Torres-Padilla Lab Publications
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Iturbide Martinez De Albeniz, A. ; Ruiz Tejada Segura, M.L. ; Noll, C. ; Schorpp, K.K. ; Rothenaigner, I. ; Ruiz-Morales, E.R. ; Lubatti, G. ; Agami, A. ; Hadian, K. ; Scialdone, A. ; Torres-Padilla, M.E.
Addendum: Retinoic acid signaling is critical during the totipotency window in early mammalian development.Fukagawa, T. ; Torres-Padilla, M.E.
Exploring the cell nucleus: From chromosome structure to single-cell omics.Hains, A.E. ; Marques, J.G. ; Chetal, K. ; Nakatani, T. ; Ettinger, A. ; Biagi, C.A.O.d. ; Gonzalez‐Sandoval, A. ; Pillai, R. ; Gatto, A. ; Torres-Padilla, M.E. ; Sadreyev, R.I. ; Filbin, M.G. ; Rechem, C.V.
Abstract SY23-01: Diffuse midline gliomas: From cell cycle to therapeutic opportunities.Burton, A. ; Torres-Padilla, M.E.
Epigenome dynamics in early mammalian embryogenesis.Nakatani, T. ; Schauer, T. ; Pal, M. ; Ettinger, A. ; Altamirano-Pacheco, L. ; Zorn, J. ; Gilbert, D.M. ; Torres-Padilla, M.E.
RIF1 controls replication timing in early mouse embryos independently of lamina-associated nuclear organization.Pal, M. ; Schauer, T. ; Burton, A. ; Nakatani, T. ; Pecori, F. ; Hernández-Giménez, A. ; Nadelson, I. ; Marti-Renom, M.A. ; Torres-Padilla, M.E.
The establishment of nuclear organization in mouse embryos is orchestrated by multiple epigenetic pathways.Götz, M. ; Torres-Padilla, M.E.
Stem cells as role models for reprogramming and repair.Oomen, M.E. ; Rodriguez-Terrones, D. ; Kurome, M. ; Zakhartchenko, V. ; Mottes, L. ; Simmet, K. ; Noll, C. ; Nakatani, T. ; Mourra-Díaz, D.M. ; Aksoy, I. ; Savatier, P. ; Goke, J. ; Wolf, E. ; Kaessmann, H. ; Torres-Padilla, M.E.
An atlas of transcription initiation reveals regulatory principles of gene and transposable element expression in early mammalian development.Hermant, C. ; Mourra-Díaz, D.M. ; Oomen, M.E. ; Altamirano-Pacheco, L. ; Pal, M. ; Nakatani, T. ; Torres-Padilla, M.E.
The transcription factor SRF regulates MERVL retrotransposons and gene expression during zygotic genome activation.Hains, A.E. ; Chetal, K. ; Nakatani, T. ; Marques, J.G. ; Ettinger, A. ; Junior, C.A.O.B. ; Gonzalez-Sandoval, A. ; Pillai, R. ; Filbin, M.G. ; Torres-Padilla, M.E. ; Sadreyev, R.I. ; Van Rechem, C.
Multi-omics approaches reveal that diffuse midline gliomas present altered DNA replication and are susceptible to replication stress therapy.Arner, A. ; Ettinger, A. ; Blaser, B.W. ; Schmid, B. ; Jeremias, I. ; Rostam, N. ; Binder-Blaser, V.
In vivo monitoring of leukemia-niche interactions in a zebrafish xenograft model.Ebisuya, M. ; Rayon, T. ; Diaz-Cuadros, M. ; Chalut, K.J. ; Wu, G. ; Dodd, A.N. ; Torres-Padilla, M.E. ; Levine, M.E. ; Gladyshev, V.N.
Understanding how cells and organisms keep time during development.Liu, B. ; He, Y. ; Wu, X. ; Lin, Z. ; Ma, J. ; Qiu, Y. ; Xiang, Y. ; Kong, F. ; Lai, F. ; Pal, M. ; Wang, P. ; Ming, J. ; Zhang, B. ; Wang, Q. ; Wu, J. ; Xia, W. ; Shen, W. ; Na, J. ; Torres-Padilla, M.E. ; Li, J. ; Xie, W.
Mapping putative enhancers in mouse oocytes and early embryos reveals TCF3/12 as key folliculogenesis regulators.Chen, Y.-L. ; Jones, A. ; Crawford, A. ; Sattler, M. ; Ettinger, A. ; Torres-Padilla, M.E.
