Your search keyword '"Aengus Stewart"' showing total 6 results

1. The Scc2–Scc4 complex acts in sister chromatid cohesion and transcriptional regulation by maintaining nucleosome-free regions

Author

Harshil Patel, Lidia Lopez-Serra, Gavin Kelly, Aengus Stewart, and Frank Uhlmann

Subjects

Saccharomyces cerevisiae Proteins, Chromosomal Proteins, Non-Histone, Micrognathism, Chromatids, Article, Chromatin remodeling, 03 medical and health sciences, 0302 clinical medicine, De Lange Syndrome, Gene Expression Regulation, Fungal, Intellectual Disability, Genetics, Humans, Nucleosome, Abnormalities, Multiple, RSC complex, Chromatin structure remodeling (RSC) complex, Promoter Regions, Genetic, Oligonucleotide Array Sequence Analysis, 030304 developmental biology, Cohesin loading, 0303 health sciences, Binding Sites, biology, Cohesin, Gene Expression Profiling, Chromatin, Nucleosomes, Establishment of sister chromatid cohesion, Face, biology.protein, biological phenomena, cell phenomena, and immunity, Chromosomes, Fungal, Transcription Initiation Site, Separase, Hand Deformities, Congenital, Neck, 030217 neurology & neurosurgery, Protein Binding

Abstract

The cohesin complex is at the heart of many chromosomal activities, including sister chromatid cohesion and transcriptional regulation. Cohesin loading onto chromosomes depends on the Scc2-Scc4 cohesin loader complex, but the chromatin features that form cohesin loading sites remain poorly understood. Here we show that the RSC chromatin remodeling complex recruits budding yeast Scc2-Scc4 to broad nucleosome-free regions, which the cohesin loader helps to maintain. Consequently, inactivation of either the cohesin loader or the RSC complex has similar effects on nucleosome positioning, gene expression and sister chromatid cohesion. These results show an intimate link between local chromatin structure and higher-order chromosome architecture. Our findings pertain to the similarities between two severe human disorders, Cornelia de Lange syndrome, which is caused by alterations in the human cohesin loader, and Coffin-Siris syndrome, which results from alterations in human RSC complex components. Both syndromes can arise from gene misregulation due to related changes in the nucleosome landscape.

Published

2014

2. Erratum: Corrigendum: Phylogenetic ctDNA analysis depicts early-stage lung cancer evolution

Author

Martin Hayward, Jason F. Lester, Thomas B.K. Watkins, Selvaraju Veeriah, Joan K. Riley, Phil Crosbie, Tudor Constantin, Matthew Rabinowitz, Wenya Linda Bi, Karl S. Peggs, Nicholas McGranahan, Francisco Zambrana, Marianne Nicolson, Samra Turajlic, Gerald Langman, Raheleh Salari, Rajesh Shah, Simon Trotter, Malgorzata Kornaszewska, Bernhard Zimmermann, Hugo J.W.L. Aerts, Tanya Ahmad, Sridhar Rathinam, Siow Ming Lee, Ayse U. Akarca, Christopher Abbosh, Fiona H Blackhall, Dina Hafez, Nicolai Juul Birkbak, Peter Russell, David Moore, Lesley Gomersall, Nicole Sponer, Apostolos Nakas, Gareth A. Wilson, John A. Hartley, Melanie Irvin-Sellers, Sophia Ward, Veni Ezhil, Fiona M. Fennessy, Aengus Stewart, Anne Marie Quinn, Peter Van Loo, Eser Kirkizlar, Vineet Prakash, Tim Chambers, Zoltan Szallasi, Seema Shafi, Ricky Thakrar, Dahmane Oukrif, Sergio A. Quezada, Sajid A. Khan, Babu Naidu, Harriet Bell, Sam M. Janes, Mariam Jamal-Hanjani, Andrew N. Rowan, Mary Falzon, Asia Ahmed, Eva Grönroos, Justyna Czyzewska-Khan, Stephanie Kareht, Mahendran Chetty, Dean A. Fennell, Ashwini Naik, Helen Lowe, Roland F. Schwarz, Allan Hackshaw, Apratim Ganguly, Joanne Laycock, Crispin T. Hiley, Shyam Kolvekar, Elaine Borg, Yvonne Summers, Diana Johnson, Martin Forster, David Lawrence, Greg Elgar, Richard Attanoos, Keith M. Kerr, Charles Swanton, Rachel Rosenthal, Teresa Marafioti, Maise Al Bakir, Girija Anand, Hardy Remmen, Gary Middleton, Francesco Fraioli, Luke Martinson, Leena Dennis Joseph, C. Jimmy Lin, Natasha Iles, Yenting Ngai, Caroline Dive, Nikolaos Panagiotopoulos, Nik Matthews, Haydn Adams, John Le Quesne, Helen Davies, Jacqui Shaw, Sara Lock, Babikir Ismail, Javier Herrero, and Raymondo Endozo

