zhou J., Cai Z., Li B. et al., 2023/03/01. International Journal of Extreme Manufacturing, 5 (1) p. 015005.

[URN][DOI][WoS][serval:BIB_88621F3AA9A4]

Mitochondrial nanomotion measured by optical microscopy.

Parmar P., Villalba M.I., Horii Huber A.S., Kalauzi A., Bartolić D., Radotić K., Willaert R.G., MacFabe D.F., Kasas S., 2023. Frontiers in microbiology, 14 p. 1133773. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_57E207FD7695]

Modulation of the nanoscale motion rate of Candida albicans by X-rays.

Starodubtseva M.N., Chelnokova I.A., Shkliarava N.M., Villalba M.I., Tapalski D.V., Kasas S., Willaert R.G., 2023. Frontiers in microbiology, 14 p. 1133027. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_FA8E4F43AAE3]

2022

The Dynamics of Single-Cell Nanomotion Behaviour of Saccharomyces cerevisiae in a Microfluidic Chip for Rapid Antifungal Susceptibility Testing

Radonicic V., Yvanoff C., Villalba MI, Kasas S., Willaert RG, 2022/04/26. Fermentation, 8 (5) p. 195.

[URN][DOI][WoS][serval:BIB_A4C6DF978E12]

Effect of antibiotics on mechanical properties of Bordetella pertussis examined by atomic force microscopy.

Villalba M.I., Venturelli L., Arnal L., Masson C., Dietler G., Vela M.E., Yantorno O., Kasas S., 2022/04. Micron, 155 p. 103229. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_F50B49013166]

High-Speed Atomic Force Microscopy Visualization of Protein-DNA Interactions Using DNA Origami Frames.

Willaert R.G., Kasas S., 2022. pp. 157-167 dans Prokaryotic Gene Regulation, Springer.

[DOI][Pmid][serval:BIB_91155682B7E8]

2021

Nanomotion Spectroscopy as a New Approach to Characterize Bacterial Virulence.

Villalba M.I., Venturelli L., Willaert R., Vela M.E., Yantorno O., Dietler G., Longo G., Kasas S., 2021/07/21. Microorganisms, 9 (8) p. 1545. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_2B3670B3C1DA]

Nano-Motion Analysis for Rapid and Label Free Assessing of Cancer Cell Sensitivity to Chemotherapeutics.

Stupar P., Podolski-Renić A., Villalba M.I., Dragoj M., Jovanović Stojanov S., Pešić M., Kasas S., 2021/05/04. Medicina, 57 (5) p. 446. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_262502FA9B90]

Nanomotion Detection-Based Rapid Antibiotic Susceptibility Testing.

Kasas S., Malovichko A., Villalba M.I., Vela M.E., Yantorno O., Willaert R.G., 2021/03/10. Antibiotics, 10 (3) p. 287. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_319462EC0D61]

2020

A perspective view on the nanomotion detection of living organisms and its features.

Venturelli L., Kohler AC, Stupar P., Villalba MI, Kalauzi A., Radotic K., Bertacchi M., Dinarelli S., Girasole M., Pešić M. et al., 2020/12. Journal of molecular recognition, 33 (12) pp. e2849. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_78FDC8D65D7F]

Single yeast cell nanomotions correlate with cellular activity.

Willaert RG, Vanden Boer P., Malovichko A., Alioscha-Perez M., Radotić K., Bartolić D., Kalauzi A., Villalba MI, Sanglard D., Dietler G. et al., 2020/06. Science advances, 6 (26) pp. eaba3139. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_3C6EA13A3ECB]

Adaptation of Pseudomonas aeruginosa to constant sub-inhibitory concentrations of quaternary ammonium compounds

Voumard Margaux, Venturelli Leonardo, Borgatta Myriam, Croxatto Antony, Kasas Sandor, Dietler Giovanni, Breider Florian, von Gunten Urs, 2020/04. Environmental Science: Water Research & Technology, 6 (4) pp. 1139-1152. Peer-reviewed.

[URN][DOI][WoS][serval:BIB_60271FEFACB7]

Yeast Nanometric Scale Oscillations Highlights Fibronectin Induced Changes in C. albicans

Kohler AC, Venturelli L., Kannan A., Sanglard D., Dietler G., Willaert R., Kasas S., 2020/02/21. Fermentation, 6 (1) p. 28. Peer-reviewed.