Determinants of minor satellite RNA function in chromosome segregation in mouse embryonic stem cells.Oomen, M.E. ; Torres-Padilla, M.E.
Jump-starting life: balancing transposable element co-option and genome integrity in the developing mammalian embryo.Nakatani, T. ; Schauer, T. ; Altamirano-Pacheco, L. ; Klein, K.N. ; Ettinger, A. ; Pal, M. ; Gilbert, D.M. ; Torres-Padilla, M.E.
Emergence of replication timing during early mammalian development.Pal, M. ; Altamirano-Pacheco, L. ; Schauer, T. ; Torres-Padilla, M.E.
Reorganization of lamina-associated domains in early mouse embryos is regulated by RNA polymerase II activity.Lalonde, M. ; Ummethum, H. ; Trauner, M. ; Ettinger, A. ; Hamperl, S.
An automated image analysis pipeline to quantify the coordination and overlap of transcription and replication activity in mammalian genomes.Cossec, J.C. ; Traboulsi, T. ; Sart, S. ; Loe-Mie, Y. ; Guthmann, M. ; Hendriks, I.A. ; Theurillat, I. ; Nielsen, M.L. ; Torres-Padilla, M.E. ; Baroud, C.N. ; Dejean, A.
Transient suppression of SUMOylation in embryonic stem cells generates embryo-like structures.Bell, O. ; Burton, A. ; Dean, C. ; Gasser, S.M. ; Torres-Padilla, M.E.
Heterochromatin definition and function.Pecori, F. ; Torres-Padilla, M.E.
Dynamics of nuclear architecture during early embryonic development and lessons from liveimaging.Guthmann, M. ; Qian, C. ; Gialdini, I. ; Nakatani, T. ; Ettinger, A. ; Schauer, T. ; Kukhtevich, I. ; Schneider, R. ; Lamb, D.C. ; Burton, A. ; Torres-Padilla, M.E.
A change in biophysical properties accompanies heterochromatin formation in mouse embryos.Lubatti, G. ; Stock, M. ; Iturbide Martinez De Albeniz, A. ; Ruiz Tejada Segura, M.L. ; Riepl, M. ; Tyser, R.C.V. ; Danese, A. ; Colomé-Tatché, M. ; Theis, F.J. ; Srinivas, S. ; Torres-Padilla, M.E. ; Scialdone, A.
CIARA: A cluster-independent algorithm for identifying markers of rare cell types from single-cell sequencing data.Canat, A. ; Atilla, D. ; Torres-Padilla, M.E.
Hyperosmotic stress induces 2-cell-like cells through ROS and ATR signaling.Nakatani, T. ; Torres-Padilla, M.E.
Regulation of mammalian totipotency: A molecular perspective from in vivo and in vitro studies.Abe, K. ; Schauer, T. ; Torres-Padilla, M.E.
Distinct patterns of RNA polymerase II and transcriptional elongation characterize mammalian genome activation.Iturbide Martinez De Albeniz, A. ; Ruiz Tejada Segura, M.L. ; Noll, C. ; Schorpp, K.K. ; Rothenaigner, I. ; Lubatti, G. ; Agami, A. ; Hadian, K. ; Scialdone, A. ; Torres-Padilla, M.E.
Author Correction: Retinoic acid signaling is critical during the totipotency window in early mammalian development.Nakatani, T. ; Lin, J. ; Ji, F. ; Ettinger, A. ; Pontabry, J. ; Tokoro, M. ; Altamirano-Pacheco, L. ; Fiorentino, J. ; Mahammadov, E. ; Hatano, Y. ; Van Rechem, C. ; Chakraborty, D. ; Ruiz-Morales, E.R. ; Scialdone, A. ; Yamagata, K. ; Whetstine, J.R. ; Sadreyev, R.I. ; Torres-Padilla, M.E.
DNA replication fork speed underlies cell fate changes and promotes reprogramming.Canat, A. ; Torres-Padilla, M.E.
Retrotransposing a promoter for development.Burton, A. ; Torres-Padilla, M.E.
Deconfining heterochromatin for expression.Antonio Urrutia, G. ; Ramachandran, H. ; Cauchy, P. ; Boo, K. ; Ramamoorthy, S. ; Boller, S. ; Dogan, E. ; Clapes, T. ; Trompouki, E. ; Torres-Padilla, M.E. ; Palvimo, J.J. ; Pichler, A. ; Grosschedl, R.
