SWING

By providing information on the structure of matter at scales varying between nanometer and micrometer, the beamline SWING will help answering the numerous questions related to soft condensed matter, conformation of macro-molecules in solution and composite materials in material sciences.

Our experimental set up allows small-angle X-ray scattering (SAXS) and wide-angle X-ray scattering measurements (WAXS) to be performed simultaneously in the 5-16 keV energy range, as well as grazing incidence small angle scattering (GISAXS). Anomalous scattering experiments will be facilitated. Emphasis will be put on the variety of samples that can be studied, solutions, gels, amorphous solids, crystallised solids and the corresponding diversity of sample environments.

Team

Aucun membre à afficher.

Meneau Florian

Brazilian Synchrotron Light Laboratory (LNLS), Campinas

Roblin Pierre

Laboratory of Chemical Engineering , Toulouse

Galindo-Gonzales Cecilia

Koutsioupas Alexandros

Evrard Guillaume

Beamline newsAll SWING's news

Publié le 03.13.2018

How to shuffle a nano-deck of cards

A very promising strategy for obtaining new materials consists in dispersing nanoparticles with interesting properties within a medium that is easy to shape and manipulate; in such nanocomposites, the main difficulty is controlling the aggregation state of the particles, as well as their position and orientation. Researchers from the Laboratoire de Physique des Solides (Orsay...

Publié le 02.16.2018

Whooping cough: a "disordered" bait catches calmodulin and triggers the CyaA toxin

The CyaA protein is a toxin produced by the bacteria that causes whooping cough. During intoxication of the target cells, CyaA binds to calmodulin, which induces the folding of a destructured region of the toxin and its activation. This mechanism is essential for activating the toxin when it reaches its target cells - which contain calmodulin - while preventing its toxicity in...

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VideosAll SWING's videos

Publié le 07.04.2018

The nanoworld at SOLEIL

Video in French - The nanosciences and nanotechnologies are among the numerous scientific fields studied at the ? SOLEIL synchrotron. The beamlines concerned by the study of nanosciences and nanotechnologies include SAMBA, SWING, TEMPO and CASSIOPEE. Each of these beamlines relies on different but complementary analytical techniques…

Publié le 10.09.2017

Hair in the spotlight

Enhance the understanding of the chemical composition and the structure of tissues such as hair, skin, nails, better characterize the products themselves (shampooes, creams, their long-term stability) or as well as understand the interaction of these products with the tissues and their efficiency or safety : numerous applications are currently possible with the synchrotron...

Technical data

Energy range

Between ~5 and 16 keV

Energy Resolution

~2 eV

Source

In-vacuum U20 undulator.
Source Size (sigma, μm): 388 (H) x 8.1 (V)
Source Divergence (sigma, μrad): 14.5 (H) x 4.6 (V)

Optics

Diaphragm at 11.7 m (1x0.5 mm²)
Fixed exit DCM Si₁₁₁at 20 m
Fixed incidence focusing KB at 22.5 m
Sample position : 30 - 32 m
Detector / Sample Distance : 0.5 – 6.5 m

Sample Environments

see Set-up environments

Beam size at sample

Between 20x20µm² (zone plate) to 450x20 μm² FWHM in the experimental hutch

Flux on sample

1.10¹³ph/s @7keV, 1.10¹² ph/s @16keV (with 500 mA ring)

Detectors

SAXS:

Eiger 4M (Dectris)
PCCD170170 (AVIEX), Gain > 3ADU/ph, Noise≈2ADU

WAXS:

Hybrid Pixel detector (Detector Group pool)

Detection chamber

Under primary vacuum, SAXS detector positions :
- 0.20 / + 0. 20 m (horiz), -0.20 / +0.20 (vert), 0.5 m / +6 m (along X-rays).

qrange

Dedicated sample environments have been developed to provide scientific communities with optimized experimental conditions. For soft-condensed matter, numerous devices are available (home-made capillaries holders, Linkam THMS600, Anton Paar rheometer with custom-made Couette cells …). For structural biology, a unique SEC-SAXS HPLC system is routinely used for online purification connected to a quartz capillary placed under vacuum cell. Here are presented the most used devices for both soft-condensed matter and structural biology.

