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topologically associated domains

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https://www.readbyqxmd.com/read/28099032/pathogenicity-genes-in-ustilaginoidea-virens-revealed-by-a-predicted-protein-protein-interaction-network
#1
Kang Zhang, Yuejiao Li, Tengjiao Li, Zhi-Gang Li, Tom Hsiang, Ziding Zhang, Wenxian Sun
Rice false smut, caused by Ustilaginoidea virens, produces significant loss in rice yield and grain quality, and has recently emerged as one of the most important rice diseases worldwide. Despite its importance in rice production, relatively few studies have been conducted to illustrate the complex interactome and the pathogenicity gene interactions. Here, a protein-protein interaction (PPI) network of U. virens was built through two well-recognized approaches, interolog and domain-domain interaction-based methods...
January 18, 2017: Journal of Proteome Research
https://www.readbyqxmd.com/read/28091955/genome-wide-exploration-of-silicon-si-transporter-genes-lsi1-and-lsi2-in-plants-insights-into-si-accumulation-status-capacity-of-plants
#2
Recep Vatansever, Ibrahim Ilker Ozyigit, Ertugrul Filiz, Nermin Gozukara
Silicon (Si) is a nonessential, beneficial micronutrient for plants. It increases the plant stress tolerance in relation to its accumulation capacity. In this work, root Si transporter genes were characterized in 17 different plants and inferred for their Si-accumulation status. A total of 62 Si transporter genes (31 Lsi1 and 31 Lsi2) were identified in studied plants. Lsi1s were 261-324 residues protein with a MIP family domain whereas Lsi2s were 472-547 residues with a citrate transporter family domain. Lsi1s possessed characteristic sequence features that can be employed as benchmark in prediction of Si-accumulation status/capacity of the plants...
January 13, 2017: Biometals: An International Journal on the Role of Metal Ions in Biology, Biochemistry, and Medicine
https://www.readbyqxmd.com/read/28087711/ctcf-mediated-topological-boundaries-during-development-foster-appropriate-gene-regulation
#3
Varun Narendra, Milica Bulajić, Job Dekker, Esteban O Mazzoni, Danny Reinberg
The genome is organized into repeating topologically associated domains (TADs), each of which is spatially isolated from its neighbor by poorly understood boundary elements thought to be conserved across cell types. Here, we show that deletion of CTCF (CCCTC-binding factor)-binding sites at TAD and sub-TAD topological boundaries that form within the HoxA and HoxC clusters during differentiation not only disturbs local chromatin domain organization and regulatory interactions but also results in homeotic transformations typical of Hox gene misregulation...
December 15, 2016: Genes & Development
https://www.readbyqxmd.com/read/28087167/lingering-questions-about-enhancer-rna-and-enhancer-transcription-coupled-genomic-instability
#4
REVIEW
Gerson Rothschild, Uttiya Basu
Intergenic and intragenic enhancers found inside topologically associated regulatory domains (TADs) express noncoding RNAs, known as enhancer RNAs (eRNAs). Recent studies have indicated these eRNAs play a role in gene regulatory networks by controlling promoter and enhancer interactions and topology of higher-order chromatin structure. Misregulation of enhancer and promoter associated noncoding RNAs (ncRNAs) could stabilize deleterious secondary DNA structures, noncoding RNA associated DNA/RNA hybrid formation, and promote collisions of transcription complexes with replisomes...
January 10, 2017: Trends in Genetics: TIG
https://www.readbyqxmd.com/read/28076974/topological-organization-of-whole-brain-white-matter-in-hiv-infection
#5
Laurie M Baker, Sarah Cooley, Ryan P Cabeen, David H Laidlaw, John A Joska, Jacqueline Hoare, Dan J Stein, Jodi Heaps-Woodruff, Lauren E Salminen, Robert H Paul
Infection with human immunodeficiency virus (HIV) is associated with neuroimaging alterations. However, little is known about the topological organization of whole-brain networks and the corresponding association with cognition. As such, we examined structural whole-brain white matter connectivity patterns and cognitive performance in 29 HIV+ young adults (mean age = 25.9) with limited or no HIV treatment history. HIV+ participants and demographically similar HIV- controls (n = 16) residing in South Africa underwent magnetic resonance imaging (MRI) and neuropsychological testing...