ZFP451-mediated SUMOylation of SATB2 drives embryonic stem cell differentiation.Iturbide Martinez De Albeniz, A. ; Ruiz Tejada Segura, M.L. ; Noll, C. ; Schorpp, K.K. ; Rothenaigner, I. ; Ruiz-Morales, E.R. ; Lubatti, G. ; Agami, A. ; Hadian, K. ; Scialdone, A. ; Torres-Padilla, M.E.
Retinoic acid signaling is critical during the totipotency window in early mammalian development.Pinheiro, I. ; Torres-Padilla, M.E. ; Almouzni, G.
Epigenomics in the single cell era, an important read out for genome function and cell identity.Buschle, A. ; Mrozek-Gorska, P. ; Cernilogar, F.M. ; Ettinger, A. ; Pich, D. ; Krebs, S. ; Mocanu, B. ; Blum, H. ; Schotta, G. ; Straub, T. ; Hammerschmidt, W.
Epstein-Barr virus inactivates the transcriptome and disrupts the chromatin architecture of its host cell in the first phase of lytic reactivation.Rajewsky, N. ; Almouzni, G. ; Gorski, S.A. ; Aerts, S. ; Amit, I. ; Bertero, M.G. ; Bock, C. ; Bredenoord, A.L. ; Cavalli, G. ; Chiocca, S. ; Clevers, H. ; de Strooper, B. ; Eggert, A. ; Ellenberg, J. ; Fernández, X.M. ; Figlerowicz, M. ; Gasser, S.M. ; Hubner, N. ; Kjems, J. ; Knoblich, J.A. ; Krabbe, G. ; Lichter, P. ; Linnarsson, S. ; Marine, J.C. ; Marioni, J.C. ; Marti-Renom, M.A. ; Netea, M.G. ; Nickel, D. ; Nollmann, M. ; Novak, H.R. ; Parkinson, H. ; Piccolo, S. ; Pinheiro, I. ; Pombo, A. ; Popp, C. ; Reik, W. ; Roman-Roman, S. ; Rosenstiel, P. ; Schultze, J.L. ; Stegle, O. ; Tanay, A. ; Testa, G. ; Thanos, D. ; Theis, F.J. ; Torres-Padilla, M.E. ; Valencia, A. ; Vallot, C. ; van Oudenaarden, A. ; Vidal, M. ; Voet, T. ; LifeTime Community (Schiller, H. B. ; Ziegler, A.-G.)
Publisher Correction: LifeTime and improving European healthcare through cell-based interceptive medicine (Nature, (2020), 587, 7834, (377-386), 10.1038/s41586-020-2715-9).Pal, M. ; Kind, J. ; Torres-Padilla, M.E.
DamID to map genome-protein interactions in preimplantation mouse embryos.Hermant, C. ; Torres-Padilla, M.E.
TFs for TEs: The transcription factor repertoire of mammalian transposable elements.Ancelin, K. ; Miyanari, Y. ; Leroy, O. ; Torres-Padilla, M.E. ; Heard, E.
Mapping of chromosome territories by 3D-chromosome painting during early mouse development.Torres-Padilla, M.E. ; Bredenoord, A.L. ; Jongsma, K.R. ; Lunkes, A. ; Marelli, L. ; Pinheiro, I. ; Testa, G.
Thinking "ethical" when designing an international, cross-disciplinary biomedical research consortium.Fischbeck, A. ; Ruehland, S. ; Ettinger, A. ; Paetzold, K. ; Masouris, I. ; Nößner, E. ; Mendler, A.N.
Tumor lactic acidosis: Protecting tumor by inhibiting cytotoxic activity through motility arrest and bioenergetic silencing.Fiorentino, J. ; Torres-Padilla, M.E. ; Scialdone, A.
Measuring and modeling single-cell heterogeneity and fate decision in mouse embryos.Monteagudo-Sánchez, A. ; Hernandez Mora, J.R. ; Simon, C. ; Burton, A. ; Tenorio, J. ; Lapunzina, P. ; Clark, S. ; Esteller, M. ; Kelsey, G. ; López-Siguero, J.P. ; de Nanclares, G.P. ; Torres-Padilla, M.E. ; Monk, D.
