Zobrazeno 1 - 10
of 32
pro vyhledávání: '"Donncha S Dunican"'
Autor:
Markus F. Templin, Duncan Sproul, Donncha S. Dunican, Heidi K. Mjoseng, Bernard Ramsahoye, John P. Thomson, Ian R. Adams, Ruchi Shukla, Richard R. Meehan, Tuempong Wongtawan, Simon Kling, Sari Pennings, Fridolin Treindl
Publikováno v:
Nucleic Acids Research
Shukla, R, Mjoseng, H K, Thomson, J, Kling, S, Sproul, D, Dunican, D, Ramsahoye, B, Wongtawan, T, Treindl, F, Templin, M F, Adams, I, Pennings, S & Meehan, R 2020, ' Activation of transcription factor circuity in 2i-induced ground state pluripotency is independent of repressive global epigenetic landscapes ', Nucleic Acids Research . https://doi.org/10.1093/nar/gkaa529
Shukla, R, Mjoseng, H K, Thomson, J, Kling, S, Sproul, D, Dunican, D, Ramsahoye, B, Wongtawan, T, Treindl, F, Templin, M F, Adams, I, Pennings, S & Meehan, R 2020, ' Activation of transcription factor circuity in 2i-induced ground state pluripotency is independent of repressive global epigenetic landscapes ', Nucleic Acids Research . https://doi.org/10.1093/nar/gkaa529
Mouse embryonic stem cells (mESCs) cultured with MEK/ERK and GSK3β (2i) inhibitors transition to ground state pluripotency. Gene expression changes, redistribution of histone H3K27me3 profiles and global DNA hypomethylation are hallmarks of 2i expos
Publikováno v:
BioTechniques, Vol 48, Iss 4, Pp 317-319 (2010)
DNA cytosine methylation (5mC) is highly abundant in mammalian cells and is associated with transcriptional repression. Recently, hydroxymethylcytosine (hmC) has been detected at high levels in certain human cell types; however, its roles are unknown
Externí odkaz:
https://doaj.org/article/2a328ae8babc4a748dff5428917b33c5
Autor:
Margaret F. Lippincott, Diane Lucente, Catarina M. Seabra, Shelagh Joss, Hemant Bengani, Angela Lek, Klaus W. Ruprecht, Jenny Jing, Nicholas Katsanis, Joe Rainger, Tammy Kammin, Cynthia C. Morton, Ravikumar Balasubramanian, Chie Hee Cho, Peter L. Jones, Alexandra Silva, Ianina Scheer, Jennifer R. Law, Nobuhiko Okamoto, Stephanie B. Seminara, William F. Crowley, Joseph A. Marsh, Jeanie B. Tryggestad, Markus Zweier, Benjamin Currall, Veronica van Heyningen, Serkan Erdin, Natalie D. Shaw, Michael E. Talkowski, John Graham, Daniel G. MacArthur, Kathleen A. Williamson, Morad Ansari, Angela M. Kaindl, Nirav J. Patel, Jacqueline K. Rainger, Zachary A. Kupchinsky, Koh-ichiro Yoshiura, Kaitlin E. Samocha, Angela E. Lin, Daisuke Sato, Bart Loeys, Malik Nassan, Sylvia S. Singh, Takako I. Jones, Eric C. Liao, Donncha S. Dunican, Claudia Cesaretti, Lisa A. Schimmenti, Janet E. Hall, Christina Jacobsen, Ryan L. Collins, Jill Clayton Smith, Alexei Stortchevoi, Erica E. Davis, Tatiana Pineda Buitrago, Shahrin Pereira, Masato Shino, Steven A. Moore, Wolfgang Mühlbauer, Anita Rauch, James F. Gusella, Colby Chiang, Nalton F. Ferraro, José Elías García-Ortiz, David R. FitzPatrick, Alain Verloes, Katharina Steindl, Jodi D. Hoffman, Yu An, Lacey Plummer, Benjamin Brasseur, Monkol Lek, Richard R. Meehan, Orlando Perez Silva, Harrison Brand, Steven D. Chernausek, Jason R. Willer
Publikováno v:
Nature Genetics, 49, 2, pp. 238-248
Nature genetics