January 11, 2017: Brain Connectivity
https://www.readbyqxmd.com/read/28070687/predicting-chromatin-architecture-from-models-of-polymer-physics
#6
REVIEW
Simona Bianco, Andrea M Chiariello, Carlo Annunziatella, Andrea Esposito, Mario Nicodemi
We review the picture of chromatin large-scale 3D organization emerging from the analysis of Hi-C data and polymer modeling. In higher mammals, Hi-C contact maps reveal a complex higher-order organization, extending from the sub-Mb to chromosomal scales, hierarchically folded in a structure of domains-within-domains (metaTADs). The domain folding hierarchy is partially conserved throughout differentiation, and deeply correlated to epigenomic features. Rearrangements in the metaTAD topology relate to gene expression modifications: in particular, in neuronal differentiation models, topologically associated domains (TADs) tend to have coherent expression changes within architecturally conserved metaTAD niches...
January 9, 2017: Chromosome Research
https://www.readbyqxmd.com/read/28060840/an-isochore-framework-underlies-chromatin-architecture
#7
Kamel Jabbari, Giorgio Bernardi
A recent investigation showed the existence of correlations between the architectural features of mammalian interphase chromosomes and the compositional properties of isochores. This result prompted us to compare maps of the Topologically Associating Domains (TADs) and of the Lamina Associated Domains (LADs) with the corresponding isochore maps of mouse and human chromosomes. This approach revealed that: 1) TADs and LADs correspond to isochores, i.e., isochores are the genomic units that underlie chromatin domains; 2) the conservation of TADs and LADs in mammalian genomes is explained by the evolutionary conservation of isochores; 3) chromatin domains corresponding to GC-poor isochores (e...
2017: PloS One
https://www.readbyqxmd.com/read/28060558/the-connection-between-brg1-ctcf-and-topoisomerases-at-tad-boundaries
#8
A Rasim Barutcu, Jane B Lian, Janet L Stein, Gary S Stein, Anthony N Imbalzano
The eukaryotic genome is partitioned into topologically associating domains (TADs). Despite recent advances characterizing TADs and TAD boundaries, the organization of these structures is an important dimension of genome architecture and function that is not well understood. Recently, we demonstrated that knockdown of BRG1, an ATPase driving the chromatin remodeling activity of mammalian SWI/SNF enzymes, globally alters long-range genomic interactions and results in a reduction of TAD boundary strength. We provided evidence suggesting that this effect may be due to BRG1 affecting nucleosome occupancy around CTCF sites present at TAD boundaries...
January 6, 2017: Nucleus
https://www.readbyqxmd.com/read/28057745/reciprocal-insulation-analysis-of-hi-c-data-shows-that-tads-represent-a-functionally-but-not-structurally-privileged-scale-in-the-hierarchical-folding-of-chromosomes
#9
Yinxiu Zhan, Luca Mariani, Iros Barozzi, Edda G Schulz, Nils Bluthgen, Michael Stadler, Guido Tiana, Luca Giorgetti
Understanding how regulatory sequences interact in the context of chromosomal architecture is a central challenge in biology. Chromosome conformation capture revealed that mammalian chromosomes possess a rich hierarchy of structural layers, from multi-megabase compartments to sub-megabase topologically associating domains (TADs) and sub-TAD contact domains. TADs appear to act as regulatory microenvironments by constraining and segregating regulatory interactions across discrete chromosomal regions. However, it is unclear whether other (or all) folding layers share similar properties, or rather TADs constitute a privileged folding scale with maximal impact on the organization of regulatory interactions...
January 5, 2017: Genome Research
https://www.readbyqxmd.com/read/28056762/hic-bench-comprehensive-and-reproducible-hi-c-data-analysis-designed-for-parameter-exploration-and-benchmarking
#10
Charalampos Lazaris, Stephen Kelly, Panagiotis Ntziachristos, Iannis Aifantis, Aristotelis Tsirigos
BACKGROUND: Chromatin conformation capture techniques have evolved rapidly over the last few years and have provided new insights into genome organization at an unprecedented resolution. Analysis of Hi-C data is complex and computationally intensive involving multiple tasks and requiring robust quality assessment. This has led to the development of several tools and methods for processing Hi-C data. However, most of the existing tools do not cover all aspects of the analysis and only offer few quality assessment options...
