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10. Molecular basis of engineered meganuclease targeting of the endogenous human RAG1 locus

Author

Muñoz, Inés G., Prieto, Jesús, Subramanian, Sunita, Coloma, Javier, Redondo, Pilar, Villate, Maider, Merino, Nekane, Marenchino, Marco, DʼAbramo, Marco, Gervasio, Francesco L., Grizot, Sylvestre, Daboussi, Fayza, Smith, Julianne, Chion-Sotinel, Isabelle, Pâques, Frédéric, Duchateau, Philippe, Alibés, Andreu, Stricher, François, Serrano, Luis, Blanco, Francisco J., and Montoya, Guillermo

Published
2011
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12. The Tumor Suppressor ING5 Is a Dimeric, Bivalent Recognition Molecule of the Histone H3K4me3 Mark

Author

Ministerio de Ciencia, Innovación y Universidades (España), European Commission, Ministerio de Economía y Competitividad (España), Ormaza, Georgina, Rodríguez, Jhon A., Ibáñez de Opakua, Alain, Merino, Nekane, Villate, Maider, Gorroño, Irantzu, Rábano, Miriam, Palmero, Ignacio, Vilaseca, Marta, Kypta, Robert M., Vivanco, María d. M., Rojas, Adriana L., Blanco, Francisco J., Ministerio de Ciencia, Innovación y Universidades (España), European Commission, Ministerio de Economía y Competitividad (España), Ormaza, Georgina, Rodríguez, Jhon A., Ibáñez de Opakua, Alain, Merino, Nekane, Villate, Maider, Gorroño, Irantzu, Rábano, Miriam, Palmero, Ignacio, Vilaseca, Marta, Kypta, Robert M., Vivanco, María d. M., Rojas, Adriana L., and Blanco, Francisco J.

Abstract

The INhibitor of Growth (ING) family of tumor suppressors regulates the transcriptional state of chromatin by recruiting remodeling complexes to sites with histone H3 trimethylated at lysine 4 (H3K4me3). This modification is recognized by the plant homeodomain (PHD) present at the C-terminus of the five ING proteins. ING5 facilitates histone H3 acetylation by the HBO1 complex, and also H4 acetylation by the MOZ/MORF complex. We show that ING5 forms homodimers through its N-terminal domain, which folds independently into an elongated coiled-coil structure. The central region of ING5, which contains the nuclear localization sequence, is flexible and disordered, but it binds dsDNA with micromolar affinity. NMR analysis of the full-length protein reveals that the two PHD fingers of the dimer are chemically equivalent and independent of the rest of the molecule, and they bind H3K4me3 in the same way as the isolated PHD. We have observed that ING5 can form heterodimers with the highly homologous ING4, and that two of three primary tumor-associated mutants in the N-terminal domain strongly destabilize the coiled-coil structure. They also affect cell proliferation and cell cycle phase distribution, suggesting a driver role in cancer progression.

Published
2019

13. Molecular mechanism of Gαi activation by non-GPCR proteins with a Gα-Binding and Activating motif

Author

de Opakua, Alain Ibáñez, primary, Parag-Sharma, Kshitij, additional, DiGiacomo, Vincent, additional, Merino, Nekane, additional, Leyme, Anthony, additional, Marivin, Arthur, additional, Villate, Maider, additional, Nguyen, Lien T., additional, de la Cruz-Morcillo, Miguel Angel, additional, Blanco-Canosa, Juan B., additional, Ramachandran, Sekar, additional, Baillie, George S., additional, Cerione, Richard A., additional, Blanco, Francisco J., additional, and Garcia-Marcos, Mikel, additional

Published
2017
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17. Intramolecular trimerization, a novel strategy for making multispecific antibodies with controlled orientation of the antigen binding domains