[URN][DOI][WoS][serval:BIB_22BCD5E33544]

Advanced technological tools to study multidrug resistance in cancer.

Andrei L., Kasas S., Ochoa Garrido I., Stanković T., Suárez Korsnes M., Vaclavikova R., Assaraf Y.G., Pešić M., 2020/01. Drug resistance updates, 48 p. 100658. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_4956D7F37617]

2018

AFM contribution to unveil pro- and eukaryotic cell mechanical properties.

Kasas S., Stupar P., Dietler G., 2018/01. Seminars in cell & developmental biology, 73 pp. 177-187. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_C1C7D499B6B9]

DNA-protein interactions explored by atomic force microscopy.

Kasas S., Dietler G., 2018/01. Seminars in cell & developmental biology, 73 pp. 231-239. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_488B7ED4E96B]

Nanomotion Detection Method for Testing Antibiotic Resistance and Susceptibility of Slow-Growing Bacteria.

Villalba M.I., Stupar P., Chomicki W., Bertacchi M., Dietler G., Arnal L., Vela M.E., Yantorno O., Kasas S., 2018/01. Small, 14 (4). Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_CF6B98C99146]

2017

Nanomechanical sensor applied to blood culture pellets: a fast approach to determine the antibiotic susceptibility against agents of bloodstream infections.

Stupar P., Opota O., Longo G., Prod'hom G., Dietler G., Greub G., Kasas S., 2017/06. Clinical microbiology and infection, 23 (6) pp. 400-405. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_EC311BFF9523]

2015

Detecting nanoscale vibrations as signature of life.

Kasas S., Ruggeri F.S., Benadiba C., Maillard C., Stupar P., Tournu H., Dietler G., Longo G., 2015. Proceedings of the National Academy of Sciences of the United States of America, 112 (2) pp. 378-381. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_3029E2F00FBE]

Détecter la vie grâce à la microscopie à force atomique [Detecting life thanks to the atomic force microscope].

Kasas S., Stupar P., Longo G., Dietler G., 2015. Médecine Sciences, 31 (4) pp. 369-371. Peer-reviewed.

[DOI][Pmid][serval:BIB_129DA82C81F9]

Localization of adhesins on the surface of a pathogenic bacterial envelope through atomic force microscopy.

Arnal L., Longo G., Stupar P., Castez M.F., Cattelan N., Salvarezza R.C., Yantorno O.M., Kasas S., Vela M.E., 2015. Nanoscale, 7 (41) pp. 17563-17572. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_908F99B73275]

Measuring cytoskeleton and cellular membrane mechanical properties by atomic force microscopy.

Roduit C., Longo G., Dietler G., Kasas S., 2015. Methods in Molecular Biology, 1232 pp. 153-159. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_5668125E55AF]

Molecular mechanism of flocculation self-recognition in yeast and its role in mating and survival.

Goossens K.V., Ielasi F.S., Nookaew I., Stals I., Alonso-Sarduy L., Daenen L., Van Mulders S.E., Stassen C., van Eijsden R.G., Siewers V. et al., 2015. Mbio, 6 (2) pp. e00427-15. Peer-reviewed.

[DOI][Pmid][serval:BIB_658B59C79A75]

2014

Atomic force and electron microscopic-based study of sarcolemmal surface of living cardiomyocytes unveils unexpected mitochondrial shift in heart failure.

Dague E., Genet G., Lachaize V., Guilbeau-Frugier C., Fauconnier J., Mias C., Payré B., Chopinet L., Alsteens D., Kasas S. et al., 2014. Journal of Molecular and Cellular Cardiology, 74 pp. 162-172. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_2602769A64EF]

Effects of antibacterial agents and drugs monitored by atomic force microscopy.

Longo G., Kasas S., 2014. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology, 6 (3) pp. 230-244. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_3F833B927F6D]

Real-time monitoring of protein conformational changes using a nano-mechanical sensor.

Alonso-Sarduy L., De Los Rios P., Benedetti F., Vobornik D., Dietler G., Kasas S., Longo G., 2014. Plos One, 9 (7) pp. e103674. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_FEFD9F5619A4]

2013

Mechanical properties of biological specimens explored by atomic force microscopy

Kasas S, Longo G, Dietler G, 2013/04/03. Journal of Physics D: Applied Physics, 46 (13) p. 133001. Peer-reviewed.

[DOI][WoS][serval:BIB_FA4EEC645F65]

A universal fluid cell for the imaging of biological specimens in the atomic force microscope.