January 5, 2017: BMC Genomics
https://www.readbyqxmd.com/read/28018208/global-efficiency-of-structural-networks-mediates-cognitive-control-in-mild-cognitive-impairment
#11
Rok Berlot, Claudia Metzler-Baddeley, M Arfan Ikram, Derek K Jones, Michael J O'Sullivan
Background: Cognitive control has been linked to both the microstructure of individual tracts and the structure of whole-brain networks, but their relative contributions in health and disease remain unclear. Objective: To determine the contribution of both localized white matter tract damage and disruption of global network architecture to cognitive control, in older age and Mild Cognitive Impairment (MCI). Materials and Methods: Twenty-five patients with MCI and 20 age, sex, and intelligence-matched healthy volunteers were investigated with 3 Tesla structural magnetic resonance imaging (MRI)...
2016: Frontiers in Aging Neuroscience
https://www.readbyqxmd.com/read/27974201/functional-mutations-form-at-ctcf-cohesin-binding-sites-in-melanoma-due-to-uneven-nucleotide-excision-repair-across-the-motif
#12
Rebecca C Poulos, Julie A I Thoms, Yi Fang Guan, Ashwin Unnikrishnan, John E Pimanda, Jason W H Wong
CTCF binding sites are frequently mutated in cancer, but how these mutations accumulate and whether they broadly perturb CTCF binding are not well understood. Here, we report that skin cancers exhibit a highly specific asymmetric mutation pattern within CTCF motifs attributable to ultraviolet irradiation and differential nucleotide excision repair (NER). CTCF binding site mutations form independently of replication timing and are enriched at sites of CTCF/cohesin complex binding, suggesting a role for cohesin in stabilizing CTCF-DNA binding and impairing NER...
December 13, 2016: Cell Reports
https://www.readbyqxmd.com/read/27973779/concatemers-of-outer-membrane-protein-a-take-detours-in-the-folding-landscape
#13
Kell K Andersen, Brian Vad, Sahar Omer, Daniel E Otzen
Outer membrane protein A (OmpA) is the most abundant protein in the outer membrane of Escherichia coli. The N-terminal domain forms an eight-stranded membrane-embedded β-barrel that is widely used as a model protein for in vitro folding into the membrane and into surfactant micelles. Under conditions that include a low surfactant concentration, OmpA can form stable higher-order structures by intermolecular association. Other β-barrel membrane proteins also associate to form noncovalently linked trimers in vivo...
December 27, 2016: Biochemistry
https://www.readbyqxmd.com/read/27942090/pathfinder-visual-analysis-of-paths-in-graphs
#14
C Partl, S Gratzl, M Streit, A M Wassermann, H Pfister, D Schmalstieg, A Lex
The analysis of paths in graphs is highly relevant in many domains. Typically, path-related tasks are performed in node-link layouts. Unfortunately, graph layouts often do not scale to the size of many real world networks. Also, many networks are multivariate, i.e., contain rich attribute sets associated with the nodes and edges. These attributes are often critical in judging paths, but directly visualizing attributes in a graph layout exacerbates the scalability problem. In this paper, we present visual analysis solutions dedicated to path-related tasks in large and highly multivariate graphs...
June 2016: Computer Graphics Forum: Journal of the European Association for Computer Graphics
https://www.readbyqxmd.com/read/27940490/exploiting-native-forces-to-capture-chromosome-conformation-in-mammalian-cell-nuclei
#15
Lilija Brant, Theodore Georgomanolis, Milos Nikolic, Chris A Brackley, Petros Kolovos, Wilfred van Ijcken, Frank G Grosveld, Davide Marenduzzo, Argyris Papantonis
Mammalian interphase chromosomes fold into a multitude of loops to fit the confines of cell nuclei, and looping is tightly linked to regulated function. Chromosome conformation capture (3C) technology has significantly advanced our understanding of this structure-to-function relationship. However, all 3C-based methods rely on chemical cross-linking to stabilize spatial interactions. This step remains a "black box" as regards the biases it may introduce, and some discrepancies between microscopy and 3C studies have now been reported...
December 9, 2016: Molecular Systems Biology
https://www.readbyqxmd.com/read/27936932/disruption-of-the-3d-cancer-genome-blueprint
#16
Joanna Achinger-Kawecka, Susan J Clark
Recent advances in chromosome conformation capture technologies are improving the current appreciation of how 3D genome architecture affects its function in different cell types and disease. Long-range chromatin interactions are organized into topologically associated domains, which are known to play a role in constraining gene expression patterns. However, in cancer cells there are alterations in the 3D genome structure, which impacts on gene regulation. Disruption of topologically associated domains architecture can result in alterations in chromatin interactions that bring new regulatory elements and genes together, leading to altered expression of oncogenes and tumor suppressor genes...