Author

Alvarez-Cienfuegos, Ana, primary, Nuñez-Prado, Natalia, additional, Compte, Marta, additional, Cuesta, Angel M., additional, Blanco-Toribio, Ana, additional, Harwood, Seandean Lykke, additional, Villate, Maider, additional, Merino, Nekane, additional, Bonet, Jaume, additional, Navarro, Rocio, additional, Muñoz-Briones, Clara, additional, Sørensen, Karen Marie Juul, additional, Mølgaard, Kasper, additional, Oliva, Baldo, additional, Sanz, Laura, additional, Blanco, Francisco J., additional, and Alvarez-Vallina, Luis, additional

Published
2016
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19. Structure of p15PAF-PCNA complex and implications for clamp sliding during DNA replication and repair

Author

De Biasio, Alfredo, de Opakua, Alain Ibáñez, Mortuza, Gulnahar B, Molina, Rafael, Cordeiro, Tiago N, Castillo, Francisco, Villate, Maider, Merino, Nekane, Delgado, Sandra, Gil-Cartón, David, Luque, Irene, Diercks, Tammo, Bernadó, Pau, Montoya, Guillermo, Blanco, Francisco J, De Biasio, Alfredo, de Opakua, Alain Ibáñez, Mortuza, Gulnahar B, Molina, Rafael, Cordeiro, Tiago N, Castillo, Francisco, Villate, Maider, Merino, Nekane, Delgado, Sandra, Gil-Cartón, David, Luque, Irene, Diercks, Tammo, Bernadó, Pau, Montoya, Guillermo, and Blanco, Francisco J

Abstract

The intrinsically disordered protein p15(PAF) regulates DNA replication and repair by binding to the proliferating cell nuclear antigen (PCNA) sliding clamp. We present the structure of the human p15(PAF)-PCNA complex. Crystallography and NMR show the central PCNA-interacting protein motif (PIP-box) of p15(PAF) tightly bound to the front-face of PCNA. In contrast to other PCNA-interacting proteins, p15(PAF) also contacts the inside of, and passes through, the PCNA ring. The disordered p15(PAF) termini emerge at opposite faces of the ring, but remain protected from 20S proteasomal degradation. Both free and PCNA-bound p15(PAF) binds DNA mainly through its histone-like N-terminal tail, while PCNA does not, and a model of the ternary complex with DNA inside the PCNA ring is consistent with electron micrographs. We propose that p15(PAF) acts as a flexible drag that regulates PCNA sliding along the DNA and facilitates the switch from replicative to translesion synthesis polymerase binding.

Published
2015

20. Structural Basis for G α i Activation by a Non‐receptor Protein

Author

Garcia‐Marcos, Mikel, primary, Ibanez de Opakua, Alain, additional, Sharma, Kshitij, additional, Merino, Nekane, additional, Nguyen, Lien, additional, Villate, Maider, additional, Leyme, Anthony, additional, Marivin, Arthur, additional, DiGiacomo, Vincent, additional, and Blanco, Francisco, additional

Published
2015
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21. Structure of p15PAF–PCNA complex and implications for clamp sliding during DNA replication and repair

Author

De Biasio, Alfredo, primary, de Opakua, Alain Ibáñez, additional, Mortuza, Gulnahar B., additional, Molina, Rafael, additional, Cordeiro, Tiago N., additional, Castillo, Francisco, additional, Villate, Maider, additional, Merino, Nekane, additional, Delgado, Sandra, additional, Gil-Cartón, David, additional, Luque, Irene, additional, Diercks, Tammo, additional, Bernadó, Pau, additional, Montoya, Guillermo, additional, and Blanco, Francisco J., additional

Published
2015
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23. Proliferating cell nuclear antigen (PCNA) interactions in solution studied by NMR

Author

Comunidad de Madrid, Ministerio de Economía y Competitividad (España), De Biasio, Alfredo, Campos-Olivas, Ramón, Sánchez, Ricardo, López-Alonso, Jorge P., Pantoja-Uceda, D., Merino, Nekane, Villate, Maider, Martín-García, José M., Castillo, Francisco, Luque, Irene, Blanco, Francisco J., Comunidad de Madrid, Ministerio de Economía y Competitividad (España), De Biasio, Alfredo, Campos-Olivas, Ramón, Sánchez, Ricardo, López-Alonso, Jorge P., Pantoja-Uceda, D., Merino, Nekane, Villate, Maider, Martín-García, José M., Castillo, Francisco, Luque, Irene, and Blanco, Francisco J.

