| Q24651226 | A Bayesian deconvolution strategy for immunoprecipitation-based DNA methylome analysis |
| Q34909016 | A genome-wide screen for modifiers of transgene variegation identifies genes with critical roles in development |
| Q38937329 | A guide to designing germline-dependent epigenetic inheritance experiments in mammals |
| Q24600673 | A longitudinal study of epigenetic variation in twins |
| Q33996152 | A model for transgenerational imprinting variation in complex traits |
| Q50799531 | A multi-tissue analysis identifies HLA complex group 9 gene methylation differences in bipolar disorder |
| Q55221453 | A role for epigenetic inheritance in modern evolutionary theory? A comment in response to Dickins and Rahman. |
| Q36740162 | A simple algorithm for quantifying DNA methylation levels on multiple independent CpG sites in bisulfite genomic sequencing electropherograms |
| Q34713637 | A twin approach to unraveling epigenetics |
| Q35575944 | A unique configuration of genome-wide DNA methylation patterns in the testis. |
| Q51579160 | Activation and transposition of endogenous retroviral elements in hypomethylation induced tumors in mice. |
| Q26829515 | Active DNA demethylation in post-mitotic neurons: a reason for optimism |
| Q38159699 | Adaptation or malignant transformation: the two faces of epigenetically mediated response to stress |
| Q28469213 | Allele-specific chromatin immunoprecipitation studies show genetic influence on chromatin state in human genome |
| Q33742092 | An ENU mutagenesis screen identifies novel and known genes involved in epigenetic processes in the mouse |
| Q33836232 | An N-ethyl-N-nitrosourea screen for genes involved in variegation in the mouse |
| Q35771036 | An equilibrium for phenotypic variance in fluctuating environments owing to epigenetics |
| Q34236638 | An unbiased assessment of the role of imprinted genes in an intergenerational model of developmental programming. |
| Q34184779 | Ancestral paternal genotype controls body weight and food intake for multiple generations |
| Q34016391 | Animal evolution during domestication: the domesticated fox as a model |
| Q33474817 | Assessing the impact of transgenerational epigenetic variation on complex traits |
| Q35766037 | Assisted reproduction treatment and epigenetic inheritance. |
| Q26824767 | Beyond genotype to phenotype: why the phenotype of an individual cannot always be predicted from their genome sequence and the environment that they experience |
| Q57267877 | Bioinformatics for High-Throughput Toxico-Epigenomics Studies |
| Q91655346 | Cardiovascular precision medicine: Bad news from the front? |
| Q28469247 | Changes in gene expression foreshadow diet-induced obesity in genetically identical mice |
| Q36492692 | Changing images of the gene |
| Q92335178 | Characterization and functional roles of paternal RNAs in 2-4 cell bovine embryos |
| Q30466805 | Child health, developmental plasticity, and epigenetic programming |
| Q33737454 | Chromatin Switches during Neural Cell Differentiation and Their Dysregulation by Prenatal Alcohol Exposure |
| Q37714146 | Chromatin as a potential carrier of heritable information |
| Q48788129 | Chromosome stability differs in cloned mouse embryos and derivative ES cells |
| Q37237796 | Commentary: Inheritance of acquired characteristics: eliminating alternatives in the search for mechanisms. Commentary on Galton F: Feasible experiments on the possibility of transmitting acquired habits by means of inheritance |
| Q34995362 | Comparative methylomics between domesticated and wild silkworms implies possible epigenetic influences on silkworm domestication |
| Q37619589 | Complex patterns of transcription at the insertion site of a retrotransposon in the mouse. |
| Q34370338 | Conserved themes in small-RNA-mediated transposon control |
| Q44025824 | Constitutional epimutation as a mechanism for cancer causality and heritability? |
| Q33813301 | Contribution of genetic variation to transgenerational inheritance of DNA methylation |
| Q36238540 | Control of development and transposon movement by DNA methylation in Arabidopsis thaliana |
| Q33741841 | Correlation of global and gene-specific DNA methylation in maternal-infant pairs |
| Q33530122 | CpG methylation of a silent controlling element in the murine Avy allele is incomplete and unresponsive to methyl donor supplementation |
| Q34031268 | Critical period of nonpromoter DNA methylation acquisition during prenatal male germ cell development |
| Q26776426 | DNA Methylation: Insights into Human Evolution |