HPLC: SEC-SAXS

Sample volume: 10 to 100µL
Sample Concentration: 1 to 30mg/mL
Two independent circuits of purification (can connect two columns with 2 different buffers).
Combination of the SEC-SAXS system with MALS and RI is now available at user request.
Automated workflows for injections and data analysis
IspyB database

AutoSampler for BioSaxs

Sample volume: 10 to 50µL
Sample Concentration: 0.2 to 10mg/mL
Sample every 2.5 min (pipetting, injection, measurement, cleaning and drying).
96 vials capacity
No dead time between batch and SEC-SAXS experiments
Thermalized vials holder (5-10 to 60 °C)
Injection rates of : 10 to 100 µl.min^-1
Injection possible up to 30 % glycerol in water / 250 g.l-1 BSA
Automated workflows for injections and data analysis
IspyB database.

High Pressure

description will arrive soon

Static Capillaries Holder

Horizontal and Vertical positions
20 capillaries of Ø 1,5 mm (Ø 1 mm possible)
5 mm high scanning windows behind the capillaries
5 mm gap between capillaries
Thermalization between 5-60 °C
Automated workflows for injections and data analysis

Circulation Capillaries Holder

3 capillaries of Ø 1,5 mm
Capillaries are vertically spaced of 15 mm
20 mm horizontal scanning length
Thermalization between 5-60 °C

Circulation through the capillaries can be done using various setups :

Peristaltic pump
Swing injection robot
Syringe driver
Manual injection

Gel Holder

description will arrive soon

Mixing and pipetting cell

5-10 ml mixing cell
sample pipetting through a Ø 1,5 mm quartz capillary
Possible Injection into the mixing cell through an injecting hole synchronized with detection
Thermalization possible between 5-10 °C to 60 °C
Automated workflows for injections and data analysis

The sample is drawn in the capillary only and at the required height. After X-ray exposition, it’s reinjected into the mixing cell.

Linkam

Linkam THMS600
Temperature range: -196 to 600 °C
Up to 150°C/min heating and 100°C/min Cooling
Capillaries have to be Ø 1,5 mm maximum and cut in order to reach 20 mm length otherwise it won’t fit in the linkam cell
Dedicated linkam software

Traction Cell

Max. Working load: 111 N
Max. working length : 6 mm
Resolution 0.05 N
Step : 0,5 µm

Rheometer

Rheometer Anton Paar MCR 501

X-ray transparent Couette cells
Couette cells are of 10 mm radius, a height of 17 mm and gaps values (Re – Ri) of 0.5 or 0.2 mm
Sample Volume is of about 1 ml

Stop-Flow (+MALS)

description will arrive soon

Micro-fluidic

description will arrive soon

BioSaxs

Before Coming

What you have to bring

We use Agilent standards vials and inserts for the HPLC device and the Auto Sampler. We lend you the vials and the caps but you have to buy you own inserts (Agilent reference: 5181-1270). In any case, we can give some used inserts that you can wash and dry.

The minimum quantity of buffer is 40ml for one injection (10mL of system purge + 20 mL of column equilibration + 10mL of elution). We will recommande you to bring much more (100mL to 500mL) to obtain a better equilibration of the column and to induce less stress in case of trouble.

To make your backups directly on the line, a Windows compatible hard disk is required. However, you can still download all your data a posteriori via the sunset[Experiment Data][Soleil Data Retrivial].

What we can lend you

The biology laboratory (link) provides support to users for the preparation of their experiments. For any question, please ask the laboratory staff.

We recommend you to bring your own analytical columns for SEC-SAXS. We have also a wide selection of column for users. All these columns have been calibrated:

BioSec3-100 Column Volume:5mL Mass Range: 0.1 to 100kDa pH Range: 2-8.5
AdvBioSec 2.7-300 Column Volume:5mL Mass Range: 5 to 1250kDa pH Range: 2-8.5
BioSec3-300 Column Volume:5mL Mass Range: 5 to 1250kDa pH Range: 2-8.5
BioSec 5-1000 Column Volume:5mL Mass Range: 50 to 7500kDa pH Range: 2-8.5
BioSec 5-2000 Column Volume:5mL Mass Range: >10000kDa pH Range: 2-8.5

During your session

The session includes beamline set up installation. It’s recommended to discuss with your local contact before coming to the beamline to save time during installation.