Kasas S., Radotic K., Longo G., Saha B., Alonso-Sarduy L., Dietler G., Roduit C., 2013. Microscopy Research and Technique, 76 (4) pp. 357-363. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_3AB1899BFFEE]

Antibiotic-induced modifications of the stiffness of bacterial membranes.

Longo G., Rio L.M., Trampuz A., Dietler G., Bizzini A., Kasas S., 2013. Journal of Microbiological Methods, 93 (2) pp. 80-84.

[DOI][WoS][Pmid][serval:BIB_A20F8BD4E0FA]

Combination of fluorescence microscopy and nanomotion detection to characterize bacteria.

Aghayee S., Benadiba C., Notz J., Kasas S., Dietler G., Longo G., 2013. Journal of Molecular Recognition, 26 (11) pp. 590-595. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_5C6B1759AEF2]

Rapid detection of bacterial resistance to antibiotics using AFM cantilevers as nanomechanical sensors.

Longo G., Alonso-Sarduy L., Rio L.M., Bizzini A., Trampuz A., Notz J., Dietler G., Kasas S., 2013. Nature Nanotechnology, 8 (7) pp. 522-526. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_140B510ED8B7]

Time-Lapse AFM Imaging of DNA Conformational Changes Induced by Daunorubicin.

Alonso-Sarduy L., Longo G., Dietler G., Kasas S., 2013. Nano Letters, 13 (11) pp. 5679-5684. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_76EAEC3348E0]

2012

Atomic Force Microscopy Stiffness Tomography on Living Arabidopsis thaliana Cells Reveals the Mechanical Properties of Surface and Deep Cell-Wall Layers during Growth.

Radotić K., Roduit C., Simonović J., Hornitschek P., Fankhauser C., Mutavd?ić D. , Steinbach G., Dietler G., Kasas S., 2012. Biophysical Journal, 103 (3) pp. 386-394.

[DOI][WoS][Pmid][serval:BIB_C1E08C946753]

Differential peptide binding to CD40 evokes counteractive responses.

Khan S., Alonso L., Roduit C., Bandyopadhyay S., Singh S., Saha S., Tacchini-Cottier F., Roy S., Dietler G., Kasas S. et al., 2012. Human Immunology, 73 (5) pp. 465-469.

[DOI][WoS][Pmid][serval:BIB_08C2F641969D]

Force volume and stiffness tomography investigation on the dynamics of stiff material under bacterial membranes.

Longo G., Rio L.M., Roduit C., Trampuz A., Bizzini A., Dietler G., Kasas S., 2012. Journal of Molecular Recognition, 25 (5) pp. 278-284. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_9B01461C1EF4]

OpenFovea: open-source AFM data processing software.

Roduit C., Saha B., Alonso-Sarduy L., Volterra A., Dietler G., Kasas S., 2012. Nature Methods, 9 (8) pp. 774-775. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_6E2D68B2393B]

Stiffness tomography exploration of living and fixed macrophages.

Roduit C., Longo G., Benmessaoud I., Volterra A., Saha B., Dietler G., Kasas S., 2012. Journal of Molecular Recognition, 25 (5) pp. 241-246. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_3B14E4D048B8]

2011

A role for septins in the interaction between the Listeria monocytogenes INVASION PROTEIN InlB and the Met receptor.

Mostowy S., Janel S., Forestier C., Roduit C., Kasas S., Pizarro-Cerdá J., Cossart P., Lafont F., 2011. Biophysical Journal, 100 (8) pp. 1949-1959. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_D5B67D76DEAC]

Determination of the size of quantum dots by fluorescence spectroscopy.

Mutavdzić D., Xu J., Thakur G., Triulzi R., Kasas S., Jeremić M., Leblanc R., Radotić K., 2011. Analyst, 136 (11) pp. 2391-2396. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_FFDFC5C490F7]

Human topoisomerase II-DNA interaction study by using atomic force microscopy.

Alonso-Sarduy L., Roduit C., Dietler G., Kasas S., 2011. FEBS Letters, 585 (19) pp. 3139-3145.

[DOI][WoS][Pmid][serval:BIB_389D85809F23]

Probing the nanomechanical properties of viruses cells and cellular structures

Kasas S., Dietler G., 2011. pp. 335-352 dans Life at the nanoscale : atomic force microscopy of live cells chap. 16, Pan Stanford Publishing.