Abstract

PCNA is an essential factor for DNA replication and repair. It forms a ring shaped structure of 86 kDa by the symmetric association of three identical protomers. The ring encircles the DNA and acts as a docking platform for other proteins, most of them containing the PCNA Interaction Protein sequence (PIP-box). We have used NMR to characterize the interactions of PCNA with several other proteins and fragments in solution. The binding of the PIP-box peptide of the cell cycle inhibitor p21 to PCNA is consistent with the crystal structure of the complex. A shorter p21 peptide binds with reduced affinity but retains most of the molecular recognition determinants. However the binding of the corresponding peptide of the tumor suppressor ING1 is extremely weak, indicating that slight deviations from the consensus PIP-box sequence dramatically reduce the affinity for PCNA, in contrast with a proposed less stringent PIP-box sequence requirement. We could not detect any binding between PCNA and the MCL-1 or the CDK2 protein, reported to interact with PCNA in biochemical assays. This suggests that they do not bind directly to PCNA, or they do but very weakly, with additional unidentified factors stabilizing the interactions in the cell. Backbone dynamics measurements show three PCNA regions with high relative flexibility, including the interdomain connector loop (IDCL) and the C-terminus, both of them involved in the interaction with the PIP-box. Our work provides the basis for high resolution studies of direct ligand binding to PCNA in solution.

Published
2012

24. Crystallization and preliminary X-ray diffraction analysis of inositol 1,3,4,5,6-pentakisphosphate kinase from Arabidopsis thaliana

Author

Ministerio de Educación (España), Comunidad de Madrid, Ministerio de Ciencia e Innovación (España), Ministerio de Educación y Ciencia (España), Biotechnology and Biological Sciences Research Council (UK), Baños-Sanz, J.I., Villate, Maider, Sanz-Aparicio, J., Brearley, Charles A., González, Beatriz, Ministerio de Educación (España), Comunidad de Madrid, Ministerio de Ciencia e Innovación (España), Ministerio de Educación y Ciencia (España), Biotechnology and Biological Sciences Research Council (UK), Baños-Sanz, J.I., Villate, Maider, Sanz-Aparicio, J., Brearley, Charles A., and González, Beatriz

Abstract

Inositol 1,3,4,5,6-pentakisphosphate kinase (IP5 2-K) is an enzyme involved in inositol metabolism that synthesizes IP6 (inositol 1,2,3,4,5,6-hexakisphosphate) from inositol 1,3,4,5,6-pentakisphosphate (IP5) and ATP. IP6 is the major phosphorus reserve in plants, while in mammals it is involved in multiple cellular events such as DNA editing and chromatin remodelling. In addition, IP6 is the precursor of other highly phosphorylated inositols which also play highly relevant roles. IP5 2-K is the only enzyme that phosphorylates the 2-OH axial position of the inositide and understanding its molecular mechanism of substrate specificity is of great interest in cell biology. IP5 2-K from Arabidopsis thaliana has been expressed in Escherichia coli as two different fusion proteins and purified. Both protein preparations yielded crystals of different quality, always in the presence of IP6. The best crystals obtained for X-ray crystallographic analysis belonged to space group P2 12121, with unit-cell parameters a = 58.124, b = 113.591, c = 142.478 Å. Several diffraction data sets were collected for the native enzyme and two heavy-atom derivatives using a synchrotron source. © 2010 International Union of Crystallography All rights reserved.

