ID30B / MAD

Synopsis

ID30B is a highly automated, undulator-based, tunable beamline dedicated to macromolecular crystallography.

Status: open

Disciplines

Life Sciences

Applications

Life sciences
Biological Science
Biochemistry
Structural biology

Techniques

MAD - multi-wavelength anomalous dispersion
MX - macromolecular crystallography

Energy range

6.0 - 20.0 keV

Beam size

Minimum (H x V) : 20.0 x 20.0 µm²
Maximum (H x V) : 200.0 x 200.0 µm²

Sample environments

ID30B is equipped with a modified microdiffractometer (MD2-S), allowing data collection from micron-sized crystals mounted on conventional cryo-supports or in crystallisation plates (in situ).
A new generation, flexible and high throughput sample changer (FlexHCD) capable of transferring samples from either EMBL/ESRF pucks or Unipucks has also been developed for ID30B in a collaboration between the ESRF and EMBL-Grenoble.
An online Raman spectrometer is also available on request, please contact the iCOS staff to discuss the feasibility of the experiment well in advance.

Detectors

EIGER2 X 9M 450µm Si sensor (Dectris). This detector was purchased by the ESRF.
AXAS-A X-ray fluorescence detector (KETEK)

Technical references

McCarthy, A. A., Barrett, R., Beteva, A., Caserotto, H., Dobias, F., Felisaz, F., Giraud, T., Guijarro, M., Janocha, R., Khadrouche, A., Lentini, M., Leonard, G. A., Lopez Marrero, M., Malbet-Monaco, S., McSweeney, S., Nurizzo, D., Papp, G., Rossi, C., Sinoir, J., Sorez, C., Surr, J., Svensson, O., Zander, U., Cipriani, F., Theveneau, P., Mueller-Dieckmann, C. ID30B - a versatile beamline for macromolecular crystallography experiments at the ESRF. J. Synchrotron Radiat. 25,1249-1260 (2018).

Mueller-Dieckmann, C., Bowler, M. W., Carpentier, P., Flot, D., McCarthy, A. A., Nanao, M. H., Nurizzo, D., Pernot, P., Popov, A., Round, A., Royant, A., de Sanctis, D., von Stetten, D., Leonard, G. A. The status of the macromolecular crystallography beamlines at the European Synchrotron Radiation Facility, Eur. Phys. J. Plus 130, 70 (2015).

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Latest publications

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Exploring dual inhibitors Carbonic Anhydrases and Phosphodiesterase 5 as potential agents for treatment Alzheimer's disease

Costa A., Provensi G., Titi C., Leri M., Bucciantini M., Ferraroni M., Keeton A.B., Moore A.M., Piazza G.A., Abadi A.H., Angeli A., Supuran C.T.,
European Journal of Medicinal Chemistry 303, 118404-1-118404-18 (2026)

Interaction of Staphylococcus aureus di‐iron Repair of Iron Centers protein with the iron–sulfur cluster assembly SUF system

Lourenco F.M., Silva L.S.O., Almeida M.R., Folgosa F., Matias P.M., Carvalho S.M., Lima J.C., Romão C.V., Saraiva L.M.,
Protein Science 35, e70406-1-e70406-14 (2026)

Two key ferredoxins for nitrogen fixation have different specificities and biophysical properties

Addison H., Pfister P., Lago-Maciel A., Erb T.J., Pierik A.J., Rebelein J.G.,
Chemistry - A European Journal 31, e202500844-1-e202500844-15 (2025)

Design of peptide inhibitors using expression tags: Structure of the complex of phosphopantetheine adenylyltransferase with 17-residue expression-tag peptide and citric acid at 2.10 Å resolution

Ahmad N., Kumar V., Goel V.K., Sharma P., Sharma S., Singh T.P.,
Biochemistry 64, 4341-4353 (2025)

Mechanism and kinetics of turnover inhibitors of nicotinamide N-methyl transferase in vitro and in vivo

Akerud T., De Fusco C., Brandt P., Bergström F., Johansson P., Ek M., Börjesson U., Johansson A., Danielsson J., Bauer M., Arnaud B., Castaldo M., Strömstedt M., Rosengren B., Jansen F., Fredlund L.,
Journal of Biological Chemistry 301, 108492-1-108492-18 (2025)

Arzanol inhibits human dihydroorotate dehydrogenase and shows antiviral activity

Alberti M., Tamburello M., Salamone S., Gallinella G., Sanna C., Appendino G.B., Lolli M.L., Massarotti A., Pollastro F., Miggiano R.,
Journal of Natural Products 88, 2586-2595 (2025)