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Epigenetic regulation of chromosome

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https://www.readbyqxmd.com/read/28332632/loss-of-chromosome-y-leads-to-down-regulation-of-kdm5d-and-kdm6c-epigenetic-modifiers-in-clear-cell-renal-cell-carcinoma
#1
Madeleine Arseneault, Jean Monlong, Naveen S Vasudev, Ruhina S Laskar, Maryam Safisamghabadi, Patricia Harnden, Lars Egevad, Nazanin Nourbehesht, Pudchalaluck Panichnantakul, Ivana Holcatova, Antonin Brisuda, Vladimir Janout, Helena Kollarova, Lenka Foretova, Marie Navratilova, Dana Mates, Viorel Jinga, David Zaridze, Anush Mukeria, Pouria Jandaghi, Paul Brennan, Alvis Brazma, Jorg Tost, Ghislaine Scelo, Rosamonde E Banks, Mark Lathrop, Guillaume Bourque, Yasser Riazalhosseini
Recent genomic studies of sporadic clear cell renal cell carcinoma (ccRCC) have uncovered novel driver genes and pathways. Given the unequal incidence rates among men and women (male:female incidence ratio approaches 2:1), we compared the genome-wide distribution of the chromosomal abnormalities in both sexes. We observed a higher frequency for the somatic recurrent chromosomal copy number variations (CNVs) of autosomes in male subjects, whereas somatic loss of chromosome X was detected exclusively in female patients (17...
March 23, 2017: Scientific Reports
https://www.readbyqxmd.com/read/28320934/allele-specific-non-cg-dna-methylation-marks-domains-of-active-chromatin-in-female-mouse-brain
#2
Christopher L Keown, Joel B Berletch, Rosa Castanon, Joseph R Nery, Christine M Disteche, Joseph R Ecker, Eran A Mukamel
DNA methylation at gene promoters in a CG context is associated with transcriptional repression, including at genes silenced on the inactive X chromosome in females. Non-CG methylation (mCH) is a distinct feature of the neuronal epigenome that is differentially distributed between males and females on the X chromosome. However, little is known about differences in mCH on the active (Xa) and inactive (Xi) X chromosomes because stochastic X-chromosome inactivation (XCI) confounds allele-specific epigenomic profiling...
March 20, 2017: Proceedings of the National Academy of Sciences of the United States of America
https://www.readbyqxmd.com/read/28319137/the-h3k27-demethylase-utx-regulates-adipogenesis-in-a-differentiation-stage-dependent-manner
#3
Kazushige Ota, Kit I Tong, Kouichiro Goto, Shuta Tomida, Akiyoshi Komuro, Zhong Wang, Kazuto Nishio, Hitoshi Okada
Understanding the molecular mechanisms that drive adipogenesis is important in developing new treatments for obesity and diabetes. Epigenetic regulations determine the capacity of adipogenesis. In this study, we examined the role of a histone H3 lysine 27 demethylase, the ubiquitously transcribed tetratricopeptide repeat protein on the X chromosome (Utx), in the differentiation of mouse embryonic stem cells (mESCs) to adipocytes. Using gene trapping, we examined Utx-deficient male mESCs to determine whether loss of Utx would enhance or inhibit the differentiation of mESCs to adipocytes...
2017: PloS One
https://www.readbyqxmd.com/read/28318385/arsenic-induced-sumoylation-of-mus81-is-involved-in-regulating-genomic-stability
#4
Liyan Hu, Feikun Yang, Lou Lu, Wei Dai
Chronic environmental exposure to metal toxicants such as chromium and arsenic is closely related to the development of several types of common cancers. Genetic and epigenetic studies in the past decade reveal that post-translational modifications of histones play a role in metal carcinogenesis. However, exact molecular mechanisms of metal carcinogenesis remain to be elucidated. In this study we found that As2O3, an environmental metal toxicant, up-regulated overall modifications of many cellular proteins by SUMO2/3...
March 20, 2017: Cell Cycle
https://www.readbyqxmd.com/read/28315662/insights-into-the-establishment-of-chromatin-states-in-pluripotent-cells-from-studies-of-x-inactivation
#5
REVIEW
Andreas Postlmayr, Anton Wutz
Animal development entails the sequential and coordinated specialisation of cells. During cell differentiation transcription factors, cell signalling pathways and chromatin associated protein complexes cooperate in regulating the expression of a large number of genes. Here we review the present understanding of the establishment of chromatin states by focusing on X chromosome inactivation (XCI) as a model for facultative heterochromatin formation in female embryonic cells. The inactive X chromosome (Xi) is large enough to be investigated by biochenical and microscopy techniques...
