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010   $a3-527-60151-1
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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 04$aThe epigenome$b[electronic resource] $emolecular hide and seek /$fedited by S. Beck and A. Olek
210   $aWeinheim ;$a[Cambridge] $cWiley-VCH$dc2003
215   $a1 online resource (190 p.)
300   $aDescription based upon print version of record.
311   $a3-527-30494-0 
320   $aIncludes bibliographical references and index.
327   $aThe Epigenome Molecular Hide and Seek; Preface; Contents; 1 Five Not Four: History and Significance of the Fifth Base; Summary; 1.1 Historical Introduction; 1.2 Sequencing 5-methylcytosine (5-mC) Residues in Genomic DNA; The Bisulfite Method; 1.3 Gene Silencing; 1.4 Development; 1.5 Abnormal DNA Methylation in Cancer Cells; 1.6 Nuclear Transfer; 1.7 Aging; 1.8 The Future; References; 2 (Epi)genetic Signals: Towards a Human Genome Sequence of All Five Nucleotides; Summary; 2.1 A Linguistic Prologue; 2.2 Towards the Complete Sequence of the Human Genome with Five Nucleotides
327   $a2.3 Patterns of DNA Methylation - the Scaffold for Building a Functional Genome2.4 DNA Methylation Patterns in Segments of the Human Genome and in Viral Genomes; 2.4.1 On Viral Genomes and Foreign DNA Integrates (Table 2.1); 2.4.2 DNA Methylation Patterns in the Human Genome (Table 2.1); 2.5 Insertions of Foreign DNA into Established Mammalian Genomes; 2.6 De Novo Methylation of Integrated Foreign DNA; 2.6.1 Ad12 Genomes in Hamster Tumor Cells; 2.6.2 De Novo Methylation of Foreign DNA Integrated into the Mouse Genome by Homologous or Heterologous Recombination [23]
327   $a2.7 Genome-wide Perturbations in the Mammalian Genome upon Foreign DNA Insertion2.8 Outlook and Recommendations; References; 3 Epi Meets Genomics: Technologies for Finding and Reading the 5(th) Base; Summary; 3.1 The Development of 5(th)-Base Technologies; 3.1.1 Unusual DNA-cutting Enzymes; 3.1.2 A Unique Chemical Reaction that Modifies Methylated DNA; 3.1.3 The Advance of 5(th) Base Technologies in Epigenomic Research; 3.2 Restriction Landmark Genomic Scanning (RLGS): Finding the 5(th)-base Signposts in the Genomic Atlas; 3.2.1 Principle; 3.2.2 How Does RLGS Work?; 3.2.3 Applications
327   $a3.3 Methylation-sensitive Arbitrarily Primed (AP) PCR: Fishing for the 5(th) Bases in Genomic Ponds3.3.1 Principle; 3.3.2 How Does MS AP-PCR Work?; 3.3.3 Applications; 3.4 Differential Methylation Hybridization (DMH): Identifying the 5(th) Bases in the Genomic Crossword Puzzle; 3.4.1 Principle; 3.4.2 How Does DMH Work?; 3.4.3 Applications; 3.5 MethyLight: Finding 5(th)-base Patterns in Genomic Shadows; 3.5.1 Principle; 3.5.2 How Does MethyLight Work?; 3.5.3 Applications; 3.6 Exploring the Epigenome; References; 4 Mammalian Epigenomics: Reprogramming the Genome for Development and Therapy
327   $aSummary4.1 Introduction; 4.2 DNA Methylation; 4.3 Histone Modifications; 4.4 Imprinting; 4.5 Reprogramming and Cloning; 4.6 Epimutations and Epigenetic Inheritance; 4.7 Epigenomics: The Future; 4.7 Conclusions; References; 5 At the Controls: Genomic Imprinting and the Epigenetic Regulation of Gene Expression; Summary; 5.1 Introduction; 5.2 Genomic Imprinting; 5.2.1 The Role of DNA Methylation in Imprinted Gene Expression; 5.2.3 Organization of Imprinted Genes
327   $a5.2.4 The Mechanism of Imprinting at the Mouse Igf2r Imprinted Domain Requires a Cis-acting Noncoding Antisense Transcript Regulated by DNA Methylation (Fig. 5.2 a)
330   $aThis is the first book that describes the role of the Epigenome (cytosine methylation) in the interplay between nature and nurture.  It focuses and stimulates interest in what will be one of the most exciting areas of post-sequencing genome science: the relationship between genetics and the environment.  Written by the most reputable authors in the field, this book is essential reading for researchers interested in the science arising from the human genome sequence and its implications on health care, industry and society.
606   $aHuman genome
606   $aMedical genetics
606   $aNature and nurture
606   $aGenome, Human
606   $aGenomics$xmethods
606   $aCytosine$xphysiology
615  0$aHuman genome.
615  0$aMedical genetics.
615  0$aNature and nurture.
615 12$aGenome, Human.
615 22$aGenomics$xmethods.
615 22$aCytosine$xphysiology.
676   $a599.935
676   $a611.01816
701   $aOlek$b A$g(Alexander)$01608025
701   $aBeck$b Stephan$g(Stephan G.)$01608026
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910831192003321
996   $aThe epigenome$93934561
997   $aUNINA