[serval:BIB_4FD583533B29]

2010

Atomic force microscopy imaging of living cells

Berquand A., Roduit C., Kasas S., Holloschi A., Ponce L., Hafner M., 2010. Microscopy Today, 18 (6) pp. 8-14. Peer-reviewed.

[DOI][serval:BIB_E6060259C2A0]

Microcontroller-driven fluid-injection system for atomic force microscopy.

Kasas S., Alonso L., Jacquet P., Adamcik J., Haeberli C., Dietler G., 2010. Review of Scientific Instruments, 81 (1) p. 013704. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_C21F1D204914]

Nano-scale force spectroscopy applied to biological samples

Kasas S., Roduit C., Dietler G, 2010. pp. 23-44 dans Carrara S. (eds.) Nano-Bio-Sensing chap. 2, Springer.

[DOI][serval:BIB_4100A5E792E7]

2009

Stiffness tomography by atomic force microscopy.

Roduit C., Sekatski S., Dietler G., Catsicas S., Lafont F., Kasas S., 2009. Biophysical Journal, 97 (2) pp. 674-677. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_DD4F0AF48EA4]

2008

Temperature-dependent elasticity of microtubules

Kis A., Kasas S., Kulik A. J., Catsicas S., Forro L., 2008/06. Langmuir, 24 (12) pp. 6176-6181. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_54E3AC100296]

Probing nanomechanical properties from biomolecules to living cells.

Kasas S., Dietler G., 2008/04. Pflügers Archiv : European journal of physiology, 456 (1) pp. 13-27. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_763EFA728D04]

Elastic membrane heterogeneity of living cells revealed by stiff nanoscale membrane domains.

Roduit C., van der Goot F.G., De Los Rios P., Yersin A., Steiner P., Dietler G., Catsicas S., Lafont F., Kasas S., 2008. Biophysical journal, 94 (4) pp. 1521-1532. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_C56D635DC857]

Persisting atypical and cystic forms of Borrelia burgdorferi and local inflammation in Lyme neuroborreliosis

Miklossy J., Kasas S., Zurn A. D., McCall S., Yu S., McGeer P. L., 2008. Journal of Neuroinflammation, 5 p. 40. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_FDE6A3C12B18]

2007

Elastic properties of the cell surface and trafficking of single AMPA receptors in living hippocampal neurons.

Yersin A., Hirling H., Kasas S., Roduit C., Kulangara K., Dietler G., Lafont F., Catsicas S., Steiner P., 2007/06. Biophysical Journal, 92 (12) pp. 4482-4489. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_8E1DEEB8CA1C]

Characterization of MAP1B heavy chain interaction with actin.

Cueille N., Blanc C.T., Popa-Nita S., Kasas S., Catsicas S., Dietler G., Riederer B.M., 2007. Brain Research Bulletin, 71 (6) pp. 610-618.

[DOI][WoS][Pmid][serval:BIB_CAC1FB83C41E]

Techniques for measuring microtubule stiffness

Kasas S, Dietler G., 2007. Current Nanoscience, 3 (1) pp. 85-96. Peer-reviewed.

[WoS][serval:BIB_1195C898881A]

2006

Exploring the mechanical properties of single vimentin intermediate filaments by atomic force microscopy.

Guzmán C., Jeney S., Kreplak L., Kasas S., Kulik A.J., Aebi U., Forró L., 2006/07. Journal of Molecular Biology, 360 (3) pp. 623-630. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_9C74A3D40E5F]

Cellular toxicity of carbon-based nanomaterials.

Magrez A., Kasas S., Salicio V., Pasquier N., Seo J.W., Celio M., Catsicas S., Schwaller B., Forró L., 2006/06. Nano Letters, 6 (6) pp. 1121-1125. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_6F7D4CA50B9B]

Tomosyn-1 is involved in a post-docking event required for pancreatic beta-cell exocytosis.

Cheviet S., Bezzi P., Ivarsson R., Renström E., Viertl D., Kasas S., Catsicas S., Regazzi R., 2006. Journal of Cell Science, 119 (Pt 14) pp. 2912-2920.

[DOI][WoS][Pmid][serval:BIB_779EF5517A45]

2005

Interactions between NEEP21, GRIP1 and GluR2 regulate sorting and recycling of the glutamate receptor subunit GluR2.