The role of ZFP57 and additional KRAB-zinc finger proteins in the maintenance of human imprinted methylation and multi-locus imprinting disturbances.Rajewsky, N. ; Almouzni, G. ; Gorski, S.A. ; Aerts, S. ; Amit, I. ; Bertero, M.G. ; Bock, C. ; Bredenoord, A.L. ; Cavalli, G. ; Chiocca, S. ; Clevers, H. ; de Strooper, B. ; Eggert, A. ; Ellenberg, J. ; Fernández, X.M. ; Figlerowicz, M. ; Gasser, S.M. ; Hubner, N. ; Kjems, J. ; Knoblich, J.A. ; Krabbe, G. ; Lichter, P. ; Linnarsson, S. ; Marine, J.C. ; Marioni, J. ; Marti-Renom, M.A. ; Netea, M.G. ; Nickel, D. ; Nollmann, M. ; Novak, H.R. ; Parkinson, H. ; Piccolo, S. ; Pinheiro, I. ; Pombo, A. ; Popp, C. ; Reik, W. ; Roman-Roman, S. ; Rosenstiel, P. ; Schultze, J.L. ; Stegle, O. ; Tanay, A. ; Testa, G. ; Thanos, D. ; Theis, F.J. ; Torres-Padilla, M.E. ; Valencia, A. ; Vallot, C. ; van Oudenaarden, A. ; Vidal, M. ; Voet, T. ; LifeTime Community (Schiller, H. B.) ; LifeTime Community (Ziegler, A.-G.)
LifeTime and improving European healthcare through cell-based interceptive medicine.Genet, M. ; Torres-Padilla, M.E.
The molecular and cellular features of 2-cell-like cells: a reference guide.Burton, A. ; Brochard, V. ; Galan, C. ; Ruiz-Morales, E.R. ; Rovira, Q. ; Rodriguez-Terrones, D. ; Kruse, K. ; Le Gras, S. ; Udayakumar, V.S. ; Chin, H.G. ; Eid, A. ; Liu, X. ; Wang, C. ; Gao, S. ; Pradhan, S. ; Vaquerizas, J.M. ; Beaujean, N. ; Jenuwein, T. ; Torres-Padilla, M.E.
Heterochromatin establishment during early mammalian development is regulated by pericentromeric RNA and characterized by non-repressive H3K9me3.Iturbide Martinez De Albeniz, A. ; Torres-Padilla, M.E.
A cell in hand is worth two in the embryo: Recent advances in 2-cell like cell reprogramming.Torres-Padilla, M.E.
On transposons and totipotency.Rodriguez-Terrones, D. ; Hartleben, G. ; Gaume, X. ; Eid, A. ; Guthmann, M. ; Iturbide Martinez De Albeniz, A. ; Torres-Padilla, M.E.
A distinct metabolic state arises during the emergence of 2-cell-like cells.Guthmann, M. ; Burton, A. ; Torres-Padilla, M.E.
Expression and phase separation potential of heterochromatin proteins during early mouse development.Bruneau, B.G. ; Koseki, H. ; Strome, S. ; Torres-Padilla, M.E.
Chromatin and epigenetics in development: A Special Issue.Ragazzini, R. ; Pérez-Palacios, R. ; Baymaz, I.H. ; Diop, S. ; Ancelin, K. ; Zielinski, D. ; Michaud, A. ; Givelet, M. ; Borsos, M. ; Aflaki, S. ; Legoix, P. ; Jansen, P.W.T.C. ; Servant, N. ; Torres-Padilla, M.E. ; Bourc'his, D. ; Fouchet, P. ; Vermeulen, M. ; Margueron, R.
EZHIP constrains Polycomb Repressive Complex 2 activity in germ cells.Jansz, N. ; Torres-Padilla, M.E.
Genome activation and architecture in the early mammalian embryo.Borsos, M. ; Perricone, S.M. ; Schauer, T. ; Pontabry, J. ; de Luca, K.L. ; de Vries, S.S. ; Ruiz-Morales, E.R. ; Torres-Padilla, M.E. ; Kind, J.
Genome-lamina interactions are established de novo in the early mouse embryo.Huang, Y. ; Chanou, A. ; Kranz, G. ; Pan, M. ; Kohlbauer, V. ; Ettinger, A. ; Gires, O.
Membrane-associated epithelial cell adhesion molecule is slowly cleaved by -secretase prior to efficient proteasomal degradation of its intracellular domain.Fissore, R.A. ; Burton, A. ; Lykke-Hartmann, K.
Editorial: Molecular and cellular mechanisms in reproduction and early development.Cossec, J.C. ; Theurillat, I. ; Chica, C. ; Búa Aguín, S. ; Gaume, X. ; Andrieux, A. ; Iturbide Martinez De Albeniz, A. ; Jouvion, G. ; Li, H. ; Bossis, G. ; Seeler, J.S. ; Torres-Padilla, M.E. ; Dejean, A.