| Q90213250 | DNA methylation analysis and editing in single mammalian oocytes |
| Q36297274 | DNA methylation and epigenetic inheritance during plant gametogenesis |
| Q48368889 | DNA methylation profiles in sibling pairs discordant for intrauterine exposure to maternal gestational diabetes |
| Q48797543 | DNA methylation regulates hypothalamic gene expression linking parental diet during pregnancy to the offspring's risk of obesity in Psammomys obesus |
| Q37440102 | DNA methylation, an epigenetic mechanism connecting folate to healthy embryonic development and aging |
| Q36500344 | DNMT3L enables accumulation and inheritance of epimutations in transgenic Drosophila |
| Q38762350 | Dad's Snoring May Have Left Molecular Scars in Your DNA: the Emerging Role of Epigenetics in Sleep Disorders |
| Q37088899 | De novo DNA methylation in the male germ line occurs by default but is excluded at sites of H3K4 methylation. |
| Q33463294 | Detection of transgenerational spermatogenic inheritance of adult male acquired CNS gene expression characteristics using a Drosophila systems model |
| Q91062756 | Developmental conditions modulate DNA methylation at the glucocorticoid receptor gene with cascading effects on expression and corticosterone levels in zebra finches |
| Q35154309 | Diabetic embryopathy: a role for the epigenome? |
| Q36232882 | Dnmt1 expression in pre- and postimplantation embryogenesis and the maintenance of IAP silencing |
| Q28085592 | Drinking beyond a lifetime: New and emerging insights into paternal alcohol exposure on subsequent generations |
| Q34660628 | Drosophila epigenome reorganization during oocyte differentiation and early embryogenesis |
| Q37830853 | Dynamic control of endogenous retroviruses during development. |
| Q33239374 | Dynamic reprogramming of DNA methylation at an epigenetically sensitive allele in mice |
| Q48453785 | Early life stress in fathers improves behavioural flexibility in their offspring |
| Q92484604 | Ectopic expression of the Stabilin2 gene triggered by an intracisternal A particle (IAP) element in DBA/2J strain of mice |
| Q38112247 | Effects of embryonic manipulation and epigenetics. |
| Q35159064 | Effects of endocrine disruptors on imprinted gene expression in the mouse embryo |
| Q28822036 | Effects of negative stressors on DNA methylation in the brain: implications for mood and anxiety disorders |
| Q52626857 | Endogenous retroviruses in mammals: an emerging picture of how ERVs modify expression of adjacent genes. |
| Q41982186 | Enhancement of psychotherapy using epigenetic modulating drugs |
| Q35103880 | Enriched environment-induced maternal weight loss reprograms metabolic gene expression in mouse offspring. |
| Q29547452 | Environmental epigenomics and disease susceptibility |
| Q33916441 | Environmental signals and transgenerational epigenetics. |
| Q24643547 | Environmental studies of schizophrenia through the prism of epigenetics |
| Q35910358 | Epigenetic Variation May Compensate for Decreased Genetic Variation with Introductions: A Case Study Using House Sparrows (Passer domesticus) on Two Continents |
| Q38554712 | Epigenetic alterations in sperm associated with male infertility |
| Q34569910 | Epigenetic control of CACTA transposon mobility in Arabidopsis thaliana |
| Q46601624 | Epigenetic divergence as a potential first step in darter speciation |
| Q28385417 | Epigenetic effects of endocrine-disrupting chemicals on female reproduction: an ovarian perspective |
| Q38226585 | Epigenetic effects of paternal diet on offspring: emphasis on obesity |
| Q26864455 | Epigenetic epidemiology: promises for public health research |
| Q37600686 | Epigenetic factors in aging and longevity |
| Q38646209 | Epigenetic germline inheritance in mammals: Looking to the past to understand the future |
| Q37696419 | Epigenetic influence of social experiences across the lifespan. |
| Q34950028 | Epigenetic inheritance during the cell cycle |
| Q38970274 | Epigenetic inheritance of acquired traits through sperm RNAs and sperm RNA modifications |
| Q36465813 | Epigenetic inheritance of disease and disease risk |
| Q48006641 | Epigenetic inheritance, prions and evolution |
| Q26830614 | Epigenetic inheritance: a contributor to species differentiation? |
| Q26781132 | Epigenetic marks: regulators of livestock phenotypes and conceivable sources of missing variation in livestock improvement programs |
| Q36310399 | Epigenetic mechanisms and gene networks in the nervous system. |