Published
2009

26. Proliferating Cell Nuclear Antigen (PCNA) Interactions in Solution Studied by NMR

Author

De Biasio, Alfredo, primary, Campos-Olivas, Ramón, additional, Sánchez, Ricardo, additional, López-Alonso, Jorge P., additional, Pantoja-Uceda, David, additional, Merino, Nekane, additional, Villate, Maider, additional, Martin-Garcia, Jose M., additional, Castillo, Francisco, additional, Luque, Irene, additional, and Blanco, Francisco J., additional

Published
2012
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29. Molecular basis of engineered meganuclease targeting of the endogenous human RAG1 locus

Author

Muñoz, Inés G., primary, Prieto, Jesús, additional, Subramanian, Sunita, additional, Coloma, Javier, additional, Redondo, Pilar, additional, Villate, Maider, additional, Merino, Nekane, additional, Marenchino, Marco, additional, D'Abramo, Marco, additional, Gervasio, Francesco L., additional, Grizot, Sylvestre, additional, Daboussi, Fayza, additional, Smith, Julianne, additional, Chion-Sotinel, Isabelle, additional, Pâques, Frédéric, additional, Duchateau, Philippe, additional, Alibés, Andreu, additional, Stricher, François, additional, Serrano, Luis, additional, Blanco, Francisco J., additional, and Montoya, Guillermo, additional

Published
2010
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31. Crystallization and preliminary X-ray diffraction analysis of the homing endonuclease I-CvuI from Chlorella vulgaris in complex with its target DNA.

Author

Redondo, Pilar, Merino, Nekane, Villate, Maider, Blanco, Francisco J., Montoya, Guillermo, and Molina, Rafael

Subjects
ENDONUCLEASES, CHLORELLA vulgaris, DNA, CRYSTALLIZATION, X-ray diffraction
Abstract

Homing endonucleases are highly specific DNA-cleaving enzymes that recognize long stretches of DNA. The engineering of these enzymes provides novel instruments for genome modification in a wide range of fields, including gene targeting, by inducing specific double-strand breaks. I-CvuI is a homing endonuclease from the green alga Chlorella vulgaris. This enzyme was purified after overexpression in Escherichia coli. Crystallization experiments of I-CvuI in complex with its DNA target in the presence of Mg2+ yielded crystals suitable for X-ray diffraction analysis. The crystals belonged to the orthorhombic space group P212121, with unit-cell parameters a = 62.83, b = 83.56, c = 94.40 Å. The self-rotation function and the Matthews coefficient suggested the presence of one protein-DNA complex per asymmetric unit. The crystals diffracted to a resolution limit of 1.9 Å using synchrotron radiation. [ABSTRACT FROM AUTHOR]

Published
2014
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32. Inositol 1,3,4,5,6-pentakisphosphate 2-kinase is a distant IPK member with a singular inositide binding site for axial 2-OH recognition.

Author

GonzáIez, Beatriz, lgnacio Baños!Sanz, Jose, Villate, Maider, Alistair Brearley, Charles, and Sanz-Aparicio, Julia

Subjects
INOSITOL phosphates, MOLECULES, MESSENGER RNA, RNA editing, PLANT cells & tissues, PLANT physiology, ADENOSINE triphosphate
Abstract

Inositol phosphates (lnsPs) are signaling molecules with multiple roles in cells. In particular lns(1,2,3,4,5,6)P6 (lnsP6) is involved in mRNA export and editing or chromatin remodeling among other events. lnsP6 accumulates as mixed salts (phytate) in storage tissues of plants and plays a key role in their physiology. Human diets that are exclusively grain-based provide an excess of lnsP5 that, through chelation of metal ions, may have a detrimental effect on human health. lns(1,3,4,5,6)P5 2-kinase (InsP5 2-kinase or lpkl) catalyses the synthesis of lnsP6 from lnsP5 and ATP, and is the only enzyme that transfers a phosphate group to the axial 2-OH of the myoinositide. We present the first structure for an lnsP5 2-kinase in complex with both substrates and products. This enzyme presents a singular structural region for inositide binding that encompasses almost half of the protein. The key residues in substrate binding are identified, with Asp368 being responsible for recognition of the axial 2-OH. This study sheds light on the unique molecular mechanism for the synthesis of the precursor of inositol pyrophosphates. [ABSTRACT FROM AUTHOR]