SUMO safeguards somatic and pluripotent cell identities by enforcing distinct chromatin states.Marti-Renom, M.A. ; Almouzni, G. ; Bickmore, W.A. ; Bystricky, K. ; Cavalli, G. ; Fraser, P. ; Gasser, S.M. ; Giorgetti, L. ; Heard, E. ; Nicodemi, M. ; Nollmann, M. ; Orozco, M. ; Pombo, A. ; Torres-Padilla, M.E.
Challenges and guidelines toward 4D nucleome data and model standards.Rodriguez-Terrones, D. ; Torres-Padilla, M.E.
Nimble and ready to mingle: Transposon outbursts of early development.van Flaxen, J. ; Charafeddine, R.A. ; Ettinger, A. ; Wang, H. ; Hahn, K.M. ; Wittmann, T.
Optical control of EB1 reveals local functions of the microtubule plus TIP complex during cell migration and division.van Haren, J. ; Charafeddine, R.A. ; Ettinger, A. ; Wang, H. ; Hahn, K.M. ; Wittmann, T.
Local control of intracellular microtubule dynamics by EB1 photodissociation.van Haren, J. ; Ettinger, A. ; Charafeddine, R.A. ; Wang, H. ; Hahn, K.M. ; Wittmann, T.
Controlling cytoskeletal organization and cellular dynamics by localized optical modulation of microtubule dynamics.Rodriguez-Terrones, D. ; Gaume, X. ; Ishiuchi, T. ; Weiss, A.R. ; Kopp, A. ; Kruse, K. ; Penning, A. ; Vaquerizas, J.M. ; Brino, L. ; Torres-Padilla, M.E.
A molecular roadmap for the emergence of early-embryonic-like cells in culture.Izzo, A. ; Ziegler-Birling, C. ; Hill, P.W.S. ; Brondani, L. ; Hajkova, P. ; Torres-Padilla, M.E. ; Schneider, R.
Dynamic changes in H1 subtype composition during epigenetic reprogramming.Jachowicz, J.W. ; Bing, X. ; Pontabry, J. ; Bošković, A. ; Rando, O.J. ; Torres-Padilla, M.E.
LINE-1 activation after fertilization regulates global chromatin accessibility in the early mouse embryo.Iturbide Martinez De Albeniz, A. ; Torres-Padilla, M.E.
Starting embryonic transcription for the first time.Eid, A. ; Rodriguez-Terrones, D. ; Burton, A. ; Torres-Padilla, M.E.
SUV4-20 activity in the preimplantation mouse embryo controls timely replication.Vaquerizas, J.M. ; Torres-Padilla, M.E.
Developmental biology: Panoramic views of the early epigenome.Ettinger, A. ; van Haren, J. ; Ribeiro, S.A. ; Wittmann, T.
Doublecortin is excluded from growing microtubule ends and recognizes the GDP-microtubule lattice.Eid, A. ; Torres-Padilla, M.E.
Characterization of non-canonical polycomb repressive complex 1 subunits during early mouse embryogenesis.Jachowicz, J.W. ; Torres-Padilla, M.E.
LINEs in mice: Features, families, and potential roles in early development.Borsos, M. ; Torres-Padilla, M.E.
Building up the nucleus: Nuclear organization in the establishment of totipotency and pluripotency during mammalian development.Ziegler-Birling, C. ; Daujat, S. ; Schneider, R. ; Torres-Padilla, M.E.
Dynamics of histone H3 acetylation in the nucleosome core during mouse pre-implantation development.Gaume, X. ; Torres-Padilla, M.E.
Regulation of reprogramming and cellular plasticity through histone exchange and histone variant incorporation.Dang-Nguyen, T.Q. ; Torres-Padilla, M.E.
How cells build totipotency and pluripotency: Nuclear, chromatin and transcriptional architecture.Bošković, A. ; Torres-Padilla, M.E.
Histone variants and reprogramming in early development.Burton, A.S. ; Torres-Padilla, M.E.
Chromatin dynamics in the regulation of cell fate allocation during early embryogenesis.Saksouk, N. ; Barth, T.K. ; Ziegler-Birling, C. ; Olova, N. ; Nowak, A. ; Rey, E. ; Mateos-Langerak, J. ; Urbach, S. ; Reik, W. ; Torres-Padilla, M.E. ; Imhof, A. ; Déjardin, J. ; Simboeck, E.