| Q37504694 | Epigenetic mechanisms that underpin metabolic and cardiovascular diseases |
| Q33751081 | Epigenetic reprogramming and imprinting in origins of disease |
| Q37865529 | Epigenetic screening in product safety assessment: are we there yet? |
| Q35833875 | Epigenetic understanding of gene-environment interactions in psychiatric disorders: a new concept of clinical genetics |
| Q39628147 | Epigenetic variation creates potential for evolution of plant phenotypic plasticity |
| Q38365358 | Epigenetics and depressive disorders: a review of current progress and future directions |
| Q37855659 | Epigenetics and its implications for ecotoxicology |
| Q24564861 | Epigenetics and its implications for plant biology 2. The 'epigenetic epiphany': epigenetics, evolution and beyond |
| Q28258498 | Epigenetics and its role in male infertility |
| Q34567418 | Epigenetics and phenotypic variation in mammals. |
| Q34288477 | Epigenetics and the origins of paternal effects |
| Q35603423 | Epigenetics and the renaissance of heresy |
| Q40153209 | Epigenetics for ecologists |
| Q64063505 | Epigenetics in Human Obesity and Type 2 Diabetes |
| Q44489210 | Epigenetics in ecology and evolution: what we know and what we need to know |
| Q36396596 | Epigenetics in natural animal populations |
| Q34323245 | Epigenetics in sports. |
| Q33810295 | Epigenetics meets endocrinology |
| Q37571067 | Epigenetics of endometriosis |
| Q47094452 | Epigenetics of sex determination in mammals |
| Q55041551 | Epigenetics: sins of the fathers, and their fathers. |
| Q64256189 | Epigenome-wide analysis of sperm cells identifies IL22 as a possible germ line risk locus for psoriatic arthritis |
| Q28710498 | Epigenome-wide association studies for common human diseases |
| Q34122043 | Epigenomic disruption: the effects of early developmental exposures |
| Q55649998 | Establishment of environmentally sensitive DNA methylation states in the very early human embryo. |
| Q33844476 | Evolution in health and medicine Sackler colloquium: Stochastic epigenetic variation as a driving force of development, evolutionary adaptation, and disease |
| Q37310303 | Evolution of stochastic switching rates in asymmetric fitness landscapes |
| Q28748156 | Evolutionary adaptation to high altitude: a view from in utero |
| Q37323239 | Evolutionary learning of adaptation to varying environments through a transgenerational feedback. |
| Q34940659 | Experimental evidence needed to demonstrate inter- and trans-generational effects of ancestral experiences in mammals |
| Q88391629 | Exploring the extent and scope of epigenetic inheritance |
| Q50867344 | Fluctuation and noise propagation in phenotypic transition cascades of clonal populations. |
| Q35903252 | Gadd45b and N-methyl-D-aspartate induced DNA demethylation in postmitotic neurons |
| Q33697209 | Gene expression in the placenta: maternal stress and epigenetic responses |
| Q28763660 | Gene function and expression level influence the insertion/fixation dynamics of distinct transposon families in mammalian introns |
| Q36366119 | Genetic and epigenetic variation among inbred mouse littermates: identification of inter-individual differentially methylated regions. |
| Q34556925 | Genetic or epigenetic difference causing discordance between monozygotic twins as a clue to molecular basis of mental disorders |
| Q36277190 | Genetically regulated epigenetic transcriptional activation of retrotransposon insertion confers mouse dactylaplasia phenotype |
| Q50603010 | Genetics of atopic eczema. An update |
| Q40113358 | Genome-wide analysis of cytosine DNA Methylation revealed salicylic acid promotes defense pathways over seedling development in pearl millet |
| Q33841575 | Genome-wide prediction of imprinted murine genes |
| Q35720918 | Germ-line epigenetic modification of the murine A vy allele by nutritional supplementation |
| Q37346208 | Germline epimutation in humans |
| Q28394929 | Growth arrest and DNA-damage-inducible, beta (GADD45b)-mediated DNA demethylation in major psychosis |
| Q36354859 | Guthrie card methylomics identifies temporally stable epialleles that are present at birth in humans |
| Q34150988 | Heritability of body weight: Moving beyond genetics |
| Q36177302 | Heritable DNA Methylation in CD4+ Cells among Complex Families Displays Genetic and Non-Genetic Effects |
| Q35941544 | Heritable epigenetic mutation of a transposon-flanked Arabidopsis gene due to lack of the chromatin-remodeling factor DDM1. |
| Q34085631 | Heritable epigenetic variation among maize inbreds |
