DNA methylation in insects: on the brink of the epigenomic era.
about
The complexity of epigenetic diseasesPatterns of DNA methylation in animals: an ecotoxicological perspectiveWhat do studies of insect polyphenisms tell us about nutritionally-triggered epigenomic changes and their consequences?Deposition of histone variant H2A.Z within gene bodies regulates responsive genesLarge-scale transcriptome analysis of retroelements in the migratory locust, Locusta migratoriaThe draft genome of a socially polymorphic halictid bee, Lasioglossum albipes.Biological invasions, climate change and genomics.Patterns of DNA methylation in development, division of labor and hybridization in an ant with genetic caste determination.MeDIP-seq and nCpG analyses illuminate sexually dimorphic methylation of gonadal development genes with high historic methylation in turtle hatchlings with temperature-dependent sex determinationAnt genomics sheds light on the molecular regulation of social organizationThe dynamic DNA methylation cycle from egg to sperm in the honey bee Apis mellifera.The evolution of genomic imprinting: theories, predictions and empirical tests.Evidence for widespread genomic methylation in the migratory locust, Locusta migratoria (Orthoptera: Acrididae).Maternal effects on male weaponry: female dung beetles produce major sons with longer horns when they perceive higher population densityMolecular traces of alternative social organization in a termite genome.Genomic basis of ecological niche divergence among cryptic sister species of non-biting midges.Infection with a Virulent Strain of Wolbachia Disrupts Genome Wide-Patterns of Cytosine Methylation in the Mosquito Aedes aegypti.Modelling mutational and selection pressures on dinucleotides in eukaryotic phyla--selection against CpG and UpA in cytoplasmically expressed RNA and in RNA virusesConstruction and characterization of normalized cDNA libraries by 454 pyrosequencing and estimation of DNA methylation levels in three distantly related termite species.Function and evolution of DNA methylation in Nasonia vitripennis.Uncovering the novel characteristics of Asian honey bee, Apis cerana, by whole genome sequencingEpigenetics as an answer to Darwin's "special difficulty," Part 2: natural selection of metastable epialleles in honeybee castes.DNA methylation and chromatin organization in insects: insights from the Ant Camponotus floridanus.The genome of Diuraphis noxia, a global aphid pest of small grains.Single Base-Resolution Methylome of the Dizygotic Sheep.Analysis of DNA Methylation and Hydroxymethylation in the Genome of Crustacean Daphnia pulex.Epigenetics in social insects: a new direction for understanding the evolution of castes.Epigenetic mechanisms underlying developmental plasticity in horned beetlesParent-of-origin effects on genome-wide DNA methylation in the Cape honey bee (Apis mellifera capensis) may be confounded by allele-specific methylation.Transcriptome Analysis of an Insecticide Resistant Housefly Strain: Insights about SNPs and Regulatory Elements in Cytochrome P450 Genes.The right tools for the job: Regulating polyphenic morph development in insectsEffects of DNA Methylation and Chromatin State on Rates of Molecular Evolution in InsectsConstraints on the evolution of phenotypic plasticity: limits and costs of phenotype and plasticity.Patterning and regulatory associations of DNA methylation are mirrored by histone modifications in insects5-methyl-cytosine and 5-hydroxy-methyl-cytosine in the genome of Biomphalaria glabrata, a snail intermediate host of Schistosoma mansoni.DNA methylation as a mechanism of nutritional plasticity: limited support from horned beetlesSocial insect genomes exhibit dramatic evolution in gene composition and regulation while preserving regulatory features linked to sociality.CpG dinucleotide frequencies reveal the role of host methylation capabilities in parvovirus evolution.Robust DNA Methylation in the Clonal Raider Ant Brain.The Functionality of Minimal PiggyBac Transposons in Mammalian Cells.