Redundant mechanisms to form silent chromatin at pericentromeric regions rely on BEND3 and DNA methylation.Ishiuchi, T. ; Torres-Padilla, M.E.
LINEing germ and embryonic stem cells' silencing of retrotransposons.Bošković, A. ; Eid, A. ; Pontabry, J. ; Ishiuchi, T. ; Spiegelhalter, C. ; Raghu Ram, E.V. ; Meshorer, E. ; Torres-Padilla, M.E.
Higher chromatin mobility supports totipotency and precedes pluripotency in vivo.Torres-Padilla, M.E. ; Chambers, I.
Transcription factor heterogeneity in pluripotent stem cells: A stochastic advantage.Almouzni, G. ; Altucci, L. ; Amati, B. ; Ashley, N. ; Baulcombe, D. ; Beaujean, N. ; Bock, C. ; Bongcam-Rudloff, E. ; Bousquet, J. ; Braun, S. ; de Paillerets, B.B. ; Bussemakers, M. ; Clarke, L. ; Conesa, A. ; Estivill, X. ; Fazeli, A. ; Grgurevi, N.A. ; Gut, I. ; Heijmans, B.T. ; Hermouet, S. ; Houwing Duistermaat, J. ; Iacobucci, I. ; Ila, J. ; Kandimalla, R. ; Krauss-Etschmann, S. ; Lasko, P. ; Lehmann, S. ; Lindroth, A. ; Majdi, G. ; Marcotte, E. ; Martinelli, G. ; Martinet, N. ; Meyer, E. ; Miceli, C. ; Mills, K. ; Moreno-Villanueva, M. ; Morvan, G. ; Nickel, D. ; Niesler, B. ; Nowacki, M. ; Nowak, J. ; Ossowski, S. ; Pelizzola, M. ; Pochet, R. ; Poto Nik, U. ; Radwanska, M. ; Raes, J. ; Rattray, M. ; Robinson, M.D. ; Roelen, B. ; Sauer, S. ; Schinzer, D. ; Slagboom, E. ; Spector, T. ; Stunnenberg, H.G. ; Tiligada, E. ; Torres-Padilla, M.E. ; Tsonaka, R. ; van Soom, A. ; Vidakovi, M. ; Widschwendter, M.
Relationship between genome and epigenome - challenges and requirements for future research.Jachowicz, J.W. ; Santenard, A. ; Bender, A. ; Müller, J. ; Torres-Padilla, M.E.
Heterochromatin establishment at pericentromeres depends on nuclear position.Burton, A.S. ; Müller, J. ; Tu, S. ; Padilla-Longoria, P. ; Guccione, E. ; Torres-Padilla, M.E.
Single-cell profiling of epigenetic modifiers identifies PRDM14 as an inducer of cell fate in the mammalian embryo.Maliga, Z. ; Junqueira, M. ; Toyoda, Y. ; Ettinger, A. ; Mora-Bermudez, F. ; Klemm, R.W. ; Vasilj, A. ; Guhr, E. ; Ibarlucea-Benitez, I. ; Poser, I. ; Bonifacio, E. ; Huttner, W.B. ; Shevchenko, A. ; Hyman, A.A.
A genomic toolkit to investigate kinesin and myosin motor function in cells.Miyanari, Y. ; Ziegler-Birling, C. ; Torres-Padilla, M.E.
Live visualization of chromatin dynamics with fluorescent TALEs.Bošković, A. ; Torres-Padilla, M.E.
How mammals pack their sperm: A variant matter.Ishiuchi, T. ; Torres-Padilla, M.E.
Towards an understanding of the regulatory mechanisms of totipotency.Lange, U.C. ; Siebert, S. ; Wossidlo, M. ; Weiss, T. ; Ziegler-Birling, C. ; Walter, J. ; Torres-Padilla, M.E. ; Daujat, S. ; Schneider, R.
Dissecting the role of H3K64me3 in mouse pericentromeric heterochromatin.Fadloun, A. ; Le Gras, S. ; Jost, B. ; Ziegler-Birling, C. ; Takahashi, H. ; Gorab, E. ; Carninci, P. ; Torres-Padilla, M.E.
Chromatin signatures and retrotransposon profiling in mouse embryos reveal regulation of LINE-1 by RNA.Torres-Padilla, M.E. ; Ciosk, R.
A germline-centric view of cell fate commitment, reprogramming and immortality.Fadloun, A. ; Eid, A. ; Torres-Padilla, M.E.