Steiner P., Alberi S., Kulangara K., Yersin A., Sarria J.C., Regulier E., Kasas S., Dietler G., Muller D., Catsicas S. et al., 2005/08. EMBO journal, 24 (16) pp. 2873-2884. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_624C627C9F57]

Gradient of rigidity in the lamellipodia of migrating cells revealed by atomic force microscopy.

Laurent V.M., Kasas S., Yersin A., Schäffer T.E., Catsicas S., Dietler G., Verkhovsky A.B., Meister J.J., 2005/07. Biophysical Journal, 89 (1) pp. 667-675. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_DBE6CD88A4F5]

Singlet oxygen mediated oxidation of cellular and subcellular components : ESR and AFM assays

Vileno B., Lekka M., Sienkiewicz A., Marcoux P., Kulik A.J., Kasas S., Catsicas S., Graczyk A., Forro L., 2005. Journal of Physics Condensed Matter, 17 pp. 1471-1482.

[WoS][serval:BIB_FCB9C93A8D67]

Superficial and deep changes of cellular mechanical properties following cytoskeleton disassembly.

Kasas S., Wang X., Hirling H., Marsault R., Huni B., Yersin A., Regazzi R., Grenningloh G., Riederer B., Forrò L. et al., 2005. Cell Motility and the Cytoskeleton, 62 (2) pp. 124-132.

[DOI][WoS][Pmid][serval:BIB_05D22F819FAB]

2004

Mechanical properties of microtubules explored using the finite elements method.

Kasas S., Kis A., Riederer B.M., Forró L., Dietler G., Catsicas S., 2004. Chemphyschem, 5 (2) pp. 252-257.

[DOI][WoS][Pmid][serval:BIB_D90446492C06]

Oscillation modes of microtubules.

Kasas S., Cibert C., Kis A., De Los Rios P., Riederer B.M., Forró L., Dietler G., Catsicas S., 2004. Biology of the Cell, 96 (9) pp. 697-700.

[DOI][WoS][Pmid][serval:BIB_49D4649DC6D2]

Sample preparation method for observing RNA polymerase activity by atomic force microscopy.

Kasas S., 2004. Methods in Molecular Biology, 242 pp. 341-348.

[Pmid][serval:BIB_757C8177CEC0]

2003

Interactions between synaptic vesicle fusion proteins explored by atomic force microscopy

Yersin A., Hirling H., Steiner P., Magnin S., Regazzi R., Huni B., Huguenot P., De los Rios P., Dietler G., Catsicas S. et al., 2003/07. Proceedings of the National Academy of Sciences of the United States of America, 100 (15) pp. 8736-41.

[DOI][WoS][Pmid][serval:BIB_0ACAD6545897]

Characterization of atomic force microscope probes at low temperatures

Radenovic A., Bystrenova E., Libiuolle L., Valle F., Shubeita G.T., Kasas S., Dietler G., 2003. Journal Applied Physiology, 94 pp. 4210-4214. Peer-reviewed.

[WoS][serval:BIB_ACD99428CE6D]

Fast processes imaging device

S. Kasas , G. Dumas , G. Dietler , 2003. American journal of physics, 71 (5) pp. 493-494. Peer-reviewed.

[DOI][WoS][serval:BIB_6D4BEF2E65D3]

Large fluctuations in the disassembly rate of microtubules revealed by atomic force microscopy.

Thomson N.H., Kasas S., Riederer B.M., Catsicas S., Dietler G., Kulik A.J., Forró L., 2003. Ultramicroscopy, 97 (1-4) pp. 239-247.

[DOI][WoS][Pmid][serval:BIB_58679E1AEF31]

Linking functional genomics and screening for new drugs

Yersin A., Kasas S., Hilring H., Steiner P., Catsicas S., Dietler G., De Los Rios P., Regazzi R-, 2003. Laborwelt, 4 pp. 26-27.

[serval:BIB_98BBD44BF594]

Vitrification of cryoelectron microscopy specimens revealed by high-speed photographic imaging.

Kasas S., Dumas G., Dietler G., Catsicas S., Adrian M., 2003. Journal of Microscopy, 211 (Pt 1) pp. 48-53. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_28888]

2002

Nanomechanics of microtubules.