Shaw, N D, Brand, H, Kupchinsky, Z A, Bengani, H, Plummer, L, Jones, T I, Erdin, S, Williamson, K A, Rainger, J, Stortchevoi, A, Samocha, K, Currall, B B, Dunican, D S, Collins, R L, Willer, J R, Lek, A, Lek, M, Nassan, M, Pereira, S, Kammin, T, Lucente, D, Silva, A, Seabra, C M, Chiang, C, An, Y, Ansari, M, Rainger, J K, Joss, S, Smith, J C, Lippincott, M F, Singh, S S, Patel, N, Jing, J W, Law, J R, Ferraro, N, Verloes, A, Rauch, A, Steindl, K, Zweier, M, Scheer, I, Sato, D, Okamoto, N, Jacobsen, C, Tryggestad, J, Chernausek, S, Schimmenti, L A, Brasseur, B, Cesaretti, C, García-Ortiz, J E, Buitrago, T P, Silva, O P, Hoffman, J D, Mühlbauer, W, Ruprecht, K W, Loeys, B L, Shino, M, Kaindl, A M, Cho, C-H, Morton, C C, Meehan, R R, van Heyningen, V, Liao, E C, Balasubramanian, R, Hall, J E, Seminara, S B, Macarthur, D, Moore, S A, Yoshiura, K, Gusella, J F, Marsh, J A, Graham Jr, J M, Lin, A E, Katsanis, N, Jones, P L, Crowley Jr, W F, Davis, E E, FitzPatrick, D R & Talkowski, M E 2017, ' SMCHD1 mutations associated with a rare muscular dystrophy can also cause isolated arhinia and Bosma arhinia microphthalmia syndrome ', Nature Genetics, vol. 49, no. 2, pp. 238-248 . https://doi.org/10.1038/ng.3743
Nature Genetics, 49, 238-248
Shaw, N D, Brand, H, Kupchinsky, Z A, Bengani, H, Plummer, L, Jones, T I, Erdin, S, Williamson, K A, Rainger, J, Stortchevoi, A, Samocha, K, Currall, B B, Dunican, D S, Collins, R L, Willer, J R, Lek, A, Lek, M, Nassan, M, Pereira, S, Kammin, T, Lucente, D, Silva, A, Seabra, C M, Chiang, C, An, Y, Ansari, M, Rainger, J K, Joss, S, Smith, J C, Lippincott, M F, Singh, S S, Patel, N, Jing, J W, Law, J R, Ferraro, N, Verloes, A, Rauch, A, Steindl, K, Zweier, M, Scheer, I, Sato, D, Okamoto, N, Jacobsen, C, Tryggestad, J, Chernausek, S, Schimmenti, L A, Brasseur, B, Cesaretti, C, García-Ortiz, J E, Buitrago, T P, Silva, O P, Hoffman, J D, Mühlbauer, W, Ruprecht, K W, Loeys, B L, Shino, M, Kaindl, A M, Cho, C-H, Morton, C C, Meehan, R R, van Heyningen, V, Liao, E C, Balasubramanian, R, Hall, J E, Seminara, S B, Macarthur, D, Moore, S A, Yoshiura, K-I, Gusella, J F, Marsh, J A, Graham, J M, Lin, A E, Katsanis, N, Jones, P L, Crowley, W F, Davis, E E, FitzPatrick, D R & Talkowski, M E 2017, ' SMCHD1 mutations associated with a rare muscular dystrophy can also cause isolated arhinia and Bosma arhinia microphthalmia syndrome ', Nature Genetics, vol. 49, no. 2, pp. 238-248 . https://doi.org/10.1038/ng.3743
Nature genetics
Shaw, N D, Brand, H, Kupchinsky, Z A, Bengani, H, Plummer, L, Jones, T I, Erdin, S, Williamson, K A, Rainger, J, Stortchevoi, A, Samocha, K, Currall, B B, Dunican, D S, Collins, R L, Willer, J R, Lek, A, Lek, M, Nassan, M, Pereira, S, Kammin, T, Lucente, D, Silva, A, Seabra, C M, Chiang, C, An, Y, Ansari, M, Rainger, J K, Joss, S, Smith, J C, Lippincott, M F, Singh, S S, Patel, N, Jing, J W, Law, J R, Ferraro, N, Verloes, A, Rauch, A, Steindl, K, Zweier, M, Scheer, I, Sato, D, Okamoto, N, Jacobsen, C, Tryggestad, J, Chernausek, S, Schimmenti, L A, Brasseur, B, Cesaretti, C, García-Ortiz, J E, Buitrago, T P, Silva, O P, Hoffman, J D, Mühlbauer, W, Ruprecht, K W, Loeys, B L, Shino, M, Kaindl, A M, Cho, C-H, Morton, C C, Meehan, R R, van Heyningen, V, Liao, E C, Balasubramanian, R, Hall, J E, Seminara, S B, Macarthur, D, Moore, S A, Yoshiura, K, Gusella, J F, Marsh, J A, Graham Jr, J M, Lin, A E, Katsanis, N, Jones, P L, Crowley Jr, W F, Davis, E E, FitzPatrick, D R & Talkowski, M E 2017, ' SMCHD1 mutations associated with a rare muscular dystrophy can also cause isolated arhinia and Bosma arhinia microphthalmia syndrome ', Nature Genetics, vol. 49, no. 2, pp. 238-248 . https://doi.org/10.1038/ng.3743
Nature Genetics, 49, 238-248