Subjects

0301 basic medicine, Multidisciplinary, medicine.diagnostic_test, business.industry, Volumetric data, Computed tomography, medicine.disease, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Positron emission tomography, 030220 oncology & carcinogenesis, Medicine, Stage (cooking), business, Lung cancer, Nuclear medicine

Abstract

Nature 545, 446–451 (2017); doi:10.1038/nature22364 For 6 of the 96 patients included in this Article (patients CRUK0014, CRUK0030, CRUK0048, CRUK0059, CRUK0096 and CRUK0097) incorrect tumour volumetric data and positron emission tomography (PET) tumour background ratio (TBR) data were analysed. This error occurred because of the incorrect assignment of patient identifiers during the anonymization mandated by the independent review board of pre-operative computed tomography (CT) scans belonging to these patients.

Published

2017

3. Genome-wide co-localization of Polycomb orthologs and their effects on gene expression in human fibroblasts

Author

Richard D. Palermo, Hollie Chandler, Marc Rodriguez-Niedenführ, Emma Anderton, Julie K. Stock, Sharon Brookes, Nik Matthews, Helen Pemberton, Aengus Stewart, Harshil Patel, Lucas de Breed, Tomas Racek, and Gordon Peters

Subjects

Polycomb Repressive Complex 1, Genetics, Regulation of gene expression, Genome, Human, Research, Gene Expression Regulation, Developmental, Polycomb-Group Proteins, macromolecular substances, Fibroblasts, Biology, Chromatin, Polycomb-group proteins, Humans, Gene silencing, Cell Lineage, Human genome, Gene, Cell aging, Chromatin immunoprecipitation, Cellular Senescence, Protein Binding

Abstract

Background: Polycomb group proteins form multicomponent complexes that are important for establishing lineage-specific patterns of gene expression. Mammalian cells encode multiple permutations of the prototypic Polycomb repressive complex 1 (PRC1) with little evidence for functional specialization. An aim of this study is to determine whether the multiple orthologs that are co-expressed in human fibroblasts act on different target genes and whether their genomic location changes during cellular senescence. Results: Deep sequencing of chromatin immunoprecipitated with antibodies against CBX6, CBX7, CBX8, RING1 and RING2 reveals that the orthologs co-localize at multiple sites. PCR-based validation at representative loci suggests that a further six PRC1 proteins have similar binding patterns. Importantly, sequential chromatin immunoprecipitation with antibodies against different orthologs implies that multiple variants of PRC1 associate with the same DNA. At many loci, the binding profiles have a distinctive architecture that is preserved in two different types of fibroblast. Conversely, there are several hundred loci at which PRC1 binding is cell type-specific and, contrary to expectations, the presence of PRC1 does not necessarily equate with transcriptional silencing. Interestingly, the PRC1 binding profiles are preserved in senescent cells despite changes in gene expression. Conclusions: The multiple permutations of PRC1 in human fibroblasts congregate at common rather than specific sites in the genome and with overlapping but distinctive binding profiles in different fibroblasts. The data imply that the effects of PRC1 complexes on gene expression are more subtle than simply repressing the loci at which they bind.

Published

2014

4. Fish development in black and white, and color too

Author

Aengus Stewart

Subjects

Fishery, Front page, animal structures, White (horse), Fish development, Evolutionary biology, fungi, embryonic structures, Anatomical atlas, Biology, biology.organism_classification, Zebrafish, External database

Abstract

The primary resource for the zebrafish community is a vast site, and is also a jumping-off point to other relatively large zebrafish websites.

Published

2000

5. Fugu: the small genome of a puffed-up fish

Author

Aengus Stewart

Subjects

Genetics, biology, Evolutionary biology, Fugu, biology.animal, fungi, Vertebrate, %22">Fish , Fugu rubripes, Genome, Human genetics

Abstract

The puffer fish Fugu rubripes is perhaps better known as a Japanese delicacy, but its gene-rich, relatively small genome makes the puffer fish a suitable vertebrate for comparative mapping.

Published

2000

6. Xenopus: from tadpole to model organism

Author

Aengus Stewart

Subjects

animal structures, biology, urogenital system, ved/biology, Evolutionary biology, embryonic structures, ved/biology.organism_classification_rank.species, Xenopus, Embryo, Model organism, biology.organism_classification, Tadpole, Developmental biology

Abstract

Developmental biology, primarily work with the embryos of Xenopus species X. laevis and X. tropicalis, is the focus of this site.

Published

2000