Protein NMR Spectroscopy Laboratory
Maria Jesus Macias
Group Leader
ICREA Research Professor
Office Tel : +34 93 40 37189
Lab Tel : +34 93 403 71 88
e-mail : maria.macias
irbbarcelona.org
Background
Inter- and intra-cellular communication is fundamental for the survival of multi-cellular organisms, and defects in this process are often key features of many diseases. At the molecular level, the basis for information transfer is the formation of complex networks of interacting components.
Protein domains are discrete structural and functional units that have been shuffled and reorganized throughout the course of evolution of multicellular organisms. Indeed, many domains function in signalling cascades through the formation of complexes. Given their relatively small size and compact fold, protein domains are highly appropriate for structural studies, in particular in solution by Nuclear Magnetic Resonance (NMR). Undeniably, the last decade has witnessed a dramatic increase in the popularity and success of NMR for structural studies of proteins in solution. Protein expression using 15N and 13C labelling is now technically and economically affordable for most labs and has opened up a new avenue in NMR since it allows the use of triple resonance experiments in a routine manner, thereby increasing the quality of NMR data and thus that of the calculated structures. Furthermore, recent advances in NMR techniques and instrumentation allow the study of large complexes, thereby extending the molecular weight limit of systems that can be studied up to 100 kDa.
Research Interests
- Structure determination of protein domains involved in signal transduction pathways by NMR
- Protein folding and stability using NMR
- Software development to facilitate the assignment of NMR data
Research Lines
We seek to determine the rules that govern specificity and selectivity of protein domains. These domains are normally quite variable in sequence. Indeed, most of the best conserved residues are devoted to defining the elements of secondary structure and the three-dimensional fold. However, small variations at loops or even at elements of the secondary structure are responsible for ligand recognition specificity. To obtain a complete picture of a domain family, efforts must focus not only on a single structure but a small collection of representative sequences. For this purpose, we use sequence alignments and phylogenetic tree reconstructions to select sets of sequences that may fully represent the properties of a given type of domain. We then determine their structures in solution, in both free and bound forms.
The main bottle-neck of the NMR process continues to lie in the resonance assignment step, which is often performed manually. Given that an efficient use of NMR in structural or functional genomics relies on the availability of the automation of data acquisition and analysis, we are currently developing a software package that allows protein resonance assignments with the minimum of human intervention. This software will combine peak-picking and assignment processes, thereby improving the performance of both tasks when compared with other programmes that deal with these processes as two separate entities. We also plan to assign not only protein backbone and carbon side-chains but also aliphatic side-chain protons in an automated manner.
Funding
This group receives financial support from the following sources:
- Ministerio de Educación y Ciencia (Spanish Ministry of Science & Education)
More info
Protein NMR Spectroscopy Laboratory
A Smad action turnover switch operated by WW domain readers of a phosphoserine code
Aragón E, Goerner N, Zaromytidou AI, Xi Q, Escobedo A, Massagué J and Macias MJ
Genes Dev, 25 (12), 1275-1288 (2011)
SSTR1- and SSTR3-selective somatostatin analogues
Ramón R, Martín-Gago P, Verdaguer X, Macias MJ, Martin-Malpartida P, Fernández-Carneado J, Gomez-Caminals M, Ponsati B, López-Ruiz P, Cortés MA, Colás B and Riera A