| Q42095539 | How do mammalian transposons induce genetic variation? A conceptual framework: the age, structure, allele frequency, and genome context of transposable elements may define their wide-ranging biological impacts |
| Q36599267 | How lifetimes shape epigenotype within and across generations |
| Q37855333 | Human male infertility: a complex multifactorial phenotype. |
| Q24616225 | Hybrid vigor and transgenerational epigenetic effects on early mouse embryo phenotype |
| Q36835644 | Hypomethylation of ERVs in the sperm of mice haploinsufficient for the histone methyltransferase Setdb1 correlates with a paternal effect on phenotype. |
| Q42587636 | IAP display: a simple method to identify mouse strain specific IAP insertions |
| Q59125290 | Identification, Characterization, and Heritability of Murine Metastable Epialleles: Implications for Non-genetic Inheritance |
| Q36501334 | Impact of diets and nutrients/drugs on early epigenetic programming |
| Q34573453 | Imprinting capacity of gamete lineages in Caenorhabditis elegans |
| Q35041007 | In search of epigenetic marks in testes and sperm cells of differentially fed boars |
| Q35502732 | In utero effects. In utero undernourishment perturbs the adult sperm methylome and intergenerational metabolism |
| Q36890824 | In utero supplementation with methyl donors enhances allergic airway disease in mice |
| Q34658381 | Increased DNA methylation at the AXIN1 gene in a monozygotic twin from a pair discordant for a caudal duplication anomaly |
| Q36238545 | Induced and natural epigenetic variation |
| Q38748562 | Inheritance of Cytosine Methylation |
| Q37797701 | Inheritance of Epigenetic Aberrations (Constitutional Epimutations) in Cancer Susceptibility |
| Q28301797 | Inherited epigenetic variation--revisiting soft inheritance |
| Q64068782 | Insertion of a chimeric retrotransposon sequence in mouse locus causes metastable kinky tail phenotype |
| Q26750525 | Insulin-like growth factors and their potential role in cardiac epigenetics |
| Q36763225 | Intergenerational programming of metabolic disease: evidence from human populations and experimental animal models |
| Q35152193 | Intracytoplasmic sperm injection using DNA-fragmented sperm in mice negatively affects embryo-derived embryonic stem cells, reduces the fertility of male offspring and induces heritable changes in epialleles |
| Q42560958 | Introduction: The use of animals models to advance epigenetic science |
| Q35761224 | Investigations on transgenerational epigenetic response down the male line in F2 pigs |
| Q28710061 | Is there a role for endogenous retroviruses to mediate long-term adaptive phenotypic response upon environmental inputs? |
| Q33579645 | LINE-1 methylation is inherited in familial testicular cancer kindreds |
| Q28386851 | LInking EDCs in maternal Nutrition to Child health (LINC study) - protocol for prospective cohort to study early life exposure to environmental chemicals and child health |
| Q38950807 | Lamarck rises from his grave: parental environment-induced epigenetic inheritance in model organisms and humans |
| Q33381623 | Leaving the past behind |
| Q35228795 | Life or death? A physiogenomic approach to understand individual variation in responses to hemorrhagic shock |
| Q46436159 | Ligament versus bone cell identity in the zebrafish hyoid skeleton is regulated by mef2ca. |
| Q47137076 | Locus-specific hypomethylation of the mouse IAP retrotransposon is associated with transcription factor-binding sites. |
| Q34758103 | Long-lasting and transgenerational effects of an environmental enrichment on memory formation |
| Q34980914 | Long-term effects of early-life exposure to environmental oestrogens on ovarian function: role of epigenetics |
| Q38315304 | Male germline transmits fetal alcohol epigenetic marks for multiple generations: a review |
| Q35311047 | Mammalian recombination hot spots: properties, control and evolution. |
| Q34551157 | Maternal methyl supplements increase offspring DNA methylation at Axin Fused |
| Q36827835 | Mechanisms of disease: glucocorticoids, their placental metabolism and fetal 'programming' of adult pathophysiology |
| Q34675817 | Mechanisms of non-genetic inheritance and psychiatric disorders |
| Q36783165 | Metastable epialleles, imprinting, and the fetal origins of adult diseases |
| Q34621450 | Modifiers of epigenetic reprogramming show paternal effects in the mouse. |
| Q53269531 | Molecular and organismal changes in offspring of male mice treated with chemical stressors. |