March 15, 2017: Journal of Molecular Biology
https://www.readbyqxmd.com/read/28306719/chromosome-19q13-disruption-alters-expressions-of-cyp2a7-mia-and-mia-rab4b-lncrna-and-contributes-to-fap-like-phenotype-in-apc-mutation-negative-familial-colorectal-cancer-patients
#6
Lai Fun Thean, Yu Hui Wong, Michelle Lo, Carol Loi, Min Hoe Chew, Choong Leong Tang, Peh Yean Cheah
Familial adenomatous polyposis (FAP) is an autosomal-dominantly inherited form of colorectal cancer (CRC) caused by mutation in the adenomatous polyposis coli (APC) gene. Our ability to exhaustively screen for APC mutations identify microsatellite-stable and APC-mutation negative familial CRC patients, enabling us to search for novel genes. We performed genome-wide scan on two affected siblings of one family and 88 ethnicity- and gender-matched healthy controls to identify deletions shared by the siblings. Combined loss of heterozygosity, copy number and allelic-specific copy number analysis uncovered 5 shared deletions...
2017: PloS One
https://www.readbyqxmd.com/read/28303495/genetic-landscape-and-classification-of-peripheral-t-cell-lymphomas
#7
REVIEW
Rosalind F Sandell, Rebecca L Boddicker, Andrew L Feldman
PURPOSE OF REVIEW: Peripheral T cell lymphomas (PTCLs) are markedly heterogeneous at the clinical, pathological, and molecular levels. This review will discuss genetic findings in PTCL with special emphasis on how they impact lymphoma classification. RECENT FINDINGS: Sequencing studies have identified recurrent genetic alterations in nearly every PTCL subtype. In anaplastic large cell lymphoma, these studies have revealed novel chromosomal rearrangements and mutations that have prognostic significance and may suggest new therapeutic approaches...
April 2017: Current Oncology Reports
https://www.readbyqxmd.com/read/28302915/sex-differences-in-ischaemic-stroke-potential-cellular-mechanisms
#8
REVIEW
Anjali Chauhan, Hope Moser, Louise D McCullough
Stroke remains a leading cause of mortality and disability worldwide. More women than men have strokes each year, in part because women live longer. Women have poorer functional outcomes, are more likely to need nursing home care and have higher rates of recurrent stroke compared with men. Despite continued advancements in primary prevention, innovative acute therapies and ongoing developments in neurorehabilitation, stroke incidence and mortality continue to increase due to the aging of the U.S. POPULATION: Sex chromosomes (XX compared with XY), sex hormones (oestrogen and androgen), epigenetic regulation and environmental factors all contribute to sex differences...
April 1, 2017: Clinical Science (1979-)
https://www.readbyqxmd.com/read/28293299/identification-of-epigenetic-signature-associated-with-alpha-thalassemia-mental-retardation-x-linked-syndrome
#9
Laila C Schenkel, Kristin D Kernohan, Arran McBride, Ditta Reina, Amanda Hodge, Peter J Ainsworth, David I Rodenhiser, Guillaume Pare, Nathalie G Bérubé, Cindy Skinner, Kym M Boycott, Charles Schwartz, Bekim Sadikovic
BACKGROUND: Alpha thalassemia/mental retardation X-linked syndrome (ATR-X) is caused by a mutation at the chromatin regulator gene ATRX. The mechanisms involved in the ATR-X pathology are not completely understood, but may involve epigenetic modifications. ATRX has been linked to the regulation of histone H3 and DNA methylation, while mutations in the ATRX gene may lead to the downstream epigenetic and transcriptional effects. Elucidating the underlying epigenetic mechanisms altered in ATR-X will provide a better understanding about the pathobiology of this disease, as well as provide novel diagnostic biomarkers...
2017: Epigenetics & Chromatin
https://www.readbyqxmd.com/read/28286735/mitotic-phosphorylation-of-ccctc-binding-factor-ctcf-reduces-its-dna-binding-activity
#10
Takeshi Sekiya, Kensaku Murano, Kohsuke Kato, Atsushi Kawaguchi, Kyosuke Nagata
During mitosis, higher order chromatin structures are disrupted and chromosomes are condensed to achieve accurate chromosome segregation. CCCTC-binding factor (CTCF) is a highly conserved and ubiquitously expressed C2H2-type zinc finger protein which is considered to be involved in epigenetic memory through regulation of higher order chromatin architecture. However, the regulatory mechanism of CTCF in mitosis is still unclear. Here we found that the DNA-binding activity of CTCF is regulated in a phosphorylation-dependent manner during mitosis...