Chembiochem, 12 (4), 625-632 (2011)
Ubiquitin ligase Nedd4L targets activated Smad2/3 to limit TGF-beta signaling
Gao S, Alarcón C, Sapkota G, Rahman S, Chen PY, Goerner N, Macias MJ, Erdjument-Bromage H, Tempst P and Massagué J
Mol Cell, 36 (3), 457-468 (2009)
Nuclear CDKs drive Smad transcriptional activation and turnover in BMP and TGF-beta pathways
Alarcón C, Zaromytidou AI, Xi Q, Gao S, Yu J, Fujisawa S, Barlas A, Miller AN, Manova-Todorova K, Macias MJ, Sapkota G, Pan D and Massagué J
Cell, 139 (4), 757-769 (2009)
NMR structural studies on human p190-A RhoGAPFF1 revealed that domain phosphorylation by the PDGF-receptor alpha requires its previous unfolding
Bonet R, Ruiz L, Aragón E, Martín-Malpartida P and Macias MJ
J Mol Biol, 389 (2), 230-237 (2009)
Solution structure of the fourth FF domain of yeast Prp40 splicing factor
Bonet R, Ruiz L, Morales B and Macias MJ
Proteins, 77 (4), 1000-1003 (2009)
Solution structure of the yeast URN1 splicing factor FF domain: comparative analysis of charge distributions in FF domain structures-FFs and SURPs, two domains with a similar fold
Bonet R, Ramirez-Espain X and Macias MJ
Proteins, 73 (4), 1001-1009 (2008)
Structural characterization of a new binding motif and a novel binding mode in group 2 WW domains
Ramirez-Espain X, Ruiz L, Martin-Malpartida P, Oschkinat H and Macias MJ
J Mol Biol, 373 (5), 1255-1268 (2007)
Structure of the dimeric exonuclease TREX1 in complex with DNA displays a proline-rich binding site for WW Domains
Brucet M, Querol-Audí J, Serra M, Ramirez-Espain X, Bertlik K, Ruiz L, Lloberas J, Macias MJ, Fita I and Celada A
J Biol Chem, 282 (19), 14547-14557 (2007)
NMR structural studies of the ItchWW3 domain reveal that phosphorylation at T30 inhibits the interaction with PPxY-containing ligands
Morales B, Ramirez-Espain X, Shaw AZ, Martin-Malpartida P, Yraola F, Sánchez-Tilló E, Farrera C, Celada A, Royo M and Macias MJ
Structure, 15 (4), 473-483 (2007)
Myotonia-related mutations in the distal C-terminus of ClC-1 and ClC-0 chloride channels affect the structure of a poly-proline helix
Macías MJ, Teijido O, Zifarelli G, Martin P, Ramirez-Espain X, Zorzano A, Palacín M, Pusch M and Estévez R
Biochem J, 403 (1), 79-87 (2007)
The structure of Prp40 FF1 domain and its interaction with the crn-TPR1 motif of Clf1 gives a new insight into the binding mode of FF domains
Gasch A, Wiesner S, Martin-Malpartida P, Ramirez-Espain X, Ruiz L and Macias MJ
J Biol Chem, 281 (1), 356-364 (2006)
Structure and dynamics of the human pleckstrin DEP domain: distinct molecular features of a novel DEP domain subfamily
Civera C, Simon B, Stier G, Sattler M and Macias MJ
Proteins, 58 (2), 354-366 (2005)
Phosphorylation of either Ser16 or Thr30 does not disrupt the structure of the Itch E3 ubiquitin ligase third WW domain
Shaw AZ, Martin-Malpartida P, Morales B, Yraola F, Royo M and Macias MJ
Proteins, 60 (3), 558-560 (2005)
Protein NMR Spectroscopy Laboratory
© Photos by Gianluca Battista/Massimiliano Minocri
Maria Jesus Macias
Group Leader
ICREA Research Professor
Office Tel : +34 93 40 37189
Lab Tel : +34 93 403 71 88
e-mail : maria.maciasirbbarcelona.org
Postdoctoral Fellows
James Gordon
tel +34 93 40 37188
e-mail: james.gordonirbbarcelona.org
PhD Students
Albert Escobedo
tel +34 93 40 37188
e-mail: albert.escobedoirbbarcelona.org
Constanze Schelhorn
tel +34 93 40 37188
e-mail: constanze.schelhornirbbarcelona.org
Eric Aragón
tel +34 93 40 37190
e-mail: eric.aragonirbbarcelona.org
Research Assistants
Pau Martín
tel +34 93 40 37190
e-mail: pau.martinirbbarcelona.org
Lab Technicians
Lidia Ruiz
tel +34 93 40 37188
e-mail: lidia.ruizirbbarcelona.org
Tiago Lopes
tel +34 93 40 37188
e-mail: tiago.lopesirbbarcelona.org
Visiting Scientists
Carlos Alberto Areche
tel +34 93 40 37188
e-mail: carlosalberto.arecheirbbarcelona.org
Protein NMR Spectroscopy Laboratory
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