December 12, 2016: Epigenomics
https://www.readbyqxmd.com/read/27927196/the-topology-structure-and-pe-interaction-of-litaf-underpin-a-charcot-marie-tooth-disease-type-1c
#17
Anita K Ho, Jane L Wagstaff, Paul T Manna, Lena Wartosch, Seema Qamar, Elspeth F Garman, Stefan M V Freund, Rhys C Roberts
BACKGROUND: Mutations in Lipopolysaccharide-induced tumour necrosis factor-α factor (LITAF) cause the autosomal dominant inherited peripheral neuropathy, Charcot-Marie-Tooth disease type 1C (CMT1C). LITAF encodes a 17 kDa protein containing an N-terminal proline-rich region followed by an evolutionarily-conserved C-terminal 'LITAF domain', which contains all reported CMT1C-associated pathogenic mutations. RESULTS: Here, we report the first structural characterisation of LITAF using biochemical, cell biological, biophysical and NMR spectroscopic approaches...
December 7, 2016: BMC Biology
https://www.readbyqxmd.com/read/27919068/capturing-pairwise-and-multi-way-chromosomal-conformations-using-chromosomal-walks
#18
Pedro Olivares-Chauvet, Zohar Mukamel, Aviezer Lifshitz, Omer Schwartzman, Noa Oded Elkayam, Yaniv Lubling, Gintaras Deikus, Robert P Sebra, Amos Tanay
Chromosomes are folded into highly compacted structures to accommodate physical constraints within nuclei and to regulate access to genomic information. Recently, global mapping of pairwise contacts showed that loops anchoring topological domains (TADs) are highly conserved between cell types and species. Whether pairwise loops synergize to form higher-order structures is still unclear. Here we develop a conformation capture assay to study higher-order organization using chromosomal walks (C-walks) that link multiple genomic loci together into proximity chains in human and mouse cells...
December 8, 2016: Nature
https://www.readbyqxmd.com/read/27917893/new-insights-into-molecular-organization-of-human-neuraminidase-1-transmembrane-topology-and-dimerization-ability
#19
Pascal Maurice, Stéphanie Baud, Olga V Bocharova, Eduard V Bocharov, Andrey S Kuznetsov, Charlotte Kawecki, Olivier Bocquet, Beatrice Romier, Laetitia Gorisse, Maxime Ghirardi, Laurent Duca, Sébastien Blaise, Laurent Martiny, Manuel Dauchez, Roman G Efremov, Laurent Debelle
Neuraminidase 1 (NEU1) is a lysosomal sialidase catalyzing the removal of terminal sialic acids from sialyloconjugates. A plasma membrane-bound NEU1 modulating a plethora of receptors by desialylation, has been consistently documented from the last ten years. Despite a growing interest of the scientific community to NEU1, its membrane organization is not understood and current structural and biochemical data cannot account for such membrane localization. By combining molecular biology and biochemical analyses with structural biophysics and computational approaches, we identified here two regions in human NEU1 - segments 139-159 (TM1) and 316-333 (TM2) - as potential transmembrane (TM) domains...
December 5, 2016: Scientific Reports
https://www.readbyqxmd.com/read/27917292/deep-resequencing-of-cftr-in-762-f508del-homozygotes-reveals-clusters-of-non-coding-variants-associated-with-cystic-fibrosis-disease-traits
#20
Briana Vecchio-Pagán, Scott M Blackman, Melissa Lee, Melis Atalar, Matthew J Pellicore, Rhonda G Pace, Arianna L Franca, Karen S Raraigh, Neeraj Sharma, Michael R Knowles, Garry R Cutting
Extensive phenotypic variability is commonly observed in individuals with Mendelian disorders, even among those with identical genotypes in the disease-causing gene. To determine whether variants within and surrounding CFTR contribute to phenotypic variability in cystic fibrosis (CF), we performed deep sequencing of CFTR in 762 patients homozygous for the common CF-causing variant, F508del. In phase 1, ~200 kb encompassing CFTR and extending 10 kb 5' and 5 kb 3' of the gene was sequenced in 486 F508del homozygotes selected from the extremes of sweat chloride concentration...
2016: Human Genome Variation
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