Running experiments

Our GUI (passerelle) allows automatic data collections of multiples simple in a row. For direct data monitoring and security check, an others GUI (Cook) is installed.

The local contact will show you how to use these GUI.

Data Processing and analysis: Foxtrot & AutoBioSAXS

All the images produced on the Swing beamline can be process by homemade software (Foxtrot) in collaboration with Xenocs. You can ask for it by email to Xenocs by mail.

You can find here (new link) a tutorial for processing SEC-SAXS experiments.

For SEC-SAXS and BioSaxs AutoSampler, an automatic workflow for data analysis is available. This workflow takes raw images as input files and sends all results curves into IspyB database. Furthermore all intermediates files are available for users and could be reloading in our Foxtrot application.

Living area

We have a living area where you can use coffee machine, Sofa, fridge for food and beverages, micro wave and table. Wifi is available using your sunset login and password or using Eduroam network.

This area is sample free and please clean it after your session.

After your session

Please don’t forget to fill the end of report in the sunset webpage.

All your datas are available using the Soleil data Retrieval via the sunset web page.

ChemSaxs

During your session

The session includes beamline set up installation. It’s recommended to discuss with your local contact before coming to the beamline to save time during installation.

Running experiments

Our GUI (passerelle) allows an “on demand” complex data collections strategies. For most of the sample environment, a workflow is already written. For direct data monitoring and security check, an others GUI (Cook) is installed. The local contact will show you how to use these GUI.

Data Processing and analysis: Foxtrot & AutoChemSAXS

All the images produced on the Swing beamline can be process by homemade software in collaboration with Xenocs. You can ask for it by email to Xenocs (link).

Living area

We have a living area where you have coffee machine, Sofa, fridge for food and beverages, micro wave and table. Wifi is available using your sunset login and password or using Eduroam network.

This area is sample free and please cleans it after your session.

After your session

Please don’t forget to fill the end of report in the sunset webpage.

All your datas are available using the Soleil data Retrieval via the sunset web page.

work in progress

Downloads

courscampinas_jperezmay2016c.pdf (8.07 MB - pdf) (8.07 MB)

Media Folder:

SWING

- Javier Pérez :

pre_dadimodo_scripts.tar_.txt (20 KB - txt) (20 KB)

Media Folder:

SWING

Foxtrot

Foxtrot Software (Data reduction and treatment)

Ask by mail

Foxtrot tutorial :
Foxtrot : F.A.Q.

Denfert

Denfert Software (Ab initio shape determination, including hydration layer)
version 2.0 (June 2015)

Denfert : F.A.Q.
A zip archive containing executables for Mac, Linux and Windows together with a test example may be downloaded by clicking here.

... a program for the ab initio “dummy-atom” structural modeling of Biological Macromolecules including the contribution of their inherent hydration layer.

Developed by Alexandros Koutsioubas and Javier Pérez

If you use DENFERT, please cite :

A. Koutsioubas & J. Pérez, Journal of Applied Crystallography (2013) 46, 1884 and A. Koutsioubas, S. Jaksch & J.Pérez, J. (2016). J. Appl. Cryst. 49 (doi:10.1107/S1600576716003393)

Brief Description

DENFERT is implementing a simulated annealing algorithm similar to DAMMIN program by D. Svergun (Biophys. J. 76, 2879-2886) for the restoration of low-resolution structural info of bio-molecules from SAXS and SANS data. The major advantage of DENFERT is that the hydration layer around bio-molecules is taken into account by introducing a second type of beads (hydration beads) in the model.

In the top figure, we see an example of the shape restoration of Lysozyme from SAXS data using DENFERT. A cartoon representation of the crystallographic structure is also presented for comparison. The bottom figure depicts additionally the hydration layer around the reconstructed protein shape

Memprot

Memprot Software (Coarse grain modeling of detergent corona around a membrane protein)

Website under construction... please be patient

Team

Our last tweets

Technical data

HPLC: SEC-SAXS

AutoSampler for BioSaxs

High Pressure

Static Capillaries Holder

Circulation Capillaries Holder

Gel Holder

Mixing and pipetting cell

Linkam

Traction Cell

Rheometer

Stop-Flow (+MALS)

Micro-fluidic