March 2017: FEBS Open Bio
https://www.readbyqxmd.com/read/28283040/functional-variation-in-allelic-methylomes-underscores-a-strong-genetic-contribution-and-reveals-novel-epigenetic-alterations-in-the-human-epigenome
#11
Warren A Cheung, Xiaojian Shao, Andréanne Morin, Valérie Siroux, Tony Kwan, Bing Ge, Dylan Aïssi, Lu Chen, Louella Vasquez, Fiona Allum, Frédéric Guénard, Emmanuelle Bouzigon, Marie-Michelle Simon, Elodie Boulier, Adriana Redensek, Stephen Watt, Avik Datta, Laura Clarke, Paul Flicek, Daniel Mead, Dirk S Paul, Stephan Beck, Guillaume Bourque, Mark Lathrop, André Tchernof, Marie-Claude Vohl, Florence Demenais, Isabelle Pin, Kate Downes, Hendrick G Stunnenberg, Nicole Soranzo, Tomi Pastinen, Elin Grundberg
BACKGROUND: The functional impact of genetic variation has been extensively surveyed, revealing that genetic changes correlated to phenotypes lie mostly in non-coding genomic regions. Studies have linked allele-specific genetic changes to gene expression, DNA methylation, and histone marks but these investigations have only been carried out in a limited set of samples. RESULTS: We describe a large-scale coordinated study of allelic and non-allelic effects on DNA methylation, histone mark deposition, and gene expression, detecting the interrelations between epigenetic and functional features at unprecedented resolution...
March 10, 2017: Genome Biology
https://www.readbyqxmd.com/read/28275209/concerted-flexibility-of-chromatin-structure-methylome-and-histone-modifications-along-with-plant-stress-responses
#12
REVIEW
Ana Paula Santos, Liliana J Ferreira, M Margarida Oliveira
The spatial organization of chromosome structure within the interphase nucleus, as well as the patterns of methylome and histone modifications, represent intersecting layers that influence genome accessibility and function. This review is focused on the plastic nature of chromatin structure and epigenetic marks in association to stress situations. The use of chemical compounds (epigenetic drugs) or T-DNA-mediated mutagenesis affecting epigenetic regulators (epi-mutants) are discussed as being important tools for studying the impact of deregulated epigenetic backgrounds on gene function and phenotype...
January 16, 2017: Biology
https://www.readbyqxmd.com/read/28261228/characterization-of-the-two-speed-subgenomes-of-fusarium-graminearum-reveals-the-fast-speed-subgenome-specialized-for-adaption-and-infection
#13
Qinhu Wang, Cong Jiang, Chenfang Wang, Changjun Chen, Jin-Rong Xu, Huiquan Liu
Fusarium head blight, caused by Fusarium graminearum, is one of the most severe diseases on wheat and barley worldwide. Although the genomic data of several strains were published, the intragenomic variation of F. graminearum was not well characterized. Here, we sequenced three Chinese strains and conducted genome-wide comparisons. Our data revealed that all the sequenced strains were distinct from each other and over 350 genes were functionally lost in each of them. Variants of each strain were unevenly distributed in a highly conserved pattern along the chromosomes, resulting in a conserved two-speed genome...
2017: Frontiers in Plant Science
https://www.readbyqxmd.com/read/28251969/-methylation-of-the-genes-for-the-micrornas-mir-129-2-and-mir-9-1-changes-in-their-expression-and-activation-of-their-potential-target-genes-in-clear-cell-renal-cell-carcinoma
#14
I V Pronina, E A Klimov, A M Burdennyy, E V Beresneva, M V Fridman, V D Ermilova, T P Kazubskaya, A V Karpukhin, E A Braga, V I Loginov
Methylation of promoter CpG islands and microRNA (miRNA) interactions with mRNAs of target genes are epigenetic mechanisms that play a crucial role in deregulation of gene expression and signaling pathways in tumors. Altered expression of six chromosome 3p genes (RARB(2), SEMA3B, RHOA, GPX1, NKIRAS1, and CHL1) and two miRNA genes (MIR-129-2 and MIR-9-1) was observed in primary clear cell renal cell carcinomas (ccRCCs, 31-48 samples) by RT-PCR and qPCR. Significant downregulation (p < 0.05, Fisher's exact test) was observed for SEMA3B, NKIRAS1, and CHL1; and differential expression, for the other chromosome 3p and miRNA genes...
January 2017: Molekuliarnaia Biologiia
https://www.readbyqxmd.com/read/28249646/chromosomal-abnormalities-and-molecular-landscape-of-metastasizing-mucinous-salivary-adenocarcinoma
#15
Alex Panaccione, Yi Zhang, Yanfang Mi, Yoshitsugu Mitani, Guo Yan, Manju L Prasad, W Hayes McDonald, Adel K El-Naggar, Wendell G Yarbrough, Sergey V Ivanov
BACKGROUND: Mucinous adenocarcinoma of the salivary gland (MAC) is a lethal cancer with unknown molecular etiology and a high propensity to lymph node metastasis. Mostly due to its orphan status, MAC remains one of the least explored cancers that lacks cell lines and mouse models that could help translational and pre-clinical studies. Surgery with or without radiation remains the only treatment modality but poor overall survival (10-year, 44%) underscores the urgent need for mechanism-based therapies...