Kis A., Kasas S., Babić B., Kulik A.J., Benoît W., Briggs G.A., Schönenberger C., Catsicas S., Forró L., 2002/12. Physical Review Letters, 89 (24) p. 248101. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_5281BE5CA0B6]

The rupture of knotted strings under tension

Dietler G., Pieranski P., Kasas S., Stasiak A., 2002., AMS Special Session On Physical Knotting and Unknotting Las Vegas, Nevada April 21-22, 2001 pp. 217-222 dans Calvo J.A., Millet K.C., Rawdon E.J. (eds.) Physical knots: knotting, linking, and folding geometric objects in R3, Comtemporary Mathematics, American Mathematical Society.

[serval:BIB_D77C1BC2F6ED]

2001

Examination of line crossings by atomic force microscopy.

Kasas S., Khanmy-Vital A., Dietler G., 2001/07. Forensic Science International, 119 (3) pp. 290-298. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_47C0BF0953F8]

Localization of breakage points in knotted strings

Pieranski P., Kasas S., Dietler G., Dubochet J., Stasiak A., 2001. New Journal of Physics, 3 pp. 10.1-10.13. Peer-reviewed.

[DOI][WoS][serval:BIB_2EC6115E77F5]

2000

Fuzzy logic algorithm to extract specific interaction forces from atomic force microscopy data

Kasas S., Riederer B.M., Catsicas S., Cappella B., Dietler G., 2000. Review of Scientific Instruments, 71 (5) pp. 2082-2086.

[DOI][WoS][serval:BIB_D470D465B36F]

Impact cratering study performed in the laboratory without a fast recording camera.

Kasas S., Dumas G., Dietler G., 2000. American Journal of Physics, 68 pp. 771-773. Peer-reviewed.

[WoS][serval:BIB_4C6415CBA656]

Setup for observing living cells using a commercial atomic force microscope

Kasas S., Wang X., Hirling H., Catsicas S., Haeberli C., Dietler G., Thomson N., 2000. Review of Scientific Instruments, 71 (11) pp. 4338-4340.

[DOI][WoS][serval:BIB_CF2E1BAD5792]

Simulation of an atomic force microscope imaging a moving protein

Kasas S., Thomson N.H., Schaffer T.E, Dietler G., Catsicas S., Hansma P.K., 2000. Probe Microscopy, 2 pp. 37-44.

[serval:BIB_F0EC02F3F4A2]

The Use of Atomic Force Microscopy to Determine the Sequence of Crossed Lines

Khanmy-Vital A., Kasas S., Dietler G., 2000. Proceedings of the Second European Academy of Forensic Science Meeting pp. 12-16.

[serval:BIB_279FE852B1F7]

1999

Direct observation of one-dimensional diffusion and transcription by Escherichia coli RNA polymerase

Guthold M., Zhu X., Rivetti C., Yang G., Thomson N. H., Kasas S., Hansma H. G., Smith B., Hansma P. K., Bustamante C., 1999/10. Biophysical Journal, 77 (4) pp. 2284-2294. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_1E64FD8360EC]

1998

Microtubule stability and the role of SCG10 and microtubule-associated proteins.

Riederer B.M., Pfulg C., DiPaolo G., Kasas S., Grenningloh G., Catsicas S., 1998. pp. S56 dans 12th General Meting of the European Society for Neurochemistry, Journal of Neurochemistry.

[WoS][serval:BIB_163ACA582CA4]

1997

Biological applications of the AFM: From single molecules to organs

Kasas S., Thomson N. H., Smith B. L., Hansma P. K., Miklossy J., Hansma H. G., 1997. International Journal of Imaging Systems and Technology, 8 (2) pp. 151-161.

[DOI][WoS][serval:BIB_E966A48BC45A]

Escherichia coli RNA polymerase activity observed using atomic force microscopy

Kasas S., Thomson N. H., Smith B. L., Hansma H. G., Zhu X., Guthold M., Bustamante C., Kool E. T., Kashlev M., Hansma P. K., 1997/01. Biochemistry, 36 (3) pp. 461-8.

[DOI][WoS][Pmid][serval:BIB_D431C0188DF2]

1996

AFM measurements of the topography and the roughness of ECR plasma treated polypropylene

Collaud-Coen M., Dietler G., Kasas S., Groning P., 1996. Appl. Surf. Sci, 103 pp. 27-34.

[WoS][serval:BIB_4AD2439C8E02]

Detecting protein motion at the solid/liquid interface using atomic force microscopy.

Thomson N.H., Kasas S., Smith B., Schaffer T.E., Hansma H.G., Hansma P.K., 1996. pp. 38-COLL dans 212th Annual Meeting of the American Chemical Society, Abstracts of Papers of the American Chemical Society.