| Q36001860 | Molecular marks for epigenetic identification of developmental and cancer stem cells |
| Q24632767 | Mouse endogenous retroviruses can trigger premature transcriptional termination at a distance |
| Q64117464 | Mouse germ line mutations due to retrotransposon insertions |
| Q36022837 | Multigenerational effects of parental prenatal exposure to famine on adult offspring cognitive function |
| Q40531620 | Neo-Lamarckian medicine |
| Q64106518 | Non-genetic inheritance via the male germline in mammals |
| Q35130565 | Non-random, individual-specific methylation profiles are present at the sixth CTCF binding site in the human H19/IGF2 imprinting control region |
| Q43142987 | Nutritional developmental epigenomics: immediate and long-lasting effects |
| Q37414998 | Obesity-induced sperm DNA methylation changes at satellite repeats are reprogrammed in rat offspring. |
| Q34714985 | On the evolution of mutation in changing environments: recombination and phenotypic switching |
| Q37310290 | One- and two-locus population models with differential viability between sexes: parallels between haploid parental selection and genomic imprinting |
| Q56879950 | Our evolving knowledge of the transcriptional landscape |
| Q37725825 | Parent-of-origin and trans-generational germline influences on behavioral development: the interacting roles of mothers, fathers, and grandparents |
| Q36391848 | Parental effect of DNA (Cytosine-5) methyltransferase 1 on grandparental-origin-dependent transmission ratio distortion in mouse crosses and human families |
| Q36455920 | Parental obesity and overweight affect the body-fat accumulation in the offspring: the possible effect of a high-fat diet through epigenetic inheritance |
| Q30435813 | Parental olfactory experience influences behavior and neural structure in subsequent generations |
| Q27324436 | Paternal alcohol exposure reduces alcohol drinking and increases behavioral sensitivity to alcohol selectively in male offspring |
| Q38231313 | Paternal influences on offspring development: behavioural and epigenetic pathways. |
| Q47938464 | Paternal preconception alcohol exposure imparts intergenerational alcohol-related behaviors to male offspring on a pure C57BL/6J background |
| Q34576185 | Paternally induced transgenerational environmental reprogramming of metabolic gene expression in mammals |
| Q36088914 | Phenotypic differences in genetically identical organisms: the epigenetic perspective. |
| Q34559797 | Phylogenetic and DNA methylation analysis reveal novel regions of variable methylation in the mouse IAP class of transposons |
| Q38940748 | Physiological inputs regulate species-specific anatomy during embryogenesis and regeneration |
| Q35792273 | Prospects for epigenetic epidemiology |
| Q28594804 | Protein encoded by the Axin(Fu) allele effectively down-regulates Wnt signaling but exerts a dominant negative effect on c-Jun N-terminal kinase signaling |
| Q35060039 | Quantitative epigenetics through epigenomic perturbation of isogenic lines |
| Q35147647 | RNA: a possible contributor to the 'missing heritability'. |
| Q57596327 | Rapid adaptive responses to climate change in corals |
| Q36975977 | Report on the IASO Stock Conference 2006: early and lifelong environmental epigenomic programming of metabolic syndrome, obesity and type II diabetes |
| Q35800504 | Retrotransposon-derived elements in the mammalian genome: a potential source of disease |
| Q22252317 | Retrotransposons Revisited: The Restraint and Rehabilitation of Parasites |
| Q36012687 | Retrotransposons as a major source of epigenetic variations in the mammalian genome |
| Q25255710 | Retroviral elements and their hosts: insertional mutagenesis in the mouse germ line |
| Q33784616 | Season of conception in rural gambia affects DNA methylation at putative human metastable epialleles |
| Q36391548 | Seminiferous cord formation and germ-cell programming: epigenetic transgenerational actions of endocrine disruptors |
| Q44461749 | Sensitive flow cytometric analysis reveals a novel type of parent-of-origin effect in the mouse genome |
| Q34481537 | Sex-specific, male-line transgenerational responses in humans |
| Q37115368 | Sexual dimorphism in non-Mendelian inheritance |
| Q33839438 | Single-tissue and cross-tissue heritability of gene expression via identity-by-descent in related or unrelated individuals |
| Q34202015 | Sperm epigenomics: challenges and opportunities |
| Q36808803 | Suboptimal in vitro culture conditions: an epigenetic origin of long-term health effects. |