Mechanisms and dynamics of heterochromatin formation during mammalian development: closed paths and open questions.Beck, D.B. ; Burton, A.S. ; Oda, H. ; Ziegler-Birling, C. ; Torres-Padilla, M.E. ; Reinberg, D.
The role of PR-Set7 in replication licensing depends on Suv4-20h.Bošković, A. ; Bender, A. ; Gall, L. ; Ziegler-Birling, C. ; Beaujean, N. ; Torres-Padilla, M.E.
Analysis of active chromatin modifications in early mammalian embryos reveals uncoupling of H2A.Z acetylation and H3K36 trimethylation from embryonic genome activation.Talbert, P.B. ; Ahmad, K. ; Almouzni, G. ; Ausió, J. ; Berger, F. ; Bhalla, P.L. ; Bonner, W.M. ; Cande, W.Z. ; Chadwick, B.P. ; Chan, S.W. ; Cross, G.A. ; Cui, L. ; Dimitrov, S.I. ; Doenecke, D. ; Eirin-López, J.M. ; Gorovsky, M.A. ; Hake, S.B. ; Hamkalo, B.A. ; Holec, S. ; Jacobsen, S.E. ; Kamieniarz, K. ; Khochbin, S. ; Ladurner, A.G. ; Landsman, D. ; Latham, J.A. ; Loppin, B. ; Malik, H.S. ; Marzluff, W.F. ; Pehrson, J.R. ; Postberg, J. ; Schneider, R. ; Singh, M.B. ; Smith, M.M. ; Thompson, E.E. ; Torres-Padilla, M.E. ; Tremethick, D.J. ; Turner, B.M. ; Waterborg, J.H. ; Wollmann, H. ; Yelagandula, R. ; Zhu, B.M. ; Henikoff, S.
A unified phylogeny-based nomenclature for histone variants.Miyanari, Y. ; Torres-Padilla, M.E.
Control of ground-state pluripotency by allelic regulation of Nanog.Burton, A.S. ; Torres-Padilla, M.E.
Epigenetic reprogramming and development: A unique heterochromatin organization in the preimplantation mouse embryo.Miyanari, Y. ; Torres-Padilla, M.E.
Epigenetic regulation of reprogramming factors towards pluripotency in mouse preimplantation development.Santenard, A. ; Ziegler-Birling, C. ; Koch, M. ; Tora, L. ; Bannister, A.J. ; Torres-Padilla, M.E.
Heterochromatin formation in the mouse embryo requires critical residues of the histone variant H3.3.Schebelle, L. ; Wolf, C. ; Stribl, C.B. ; Javaheri, T. ; Schnütgen, F. ; Ettinger, A. ; Ivics, Z. ; Hansen, J. ; Ruiz, P. ; von Melchner, H. ; Wurst, W. ; Floß, T.
Efficient conditional and promoter-specific in vivo expression of cDNAs of choice by taking advantage of recombinase-mediated cassette exchange using FlEx gene traps.Daujat, S. ; Weiss, T. ; Mohn, F. ; Lange, U.C. ; Ziegler-Birling, C. ; Zeissler, U. ; Lappe, M. ; Schübeler, D. ; Torres-Padilla, M.E. ; Schneider, R.
H3K64 trimethylation marks heterochromatin and is dynamically remodeled during developmental reprogramming.Oda, H. ; Okamoto, I. ; Murphy, N. ; Chu, J. ; Price, S.M. ; Shen, M.M. ; Torres-Padilla, M.E. ; Heard, E. ; Reinberg, D.
Monomethylation of histone H4-lysine 20 is involved in chromosome structure and stability and is essential for mouse development.Ziegler-Birling, C. ; Helmrich, A. ; Tora, L. ; Torres-Padilla, M.E.
Distribution of p53 binding protein 1 (53BP1) and phosphorylated H2A.X during mouse preimplantation development in the absence of DNA damage.Santenard, A. ; Torres-Padilla, M.E.
Epigenetic reprogramming in mammalian reproduction: Contribution from histone variants.Soares, M.L. ; Torres-Padilla, M.E.
Temporal and tissue-specific control of gene expression in the peri-implantation mouse embryo through electroporation of dsRNA.Soares, M.L. ; Torres-Padilla, M.E. ; Zernicka-Goetz, M.
Bone morphogenetic protein 4 signaling regulates development of the anterior visceral endoderm in the mouse embryo.Torres-Padilla, M.E.
