CpG methylation modifies the genetic stability of cloned repeat sequences.
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[1] C. Walsh,et al. Cytosine methylation and the ecology of intragenomic parasites. , 1997, Trends in genetics : TIG.
[2] R. Gellibolian,et al. Cloning, characterization and properties of plasmids containing CGG triplet repeats from the FMR-1 gene. , 1996, Journal of molecular biology.
[3] F. Tassone,et al. Tissue‐specific methylation differences in a fragile X premutation carrier , 1999, Clinical genetics.
[4] W. Greenough,et al. Tissue heterogeneity of the FMR1 mutation in a high-functioning male with fragile X syndrome. , 1999, American journal of medical genetics.
[5] D. Chitayat,et al. Tissue-specific methylation differences and cognitive function in fragile X premutation females. , 1996, American journal of medical genetics.
[6] S. Warren,et al. Acetylated histones are associated with FMR1 in normal but not fragile X-syndrome cells , 1999, Nature Genetics.
[7] W. Vogel,et al. Unusual mutations in high functioning fragile X males: apparent instability of expanded unmethylated CGG repeats. , 1998, Journal of medical genetics.
[8] M. Hirst,et al. Cloned human FMR1 trinucleotide repeats exhibit a length- and orientation-dependent instability suggestive of in vivo lagging strand secondary structure. , 1998, Nucleic acids research.
[9] W. Doerfler,et al. Methylation mosaicism of 5'-(CGG)(n)-3' repeats in fragile X, premutation and normal individuals. , 2000, Nucleic acids research.
[10] J. Herman,et al. Incidence and functional consequences of hMLH1 promoter hypermethylation in colorectal carcinoma. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[11] F. Ledeist,et al. An embryonic-like methylation pattern of classical satellite DNA is observed in ICF syndrome. , 1993, Human molecular genetics.
[12] M. Somerville,et al. Apparently unstable normal FMR1 alleles in nine developmentally delayed patients: implications for molecular diagnosis of the fragile X syndrome. , 2000, Genetic testing.
[13] D. Monckton,et al. Cis-acting modifiers of expanded CAG/CTG triplet repeat expandability: associations with flanking GC content and proximity to CpG islands. , 1999, Human molecular genetics.
[14] P. White,et al. Stability of the Human Fragile X (CGG)n Triplet Repeat Array inSaccharomyces cerevisiae Deficient in Aspects of DNA Metabolism , 1999, Molecular and Cellular Biology.
[15] Steven S. Smith,et al. DNA methylation in eukaryotic chromosome stability revisited: DNA methyltransferase in the management of DNA conformation space , 1999, Molecular carcinogenesis.
[16] W Zacharias,et al. Methylation of cytosine influences the DNA structure. , 1993, EXS.
[17] P. Hagerman,et al. Cytosine methylation can induce local distortions in the structure of duplex DNA. , 1992, Biochemistry.
[18] L. Edström,et al. Larger expansions of the CTG repeat in muscle compared to lymphocytes from patients with myotonic dystrophy. , 1993, Human molecular genetics.
[19] Rudolf Jaenisch,et al. DNA hypomethylation leads to elevated mutation rates , 1998, Nature.
[20] T. Kunkel,et al. Fidelity of a human cell DNA replication complex. , 1988, Proceedings of the National Academy of Sciences of the United States of America.
[21] A. Bird,et al. Methylation-Induced Repression— Belts, Braces, and Chromatin , 1999, Cell.
[22] R. Sinden,et al. Relationship between Escherichia coli growth and deletions of CTG.CAG triplet repeats in plasmids. , 1996, Journal of molecular biology.
[23] V. Zakian,et al. Expansion and length-dependent fragility of CTG repeats in yeast. , 1998, Science.
[24] J. Clegg,et al. Molecular characterisation of a hypervariable region downstream of the human alpha‐globin gene cluster. , 1986, The EMBO journal.
[25] S. Baylin,et al. Regional DNA hypermethylation at D17S5 precedes 17p structural changes in the progression of renal tumors. , 1993, Cancer research.
[26] Keiichi Ohshima,et al. Expansion and deletion of CTG repeats from human disease genes are determined by the direction of replication in E. coli , 1995, Nature Genetics.
[27] S. Warren,et al. Characterization of the full fragile X syndrome mutation in fetal gametes , 1997, Nature Genetics.
[28] K. Friend,et al. Dynamic mutation loci: allele distributions in different populations , 1996, Annals of human genetics.
[29] H. Hameister,et al. Demethylation, reactivation, and destabilization of human fragile X full-mutation alleles in mouse embryocarcinoma cells. , 2001, American journal of human genetics.
[30] S. Mirkin,et al. Trinucleotide repeats affect DNA replication in vivo , 1997, Nature Genetics.
[31] A. de la Chapelle,et al. Genetics of hereditary colon cancer. , 1995, Annual review of genetics.
[32] H. Zoghbi,et al. Fourteen and counting: unraveling trinucleotide repeat diseases. , 2000, Human molecular genetics.
