Tag Archives: SD-qp-CONT-TL

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

Yeast resistance to antifungal drugs is a major public health issue. Fungal adhesion onto the host mucosal surface is still a partially unknown phenomenon that is modulated by several actors among which fibronectin plays an important role. Targeting the yeast adhesion onto the mucosal surface could lead to potentially highly efficient treatments. *

In the article “Yeast Nanometric Scale Oscillations Highlights Fibronectin Induced Changes in C. Albicans” Anne-Céline Kohler, Leonardo Venturelli, Abhilash Kannan, Dominique Sanglard, Giovanni Dietler, Ronnie Willaert and Sandor Kasas, explore the effect of fibronectin on the nanomotion pattern of different Candida albicans strains by atomic force microscopy ( AFM )-based nanomotion detection and correlated the cellular oscillations to the yeast adhesion onto epithelial cells. *

The authors demonstrate the ability of nanomotion detection to monitor in real time and in a label-free manner cellular activity changes induced by interacting ligands. Activity changes induced by increasing glucose concentration were observed for Escherichia coli in a previous study. This technique opens novel avenues to detect cellular activation or inhibition induced by ligand–receptor interactions. *

The AFM cantilever oscillations were collected in real time using an by the authors in-house developed nanomotion detection device with NANOSENSORS™ tipless uniqprobe SD-qp-CONT-TL AFM probes from the NANOSENSORS Special Developments List. *

The SD-qp-CONT-TL AFM cantilevers with a nominal spring constant of 0.1 N/m and an average resonant peak in liquids of 8 kHz, were coated with 2 mg/mL of concanavalin A (Con A) for 30 min at room temperature. After removing the excess of Con A, the yeast cells were placed in contact with the AFM cantilever for 1 h at room temperature to allow them to attach to its surface. Poorly attached C. albicans cells were removed by washing gently with YPD medium. Finally, the C. albicans covered AFM cantilever was inserted into the analysis chamber containing 2 mL of filtered (0.2 µm syringe filter, YPD medium. The measurements were performed at room temperature in YPD medium and in YPD medium containing 25 µg/mL of fibronectin. Fibronectin was directly added inside the chip reservoir. For the experiments performed with antifungals, caspofungin was diluted in the YPD present in the analysis chamber to reach a final concentration of 100 µg/mL. *

Supplementary Figure S2 from “Yeast Nanometric Scale Oscillations Highlights Fibronectin Induced Changes in C. Albicans” by Anne-Céline Kohler et al.:
Density of yeast cells on cantilever at the start of the experiment (A) and at the end of the experiment (B). The size of the AFM cantilever is 40 by 130 μm. NANOSENSORS tipless uniqprobe SD-qp-CONT-TL AFM probes from the NANOSENSORS Special Developments List were used in the in-house developed nanomotion detection device.
Supplementary Figure S2 from “Yeast Nanometric Scale Oscillations Highlights Fibronectin Induced Changes in C. Albicans” by Anne-Céline Kohler et al.:
Density of yeast cells on cantilever at the start of the experiment (A) and at the end of the experiment (B). The size of the AFM cantilever is 40 by 130 μm.

*Anne-Céline Kohler, Leonardo Venturelli, Abhilash Kannan, Dominique Sanglard, Giovanni Dietler, Ronnie Willaert and Sandor Kasas
Yeast Nanometric Scale Oscillations Highlights Fibronectin Induced Changes in C. Albicans
Fermentation 2020, 6(1), 28
DOI: https://doi.org/10.3390/fermentation6010028

Please follow this external link to read the full article: https://www.mdpi.com/2311-5637/6/1/28/htm#B5-fermentation-06-00028

Open Access The article “Yeast Nanometric Scale Oscillations Highlights Fibronectin Induced Changes in C. Albicans” by Anne-Céline Kohler, Leonardo Venturelli, Abhilash Kannan, Dominique Sanglard, Giovanni Dietler, Ronnie Willaert and Sandor Kasas is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.

Soft, drift-reduced AFM cantilevers for Biology and Life Sciences – Uniqprobe Screencast passes the 1000 views mark

The screencast on the soft, drift-reduced NANOSENSORS™ uniqprobe cantilevers for biology and life science applications held by Dr. Laure Aeschimann has just passed the 1000 views mark. Congratulations Laure!

Since the first publication of this screencast that presents the uniqprobe types qp-BioAC, qp-BioT, qp-SCONT and qp-CONT , three further types of uniqprobe AFM probes have been introduced:

qp-BioAC-CI – a version of uniqprobe™ BioAC with Rounded Tips for Cell Imaging

qp-fast – three different uniqprobe™ cantilevers on one support chip for Soft- , Standard- , Fast Tapping/Dynamic AFM Imaging

and qp-HBC – the uniqprobe™ – HeartBeatCantilever that can also be used for ScanAsyst** and Peak Force Tapping** in Air.

To find out more please have a look at the NANOSENSORS™ uniqprobe brochure or the individual product pages on the NANOSENSORS webpage.

Additionally we have also put tipless versions of the qp-SCONT, qp-CONT and the qp-BioT ( SD-qp-BioT-TL, SD-qp-CONT-TL, SD-qp-SCONT-TL) and uniqprobe tipless cantilever arrays ( SD-qp-TL8a and SD-qp-TL8b ) on the NANOSENSORS special developments list.

Feel free to browse or let us know if you have any questions via info(at)nanosensors.com.

Product Screencast on the NANOSENSORS™ uniqprobe AFM Probes series with unsurpassed small variation in spring constant and resonance frequency by product developer Dr. Laure Aeschimann

A Japaneseversion of the screencast is also available :

バイオテクノロジー/ライフサイエンス向け NANOSENSORS ユニーク·プローブ Uniqprobe

A Chinese version of the Uniqprobe screencast is available on three different channels:

NANOSENSORS公司的吴烨娴博士在本视频中介绍了Uniqprobe原子力显微镜探针。Uniqprobe 探针 的悬臂梁厚度均一,并且有局部的金反射涂层。这两个特点使得这个探针在一些对弹性系数有精确要求的应用中, 表现出卓越的机械性能一致性 。该探针特别适用于分子生物学,生物物理学和定量纳米机械的研究.

The Chinese version is also available on Youku: http://v.youku.com/v_show/id_XNzA4MTgxNTI4.html
or weibo http://weibo.com/u/5077581192?is_all=1

** ScanAsyst® and PeakForce Tapping™ are trademarks of Bruker Corp.