[WoS][serval:BIB_AEBBD75881C1]

Elaboration and characterisation of phospholipid Langmuir-Blodgett Films

Solletti J.M., Botreau M., Sommer F., Brunat W.L., Kasas S., Duc T.M., Celio M.R., 1996. Langmuir, 12 pp. 5379-5386.

[WoS][serval:BIB_87CCB75029FA]

Reversible binding of DNA to mica for AFM imaging

Thomson N.H., Kasas S., Smith B., Hansma H.G., Hansma P.K-, 1996. Langmuir, 12 pp. 5905-8.

[WoS][serval:BIB_945246E1E5DB]

1995

A method for anchoring round shaped cells for atomic force microscope imaging

Kasas S., Ikai A., 1995/05. Biophysical Journal, 68 (5) pp. 1678-1680. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_0ABD19909250]

1994

Further ultrastructural evidence that spirochaetes may play a role in the aetiology of Alzheimer's disease.

Miklossy J., Kasas S., Janzer R.C., Ardizzoni F., Van der Loos H., 1994/06/02. Neuroreport, 5 (10) pp. 1201-1204. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_CECF315AB659]

Atomic force and scanning electron microscopy of Xenopus laevis oocytes

Solletti J.-M., 1994/05. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 12 (3) p. 1535.

[DOI][WoS][serval:BIB_93AA01BDEE83]

Discrete reduction patterns of parvalbumin and calbindin D-28k immunoreactivity in the dorsal lateral geniculate nucleus and the striate cortex of adult macaque monkeys after monocular enucleation

Blumcke I., Weruaga E., Kasas S., Hendrickson A. E., Celio M. R., 1994/02. Vis Neurosci, 11 (1) pp. 1-11.

[WoS][Pmid][serval:BIB_61437A197843]

Observation of the action of penicillin on B. subtilis using the Atomic Force Microscope : technique for the preparation of bacteria

Kasas S., Fellay B., Cargnello R., 1994. Surface and Interface Analysis, 21 pp. 400-401.

[WoS][serval:BIB_4CE612698862]

Representation in virtual reality of scanning probe microscope images

Kasas S., Solletti J.M., Cargnello R., 1994. Scanning, 4 pp. 195-198.

[serval:BIB_2AF599CE3270]

1993

Observation of living cells using the atomic force microscope

Kasas S., Gotzos V., Celio M. R., 1993/02. Biophysical Journal, 64 (2) pp. 539-544. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_FCF17AE2205A]

Deformation and height anomaly of soft surfaces studied with an AFM

Weisenhorn A.L, Khorsandi M., Kasas S., Gotzos V., Butt H.J., 1993. Nanotechnology, 4 pp. 106-113.

[serval:BIB_0B1BC6171C4B]

Quantification de la musculature lisse intrapénienne avec un algorithme de logique floue [Quantification of the intra-penile smooth muscle with a fuzzy logic algorithm].

Kasas S., Wisard M., Stoffel K., 1993. Annales d'urologie, 27 (3) pp. 176-178. Peer-reviewed.

[WoS][Pmid][serval:BIB_701D3E7C8FA4]

1992

The applications of the AFM in histology

Kasas S., Celio M.R., 1992/04. L'Actualité Chimique pp. 163-164.

[serval:BIB_7565EE1525CE]

A scanning force microscopy investigation of dna adsorbed on mica

Zenhausern F., Eng L.M., Adrian M., Kasas S., Weisenhorn A.L., Descouts P., 1992. Helvetica Physica Acta, 65 pp. 820-821.

[WoS][serval:BIB_163B4FC92070]

Atomic force microscope imaging of the plasma membrane Ca2+ ATPase reconstituted in phospholipids

Kasas S., Hofmann R, Celio M. R., Carafoli E., 1992. Scanning, 14 (5) pp. 276-281.

[DOI][WoS][serval:BIB_89D80263FCE5]

La microscopie à force atomique dans la recherche en biologie

Kasas S., 1992. M/S médecine sciences, 8 pp. 140-8.

[WoS][serval:BIB_05116C98F82A]

Reduction patterns of parvalbumin and calbindin-d-28k immunoreactivity in area 17 of monocularly deprived monkeys

Blumcke I., Weruaga E., Kasas S., Hendrickson A., Celio M, 1992. European Journal of Neuroscience p. 260. Peer-reviewed.

[WoS][serval:BIB_551EDCA0848B]

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