[33] W. Doerfler,et al. The Human 20-kDa 5′-(CGG) n -3′-binding Protein Is Targeted to the Nucleus and Affects the Activity of the FMR1Promoter* , 2000, The Journal of Biological Chemistry.
[34] GC-rich flanking tracts decrease the kinetics of intramolecular DNA triplex formation. , 1992, The Journal of biological chemistry.
[35] M. Baiget,et al. Somatic instability of the myotonic dystrophy (CTG)n repeat during human fetal development. , 1997, Human molecular genetics.
[36] J. Herman,et al. CpG island methylator phenotype in colorectal cancer. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[37] T. Haaf,et al. The effects of 5-azacytidine and 5-azadeoxycytidine on chromosome structure and function: implications for methylation-associated cellular processes. , 1995, Pharmacology & therapeutics.
[38] I. Kennerknecht,et al. Heterogeneity of DM kinase repeat expansion in different fetal tissues and further expansion during cell proliferation in vitro: evidence for a casual involvement of methyl-directed DNA mismatch repair in triplet repeat stability. , 1995, Human molecular genetics.
[39] W. Doerfler,et al. A new concept in (adenoviral) oncogenesis: integration of foreign DNA and its consequences. , 1996, Biochimica et biophysica acta.
[40] W. Brown,et al. FMR1 CGG-repeat instability in single sperm and lymphocytes of fragile-X premutation males. , 1999, American journal of human genetics.
[41] A. Razin,et al. DNA methylation in early development. , 1995, Human molecular genetics.
[42] M. Bichara,et al. Z-DNA-forming sequences are spontaneous deletion hot spots. , 1989, Proceedings of the National Academy of Sciences of the United States of America.
[43] C. E. Pearson,et al. In Vitro (CTG)·(CAG) Expansions and Deletions by Human Cell Extracts* , 2002, The Journal of Biological Chemistry.
[44] R. Sinden,et al. Alternative structures in duplex DNA formed within the trinucleotide repeats of the myotonic dystrophy and fragile X loci. , 1996, Biochemistry.
[45] B. Bardoni,et al. Increase of FMRP expression, raised levels ofFMR1 mRNA, and clonal selection in proliferating cells with unmethylated fragile X repeat expansions: a clue to the sex bias in the transmission of full mutations? , 2000, Journal of medical genetics.
[46] W. Vogel,et al. The DMPK gene of severely affected myotonic dystrophy patients is hypermethylated proximal to the largely expanded CTG repeat. , 1998, American journal of human genetics.
[47] E. Eichler,et al. Interruptions in the triplet repeats of SCA1 and FRAXA reduce the propensity and complexity of slipped strand DNA (S-DNA) formation. , 1998, Biochemistry.
[48] B. Popovich,et al. Fully expanded FMR1 CGG repeats exhibit a length- and differentiation-dependent instability in cell hybrids that is independent of DNA methylation. , 1999, Human molecular genetics.
[49] M. Yamada,et al. A human Y-chromosome specific repeated DNA family (DYZ1) consists of a tandem array of pentanucleotides. , 1986, Nucleic acids research.
[50] A. Razin,et al. Cloning, characterization, and expression in Escherichia coli of the gene coding for the CpG DNA methylase from Spiroplasma sp. strain MQ1(M.SssI). , 1990, Nucleic acids research.
[51] D. Symer,et al. Genomic stability: Hip-hopping out of control , 2001, Nature.
[52] Peer Bork,et al. The draft sequences: Filling in the gaps , 2001, Nature.
[53] D. Lilley,et al. A dominant influence of flanking sequences on a local structural transition in DNA , 1986, Cell.
[54] J. Wang,et al. Action at a distance along a DNA. , 1988, Science.
[55] J. Griffith,et al. Methylation of Expanded CCG Triplet Repeat DNA from Fragile X Syndrome Patients Enhances Nucleosome Exclusion* , 1996, The Journal of Biological Chemistry.
[56] N. Tommerup,et al. Chromosome instability and immunodeficiency syndrome caused by mutations in a DNA methyltransferase gene , 1999, Nature.
[57] M. Yaniv,et al. Assembly of transfected DNA into chromatin: structural changes in the origin‐promoter‐enhancer region upon replication. , 1984, The EMBO journal.
[58] B. Oostra,et al. Monozygotic twin brothers with the fragile X syndrome: different CGG repeats and different mental capacities , 1999, Journal of medical genetics.
[59] E. Eichler,et al. Segmental duplications: what's missing, misassigned, and misassembled--and should we care? , 2001, Genome research.
[60] J. Dodgson,et al. Transmission of stability (telestability) in deoxyribonucleic acid. Physical and enzymatic studies on the duplex block polymer d(C15A15) - d(T15G15). , 1975, The Journal of biological chemistry.
[61] B. Stillman. Chromatin assembly during SV40 DNA replication in vitro , 1986, Cell.
[62] J. Rüschoff,et al. Diagnostic microsatellite instability: definition and correlation with mismatch repair protein expression. , 1997, Cancer research.
[63] A. Graessmann,et al. Complete DNA methylation does not prevent polyoma and simian virus 40 virus early gene expression. , 1983, Proceedings of the National Academy of Sciences of the United States of America.