| Q21999013 | The "domestication syndrome" in mammals: a unified explanation based on neural crest cell behavior and genetics |
| Q50306250 | The LEARn model: an epigenetic explanation for idiopathic neurobiological diseases |
| Q37598850 | The Promoter Targeting Sequence mediates epigenetically heritable transcription memory |
| Q33658173 | The agouti mouse model: an epigenetic biosensor for nutritional and environmental alterations on the fetal epigenome |
| Q37229245 | The case for transgenerational epigenetic inheritance in humans |
| Q90365000 | The conserved DNMT1-dependent methylation regions in human cells are vulnerable to neurotoxicant rotenone exposure |
| Q35012903 | The contributions of normal variation and genetic background to mammalian gene expression |
| Q36498421 | The dynamics of genome-wide DNA methylation reprogramming in mouse primordial germ cells |
| Q38270060 | The epigenetic side of human adaptation: hypotheses, evidences and theories |
| Q35618934 | The four Rs of RNA-directed evolution |
| Q36679858 | The hallmarks of premalignant conditions: a molecular basis for cancer prevention |
| Q37631298 | The human sperm epigenome and its potential role in embryonic development |
| Q37788636 | The hunt for the epiallele |
| Q36226790 | The influence of DNA sequence on epigenome-induced pathologies |
| Q42742817 | The molecular and cellular basis of variable craniofacial phenotypes and their genetic rescue in Twisted gastrulation mutant mice. |
| Q33506106 | The relationship of DNA methylation with age, gender and genotype in twins and healthy controls |
| Q21296672 | The role of epigenetics in evolution: the extended synthesis |
| Q34649133 | The role of genetics in the establishment and maintenance of the epigenome. |
| Q37258705 | The use of mouse models to study epigenetics |
| Q41884240 | Three epigenetic information channels and their different roles in evolution |
| Q50439647 | Three generation study of reproductive and developmental toxicity following exposure of pubescent F0 male mice to di-n-butyl phthalate |
| Q30412523 | Toward an epigenetic view of our musical mind |
| Q37151661 | Towards incorporating epigenetic mechanisms into carcinogen identification and evaluation |
| Q35131071 | Transcriptional and post-transcriptional regulation of retrotransposons IAP and MuERV-L affect pluripotency of mice ES cells. |
| Q52101088 | Transgene instability in mice injected with an in vitro methylated Igf2 gene. |
| Q38148089 | Transgenerational developmental programming |
| Q35178183 | Transgenerational epigenetic inheritance in plants |
| Q34341597 | Transgenerational epigenetic inheritance: more questions than answers. |
| Q37038020 | Transgenerational genetic effects |
| Q33711534 | Transgenerational genetic effects of the paternal Y chromosome on daughters' phenotypes |
| Q38108665 | Transgenerational inheritance of non-genetically determined phenotypes |
| Q24628308 | Transgenerational rescue of a genetic defect in long-term potentiation and memory formation by juvenile enrichment |
| Q51755778 | Transgenerational response to nutrition, early life circumstances and longevity. |
| Q38735112 | Transgenerational transmission of systemic mast cell activation disease-genetic and epigenetic features |
| Q46730534 | Transmission of raised blood pressure and endothelial dysfunction to the F2 generation induced by maternal protein restriction in the F0, in the absence of dietary challenge in the F1 generation |
| Q28709521 | Transposable elements re-wire and fine-tune the transcriptome |
| Q35832781 | Two-step epigenetic Mendelian randomization: a strategy for establishing the causal role of epigenetic processes in pathways to disease. |
| Q38364544 | Understanding the epigenetics of neurodevelopmental disorders and DOHaD. |
| Q34250734 | Understanding transgenerational epigenetic inheritance via the gametes in mammals |
| Q42671439 | Variable histone modifications at the Avymetastable epiallele |
| Q56380370 | What are we missing about marine invasions? Filling in the gaps with evolutionary genomics |
| Q36473655 | What is an epigenetic transgenerational phenotype? F3 or F2. |
| Q27008101 | What obesity research tells us about epigenetic mechanisms |
| Q91591426 | What viruses tell us about evolution and immunity: beyond Darwin? |
| Q33309935 | Widespread epigenetic abnormalities suggest a broad DNA methylation erasure defect in abnormal human sperm |
| Q37159011 | Wiz binds active promoters and CTCF-binding sites and is required for normal behaviour in the mouse. |