Published
2010
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33. Crystallization and preliminary X-ray diffraction analysis of inositol 1,3,4,5,6-pentakisphosphate kinase from Arabidopsis thaliana.

Author

Baños-Sanz, Jose Ignacio, Villate, Maider, Sanz-Aparicio, Julia, Brearley, Charles Alistair, and González, Beatriz

Subjects
*INOSITOL, *ARABIDOPSIS proteins, *ARABIDOPSIS thaliana, *PLANT proteins, *CRYSTALLIZATION
Abstract

Inositol 1,3,4,5,6-pentakisphosphate kinase (IP5 2-K) is an enzyme involved in inositol metabolism that synthesizes IP6 (inositol 1,2,3,4,5,6-hexakisphosphate) from inositol 1,3,4,5,6-pentakisphosphate (IP5) and ATP. IP6 is the major phosphorus reserve in plants, while in mammals it is involved in multiple cellular events such as DNA editing and chromatin remodelling. In addition, IP6 is the precursor of other highly phosphorylated inositols which also play highly relevant roles. IP5 2-K is the only enzyme that phosphorylates the 2-OH axial position of the inositide and understanding its molecular mechanism of substrate specificity is of great interest in cell biology. IP5 2-K from Arabidopsis thaliana has been expressed in Escherichia coli as two different fusion proteins and purified. Both protein preparations yielded crystals of different quality, always in the presence of IP6. The best crystals obtained for X-ray crystallographic analysis belonged to space group P212121, with unit-cell parameters a = 58.124, b = 113.591, c = 142.478 Å. Several diffraction data sets were collected for the native enzyme and two heavy-atom derivatives using a synchrotron source. [ABSTRACT FROM AUTHOR]

Published
2010
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34. p15PAFIs an Intrinsically Disordered Protein with Nonrandom Structural Preferences at Sites of Interaction with Other Proteins

Author

De Biasio, Alfredo, Ibáñez de Opakua, Alain, Cordeiro, Tiago N., Villate, Maider, Merino, Nekane, Sibille, Nathalie, Lelli, Moreno, Diercks, Tammo, Bernadó, Pau, and Blanco, Francisco J.

Abstract

We present to our knowledge the first structural characterization of the proliferating-cell-nuclear-antigen-associated factor p15PAF, showing that it is monomeric and intrinsically disordered in solution but has nonrandom conformational preferences at sites of protein-protein interactions. p15PAFis a 12 kDa nuclear protein that acts as a regulator of DNA repair during DNA replication. The p15PAFgene is overexpressed in several types of human cancer. The nearly complete NMR backbone assignment of p15PAFallowed us to measure 86 N-HNresidual dipolar couplings. Our residual dipolar coupling analysis reveals nonrandom conformational preferences in distinct regions, including the proliferating-cell-nuclear-antigen-interacting protein motif (PIP-box) and the KEN-box (recognized by the ubiquitin ligase that targets p15PAFfor degradation). In accordance with these findings, analysis of the 15N R2relaxation rates shows a relatively reduced mobility for the residues in these regions. The agreement between the experimental small angle x-ray scattering curve of p15PAFand that computed from a statistical coil ensemble corrected for the presence of local secondary structural elements further validates our structural model for p15PAF. The coincidence of these transiently structured regions with protein-protein interaction and posttranslational modification sites suggests a possible role for these structures as molecular recognition elements for p15PAF.

Published
2014
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