| Course |
Workshop leader(s) |
Title |
Sessions |
| 01 |
Laue, Tom |
Introduction to AUC: AUC theory and practices |
1, Repeat: 3 |
| 02 |
Laue, Tom |
Introduction to AUC: Optical Systems |
2, Repeat: 4 |
| 03 |
Ross, Sandy and Steele, Harmen |
Fluorescence Spectroscopy: a complement to AUC |
1, Repeat: 6 |
| 04 |
Ebel, Christine, Le Roy, Aline, and Fleming, Karen |
Membrane Proteins |
1, Repeat: 2 |
| 05 |
Brookes, Emre and Rocco, Mattia |
US-SOMO Hydrodynamic Modeling |
1-3, Repeat: 7-9 |
| 06 |
Brookes, Emre and Rocco, Mattia |
US-SOMO Small Angle Scattering |
4-6 |
| 07 |
Brookes, Emre and Perkins, Stephen |
SASSIE2 |
7-10 |
| 08 |
Cölfen, Helmut |
Nanoparticle Analysis by AUC |
2, Repeat: 4 |
| 09 |
Demeler, Borries |
Introduction to UltraScan |
3-6 |
| 10 |
Demeler, Borries |
AUC Problem Solving with UltraScan |
7-10 |
| 11 |
Stafford, Walter and Correia, Jack |
SEDANAL |
3-10 |
| 12 |
Philo, John |
Sednterp |
5 |
| 13 |
Philo, John |
Time-derivative Analysis with DCDT+ |
7, Repeat: 8 |
| 14 |
Philo, John |
Getting Confidence Limits for
the Properties of Each Peak in your c(s) Distribution Using the
Program SVEDBERG | 9, Repeat: 10 |
| 15 |
Nischang, Ivo; Perevyazko, Igor |
Hydrodynamic analysis of synthetic and bio-macromolecules |
5-6, Repeat: 9-10 |
| 16 |
Brautigam, Chad |
GUSSI |
3 |
| 17 |
Brautigam, Chad |
Membrane proteins and conformational changes |
5-6 |
| 18 |
Brautigam, Chad |
Multisignal SV and Analyzing SE Data |
7-8 |
| 19 |
Brautigam, Chad |
Complementary Techniques: ITC and MST |
9-10 |
| 20 |
Johannes Walter |
HDR-Multifit – Analysis of Turbidity
Data and
Determination of Particle Size Distributions
|
5-6 |