March 2017: Oral Oncology
https://www.readbyqxmd.com/read/28247044/role-of-chromatin-modifications-in-drosophila-germline-stem-cell-differentiation
#16
Pooja Flora, Alicia McCarthy, Maitreyi Upadhyay, Prashanth Rangan
During Drosophila oogenesis, germline stem cells (GSCs) self-renew and differentiate to give rise to a mature egg. Self-renewal and differentiation of GSCs are regulated by both intrinsic mechanisms such as regulation of gene expression in the germ line and extrinsic signaling pathways from the surrounding somatic niche. Epigenetic mechanisms, including histone-modifying proteins, nucleosome remodeling complexes, and histone variants, play a critical role in regulating intrinsic gene expression and extrinsic signaling cues from the somatic niche...
2017: Results and Problems in Cell Differentiation
https://www.readbyqxmd.com/read/28236732/x-chromosome-inactivation-silencing-topology-and-reactivation
#17
REVIEW
Teresa Robert Finestra, Joost Gribnau
To ensure X-linked gene dosage compensation between females (XX) and males (XY), one X chromosome undergoes X chromosome inactivation (XCI) in female cells. This process is tightly regulated throughout development by many different factors, with Xist as a key regulator, encoding a long non-coding RNA, involved in establishment of several layers of repressive epigenetic modifications. Several recent studies on XCI focusing on identification and characterization of Xist RNA-protein interactors, revealed new factors involved in gene silencing, genome topology and nuclear membrane attachment, amongst others...
February 21, 2017: Current Opinion in Cell Biology
https://www.readbyqxmd.com/read/28182971/wheat-paleohistory-created-asymmetrical-genomic-evolution
#18
REVIEW
Caroline Pont, Jérôme Salse
Following the triplication reported in Brassiceae ∼10million years ago, and at the basis of rosids ∼100million years ago, bias in organization and regulation, known as subgenome dominance, has been reported between the three post-polyploidy compartments referenced to as less fractionated (LF), medium fractionated (MF1) and more fractionated (MF2), that have been proposed to derive from an hexaploidization event involving ancestors of 7-14-21 chromosomes. Modern bread wheat experienced similar paleohistory during the last half million year of evolution opening a new hypothesis where the wheat genome is at the earliest stages on the road of diploidization through subgenome dominance driving asymmetry in gene content, gene expression abundance, transposable element content as dynamics and epigenetic control between the A, B and D subgenomes...
February 6, 2017: Current Opinion in Plant Biology
https://www.readbyqxmd.com/read/28178526/crl4-dcaf8-ubiquitin-ligase-targets-histone-h3k79-and-promotes-h3k9-methylation-in-the-liver
#19
Gaofeng Li, Tong Ji, Jiang Chen, Yufei Fu, Lidan Hou, Yan Feng, Tingyue Zhang, Tianyu Song, Jie Zhao, Yoko Endo, Hui Lin, Xiujun Cai, Yong Cang
Transcription from chromosomes is regulated by posttranslational modifications to histones, such as methylation and ubiquitination. Monoubiquitination of histones H2A and H2B influences H3 methylation to reinforce the activation or repression of gene expression. Here, we provide evidence that H3 polyubiquitination represses transcription of fetal and cell-cycle genes in postnatal mouse liver by crosstalk with H3K9 methylation. We found that the CRL4 ubiquitin ligase targets H3 for polyubiquitination at K79 via the DCAF8 substrate receptor in hepatocytes...
February 7, 2017: Cell Reports
https://www.readbyqxmd.com/read/28177878/whole-genome-sequencing-identifies-new-genetic-alterations-in-meningiomas
#20
Mei Tang, Heng Wei, Lu Han, Jiaojiao Deng, Yuelong Wang, Meijia Yang, Yani Tang, Gang Guo, Liangxue Zhou, Aiping Tong
The major known genetic contributor to meningioma formation was NF2, which is disrupted by mutation or loss in about 50% of tumors. Besides NF2, several recurrent driver mutations were recently uncovered through next-generation sequencing. Here, we performed whole-genome sequencing across 7 tumor-normal pairs to identify somatic genetic alterations in meningioma. As a result, Chromatin regulators, including multiple histone members, histone-modifying enzymes and several epigenetic regulators, are the major category among all of the identified copy number variants and single nucleotide variants...
February 3, 2017: Oncotarget
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