Shaw, N D, Brand, H, Kupchinsky, Z A, Bengani, H, Plummer, L, Jones, T I, Erdin, S, Williamson, K A, Rainger, J, Stortchevoi, A, Samocha, K, Currall, B B, Dunican, D S, Collins, R L, Willer, J R, Lek, A, Lek, M, Nassan, M, Pereira, S, Kammin, T, Lucente, D, Silva, A, Seabra, C M, Chiang, C, An, Y, Ansari, M, Rainger, J K, Joss, S, Smith, J C, Lippincott, M F, Singh, S S, Patel, N, Jing, J W, Law, J R, Ferraro, N, Verloes, A, Rauch, A, Steindl, K, Zweier, M, Scheer, I, Sato, D, Okamoto, N, Jacobsen, C, Tryggestad, J, Chernausek, S, Schimmenti, L A, Brasseur, B, Cesaretti, C, García-Ortiz, J E, Buitrago, T P, Silva, O P, Hoffman, J D, Mühlbauer, W, Ruprecht, K W, Loeys, B L, Shino, M, Kaindl, A M, Cho, C-H, Morton, C C, Meehan, R R, van Heyningen, V, Liao, E C, Balasubramanian, R, Hall, J E, Seminara, S B, Macarthur, D, Moore, S A, Yoshiura, K-I, Gusella, J F, Marsh, J A, Graham, J M, Lin, A E, Katsanis, N, Jones, P L, Crowley, W F, Davis, E E, FitzPatrick, D R & Talkowski, M E 2017, ' SMCHD1 mutations associated with a rare muscular dystrophy can also cause isolated arhinia and Bosma arhinia microphthalmia syndrome ', Nature Genetics, vol. 49, no. 2, pp. 238-248 . https://doi.org/10.1038/ng.3743
Arhinia, or absence of the nose, is a rare malformation of unknown etiology that is often accompanied by ocular and reproductive defects. Sequencing of 40 people with arhinia revealed that 84% of probands harbor a missense mutation localized to a con
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::d68d8df63ca8f32d22441b77159f6e8f
https://hdl.handle.net/2066/175555
https://hdl.handle.net/2066/175555
Autor:
Greg Donahue, John van Tuyn, Nathan D. VanderKraats, Peter D. Adams, Tony McBryan, Shelley L. Berger, Parisha P. Shah, Donncha S. Dunican, Richard R. Meehan, Mark E. Drotar, Taranjit Singh Rai, John R. Edwards, David M. Nelson, Hazel A Cruickshanks, Claire Brock
Publikováno v:
Nature Cell Biology. 15:1495-1506
Altered DNA methylation and associated destabilization of genome integrity and function is a hallmark of cancer. Replicative senescence is a tumour suppressor process that imposes a limit on the proliferative potential of normal cells that all cancer
Autor:
Ian R. Adams, M. Azim Surani, Judith Reichmann, Richard R. Meehan, James P. Reddington, Colm E. Nestor, Wolf Reik, Donncha S. Dunican, Jamie A. Hackett, Miguel R. Branco
Publikováno v:
Development. 139:3623-3632
Mouse primordial germ cells (PGCs) erase global DNA methylation (5mC) as part of the comprehensive epigenetic reprogramming that occurs during PGC development. 5mC plays an important role in maintaining stable gene silencing and repression of transpo
Autor:
James P. Reddington, Monika J. Madej, James A. Hackett, Huan X. Meng, Colm Nestor, David J. Harrison, Donncha S. Dunican, Richard R. Meehan, Sari Pennings
Publikováno v:
Meng, H X, Hackett, J A, Nestor, C, Dunican, D S, Madej, M, Reddington, J P, Pennings, S, Harrison, D J & Meehan, R R 2011, ' Apoptosis and DNA methylation ', Cancers, vol. 3, no. 2, pp. 1798-820 . https://doi.org/10.3390/cancers3021798
Cancers, Vol 3, Iss 2, Pp 1798-1820 (2011)
Cancers
Cancers, Vol 3, Iss 2, Pp 1798-1820 (2011)
Cancers
Epigenetic mechanisms assist in maintaining gene expression patterns and cellular properties in developing and adult tissues. The molecular pathology of disease states frequently includes perturbation of DNA and histone methylation patterns, which ca
Publikováno v:
BioMed Research International, Vol 2015 (2015)
Dunican, D S, Pennings, S & Meehan, R R 2015, ' Lsh is essential for maintaining global DNA methylation levels in amphibia and fish and interacts directly with Dnmt1 ', BioMed Research International . https://doi.org/10.1155/2015/740637