P2860
Q26784416-AFBFE7BF-82A7-4046-A7BD-007AF707C0DBQ27028086-63D7E5B5-FF38-4CC2-8524-211F3874E81BQ28082781-6C124917-4C8C-41A8-B2E1-3FC065E9CA97Q28484353-BFB73617-42B3-45D9-BAA3-984127DAF0D6Q28727429-6263F65F-0B89-476F-AAA1-C64277ADE23FQ30436441-D08CE1AC-95EC-49B1-9CBC-A09C9AF1C44CQ30890746-3787681E-8AC5-481D-94ED-0E43A6AB736DQ31083426-7E0CF1D5-D322-4D7B-95AA-A60595C33F1AQ33709275-83A90108-9F08-42E3-8556-F306366B2392Q33741924-5EEB8F43-D660-4509-9DA5-B2C0611AFC5DQ33796261-84D8BCD1-F23D-4263-B0FF-840279D028F1Q33927882-7944723B-4FF9-49BA-8955-08DBB4F1EFB5Q34097797-A397CADD-DDEF-4DC1-AC3B-659E47F34840Q34347968-CC8C8C7F-C216-4A58-82D3-009B85BEF125Q34420771-90B3E1FD-9A82-4EB9-BEDA-46529723149FQ34768275-3BF964CA-F4FF-4A6B-BD36-B760F41F8111Q34805554-C9B4E7BE-D4CE-45B1-B8CE-62B975649827Q34982966-C493F1BA-513C-4569-9229-DB4C370945E3Q35010366-AD70FC08-190D-441B-8E41-A68FAC1521ECQ35018130-10B52373-9143-494A-B545-BF76C13B038DQ35079346-D167DCFC-C313-4334-9A0E-DB6AD88863F4Q35115421-F9AABB88-BEC2-4588-8ACA-B83484572CA7Q35569780-F616DC20-FBD0-4F2B-89F2-4916F39EFBA1Q35653214-7E4D59A8-0592-4538-9DB9-DA0B99FB4DB0Q35832334-DC4D6379-2B93-4B9D-919E-77F091CF5558Q35884709-1937857B-C646-4C2A-8F98-83FEB54D5B96Q35910198-E094E68C-8998-45E2-825A-4C004993F0BCQ35910463-ACD61F93-EC64-4ADA-A064-B6B13786BB64Q35954806-6B206EE8-3580-43DA-BBD1-C7C8E424B62DQ35971540-8C28FD86-778E-4A58-8F72-07213C5887F6Q36353784-1B5259DF-1FAE-46D6-9D96-E911A0EAE2D4Q36574548-A058251E-EA00-445D-8ED2-A4E5155D75DAQ36749807-CE0DA4E5-2DDA-4E3F-95ED-413571FF81D6Q36754746-BD4D8C11-1999-42D5-87C4-85E294D498ADQ36926545-CF1EE077-C9AE-4FA8-AEC8-5777A7FF8DEEQ37003239-B63077B2-4A00-4F66-9D7A-6E36F5FF8FE6Q37061166-3AD571A8-3470-4BF0-9F2B-37E84FAA4EABQ37336773-3DF6846D-DFA0-4959-9FD8-811EA4CD6719Q37344745-FCBCF61A-F0E0-454E-909D-703AAB2E1AA6Q37393970-FB18D20F-66A9-475A-8B5F-8282E2080B61
P2860
DNA methylation in insects: on the brink of the epigenomic era.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 24 June 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
DNA methylation in insects: on the brink of the epigenomic era.
@en
DNA methylation in insects: on the brink of the epigenomic era.
@nl
type
label
DNA methylation in insects: on the brink of the epigenomic era.
@en
DNA methylation in insects: on the brink of the epigenomic era.
@nl
altLabel
DNA methylation in insects: on the brink of the epigenomic era
@en
prefLabel
DNA methylation in insects: on the brink of the epigenomic era.
@en
DNA methylation in insects: on the brink of the epigenomic era.
@nl
P2093
P2860
P1476
DNA methylation in insects: on the brink of the epigenomic era.
@en
P2093
K M Glastad
M A D Goodisman
P2860
P304
P356
10.1111/J.1365-2583.2011.01092.X
P50
P577
2011-06-24T00:00:00Z