Cell identity in the preimplantation mammalian embryo: An epigenetic perspective from the mouse.Eberlin, A. ; Grauffel, C. ; Oulad-Abdelghani, M. ; Robert, F. ; Torres-Padilla, M.E. ; Lambrot, R. ; Spehner, D. ; Ponce-Perez, L. ; Würtz, J.M. ; Stote, R.H. ; Kimmins, S. ; Schultz, P. ; Dejaegere, A. ; Tora, L.
Histone H3 tails containing dimethylated lysine and adjacent phosphorylated serine modifications adopt a specific conformation during mitosis and meiosis.Torres-Padilla, M.E. ; Tora, L.
TBP homologues in embryo transcription: Who does what?Gazdag, E. ; Rajkovic, A. ; Torres-Padilla, M.E. ; Tora, L.
Analysis of TATA-binding protein 2 (TBP2) and TBP expression suggests different roles for the two proteins in regulation of gene expression during oogenesis and early mouse development.Torres-Padilla, M.E. ; Richardson, L. ; Kolasinska, P. ; Meilhac, S.M. ; Luetke-Eversloh, M.V. ; Zernicka-Goetz, M.
The anterior visceral endoderm of the mouse embryo is established from both preimplantation precursor cells and by de novo gene expression after implantation.Torres-Padilla, M.E. ; Parfitt, D.E. ; Kouzarides, T. ; Zernicka-Goetz, M.
Histone arginine methylation regulates pluripotency in the early mouse embryo.Na, J. ; Lykke-Andersen, K. ; Torres-Padilla, M.E. ; Zernicka-Goetz, M.
Dishevelled proteins regulate cell adhesion in mouse blastocyst and serve to monitor changes in Wnt signaling.Torres-Padilla, M.E. ; Zernicka-Goetz, M.
Role of TIF1alpha as a modulator of embryonic transcription in the mouse zygote.Torres-Padilla, M.E. ; Bannister, A.J. ; Hurd, P.J. ; Kouzarides, T. ; Zernicka-Goetz, M.
Dynamic distribution of the replacement histone variant H3.3 in the mouse oocyte and preimplantation embryos.Richardson, L. ; Torres-Padilla, M.E. ; Zernicka-Goetz, M.
Regionalised signalling within the extraembryonic ectoderm regulates anterior visceral endoderm positioning in the mouse embryo.Ettinger, A.
Development of a recombinase mediated cassette exchange system by taking advantage of conditional gene trap integrations in the mouse genome and establishment of a transgenic hyperactive transposase mouse embryonic stem cell line.Soares, M.L. ; Haraguchi, S. ; Torres-Padilla, M.E. ; Kalmar, T. ; Carpenter, L. ; Bell, G.I. ; Morrison, A. ; Ring, C.J. ; Clarke, N.J. ; Glover, D.M. ; Zernicka-Goetz, M.
Functional studies of signaling pathways in peri-implantation development of the mouse embryo by RNAi.Torres-Padilla, M.E. ; Weiss, M.C.
Effects of interactions of hepatocyte nuclear factor 4alpha isoforms with coactivators and corepressors are promoter-specific.Torres-Padilla, M.E. ; Sladek, F.M. ; Weiss, M.C.
Developmentally regulated N-terminal variants of the nuclear receptor hepatocyte nuclear factor 4alpha mediate multiple interactions through coactivator and corepressor-histone deacetylase complexes.Bailly, A. ; Torres-Padilla, M.E. ; Tinel, A.P. ; Weiss, M.C.
An enhancer element 6 kb upstream of the mouse HNF4alpha1 promoter is activated by glucocorticoids and liver-enriched transcription factors.Torres-Padilla, M.E. ; Fougère-Deschatrette, C. ; Weiss, M.C.
Expression of HNF4alpha isoforms in mouse liver development is regulated by sequential promoter usage and constitutive 3' end splicing.García-Sáinz, J.A. ; Torres-Padilla, M.E.
Modulation of basal intracellular calcium by inverse agonists and phorbol myristate acetate in rat-1 fibroblasts stably expressing alpha1d-adrenoceptors.Medina, L.C. ; Vázquez-Prado, J. ; Torres-Padilla, M.E. ; Mendoza-Mendoza, A. ; Cruz Muñoz, M.E. ; García-Sáinz, J.A.
Crosstalk: phosphorylation of alpha1b-adrenoceptors induced through activation of bradykinin B2 receptors.Torres-Padilla, M.E. ; Carrero, J.C. ; Ortiz-Ortiz, L.
A 148-kDa secretory proteinase from Entamoeba histolytica.