BioMed Research International
Dunican, D S, Pennings, S & Meehan, R R 2015, ' Lsh is essential for maintaining global DNA methylation levels in amphibia and fish and interacts directly with Dnmt1 ', BioMed Research International . https://doi.org/10.1155/2015/740637
BioMed Research International
Eukaryotic genomes are methylated at cytosine bases in the context of CpG dinucleotides, a pattern which is maintained through cell division by the DNA methyltransferase Dnmt1. Dramatic methylation losses are observed in plant and mouse cells lacking
Autor:
Natalie D Shaw, Harrison Brand, Zachary A Kupchinsky, Hemant Bengani, Lacey Plummer, Takako I Jones, Serkan Erdin, Kathleen A Williamson, Joe Rainger, Alexei Stortchevoi, Kaitlin Samocha, Benjamin B Currall, Donncha S Dunican, Ryan L Collins, Jason R Willer, Angela Lek, Monkol Lek, Malik Nassan, Shahrin Pereira, Tammy Kammin, Diane Lucente, Alexandra Silva, Catarina M Seabra, Colby Chiang, Yu An, Morad Ansari, Jacqueline K Rainger, Shelagh Joss, Jill Clayton Smith, Margaret F Lippincott, Sylvia S Singh, Nirav Patel, Jenny W Jing, Jennifer R Law, Nalton Ferraro, Alain Verloes, Anita Rauch, Katharina Steindl, Markus Zweier, Ianina Scheer, Daisuke Sato, Nobuhiko Okamoto, Christina Jacobsen, Jeanie Tryggestad, Steven Chernausek, Lisa A Schimmenti, Benjamin Brasseur, Claudia Cesaretti, Jose E García-Ortiz, Tatiana Pineda Buitrago, Orlando Perez Silva, Jodi D Hoffman, Wolfgang Mühlbauer, Klaus W Ruprecht, Bart L Loeys, Masato Shino, Angela M Kaindl, Chie-Hee Cho, Cynthia C Morton, Richard R Meehan, Veronica van Heyningen, Eric C Liao, Ravikumar Balasubramanian, Janet E Hall, Stephanie B Seminara, Daniel Macarthur, Steven A Moore, Koh-ichiro Yoshiura, James F Gusella, Joseph A Marsh, John M Graham, Angela E Lin, Nicholas Katsanis, Peter L Jones, William F Crowley, Erica E Davis, David R FitzPatrick, Michael E Talkowski
Publikováno v:
Nature Genetics. 49:969-969
Autor:
Colm E, Nestor, Raffaele, Ottaviano, Diana, Reinhardt, Hazel A, Cruickshanks, Heidi K, Mjoseng, Rhoanne C, McPherson, Antonio, Lentini, John P, Thomson, Donncha S, Dunican, Sari, Pennings, Stephen M, Anderton, Mikael, Benson, Richard R, Meehan
Publikováno v:
Genome Biology
Background The DNA methylation profiles of mammalian cell lines differ from those of the primary tissues from which they were derived, exhibiting increasing divergence from the in vivo methylation profile with extended time in culture. Few studies ha
Autor:
Masako Suzuki, Ian R. Adams, Donncha S. Dunican, Robert J. Arceci, Colin A. Semple, John M. Greally, Hazel A Cruickshanks, Tracey Davey, Richard R. Meehan
Publikováno v:
Dunican, D S, Cruickshanks, H A, Suzuki, M, Semple, C A, Davey, T, Arceci, R J, Greally, J, Adams, I R & Meehan, R R 2013, ' Lsh regulates LTR retrotransposon repression independently of Dnmt3b function ', Genome Biology, vol. 14, no. 12, pp. R146 . https://doi.org/10.1186/gb-2013-14-12-r146
Genome Biology
Genome Biology
Background: DNA methylation contributes to genomic integrity by suppressing repeat-associated transposition. In addition to the canonical DNA methyltransferases, several auxiliary chromatin factors are required to maintain DNA methylation at intergen
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::120a7450c19bea331523a69be826ee13
https://hdl.handle.net/20.500.11820/44abc88f-92c0-4cdf-a916-16fba70299cd
https://hdl.handle.net/20.500.11820/44abc88f-92c0-4cdf-a916-16fba70299cd