Dataset Open Access

Correlating single-molecule rupture mechanics with cell population adhesion by yeast display

Mariana Sá Santos; Haipei Liu; Valentin Schittny; Rosario Vanella; Michael A. Nash

Data underlying the figures in the publication “Correlating single-molecule rupture mechanics with cell population adhesion by yeast display”, published in Biophysical Reports, 2022, Volume 2, Issue 1, 100035, ISSN 2667-0747.

https://doi.org/10.1016/j.bpr.2021.100035

Table of contents:

1. Fig2_SMFS.xlsx: Contour Length vs probability density values for Figure 2D. Rupture Force and Loading rate values for all SMFS curves analysed for Figure 2E and 2F.

2. Fig3_SDA.xlsx: Shear Stress vs Cell Density values of all replicates and speeds for Figures 3D and 3E.

3. FigS1_SPR curves.xlsx: SPR curves reported in Supplementary Figure 1.

4. FigS2_one step FLN.xlsx: Force vs Extension trace and Contour Length Histogram values for one step FLN unfolding shown in Supplementary Figure 2.

5. FigS3_SMFS_internal control.xlsx: Rupture Force and Loading rate values for N-S25H reported in Supplementary Figure 3.

6. FigS5_SDA_internal control.xlsx: Shear Stress vs Cell Density values of N-WT shown in Supplementary figure 5B.

7. FigS6_SDA_induction timepoints.xlsx: Shear Stress vs Cell Density values and median of expression detected by flow cytometry reported in Supplementary Figure 6.

Files (601.6 kB)
Name Size
Fig2_SMFS.xlsx
md5:19832eb0d2b8f668d2a6b047bb7b8338
106.7 kB Download
Fig3_SDA.xlsx
md5:60f2a50f151621078e9f7902af1d0f65
33.0 kB Download
FigS1_SPR curves.xlsx
md5:49d9a79ab0c5f7c32c16d7bd06da97b7
275.5 kB Download
FigS2_one step FLN.xlsx
md5:4574648b0f3e42acf8ea8446071dfc04
116.0 kB Download
FigS3_SMFS__internal control.xlsx
md5:e3e82c644e868e4c2d002643cc3e65e6
25.8 kB Download
FigS5_SDA_internal control.xlsx
md5:1f1de6ce52a39fa6212674bc158f0b35
17.3 kB Download
FigS6_SDA_induction timepoints.xlsx
md5:f4beb47089d89f3f4f6c9d535ae39530
27.4 kB Download
27
7
views
downloads
All versions This version
Views 2727
Downloads 77
Data volume 601.6 kB601.6 kB
Unique views 2323
Unique downloads 11

Share

Cite as