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ABSTRACT: The imprinted gene cluster at the telomeric end of mouse chromosome 7 contains a differentially methylated CpG island, KvDMR, that is required for the imprinting of multiple genes, including the genes encoding the maternally expressed placental-specific transcription factor ASCL2, the cyclin-dependent kinase CDKN1C, and the potassium channel KCNQ1. The KvDMR, which maps within intron 10 of Kcnq1, contains the promoter for a paternally expressed, noncoding, antisense transcript, Kcnq1ot1. A 244-base-pair deletion of the promoter on the paternal allele leads to the derepression of all silent genes tested. To distinguish between the loss of silencing as the consequence of the absence of transcription or the transcript itself, we prematurely truncated the Kcnq1ot1 transcript by inserting a transcriptional stop signal downstream of the promoter. We show that the lack of a full-length Kcnq1ot1 transcript on the paternal chromosome leads to the expression of genes that are normally paternally repressed. Finally, we demonstrate that five highly conserved repeats residing at the 5' end of the Kcnq1ot1 transcript are not required for imprinting at this locus.
Genes & Development 06/2006; 20(10):1268-82. · 11.66 Impact Factor
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ABSTRACT: The imprinted expression of the H19 and Igf2 genes in the mouse is controlled by an imprinting control center (ICR) whose activity is regulated by parent-of-origin differences in methylation. The only protein that has been implicated in ICR function is the zinc-finger protein CTCF, which binds at multiple sites within the maternally inherited ICR and is required to form a chromatin boundary that inhibits Igf2 expression. To identify other proteins that play a role in imprinting, we employed electrophoresis mobility shift assays to identify two novel binding sites within the ICR. The DNA binding activity was identified as the heterodimer Ku70/80, which binds nonspecifically to free DNA ends. The sites within the ICR bind Ku70/80 in a sequence-specific manner and with higher affinity than previously reported binding sites. The binding required the presence of Mg(2+), implying that the sequence is a pause site for Ku70/80 translocation from a free end. Chromatin immunoprecipitation assays were unable to confirm that Ku70/80 binds to the ICR in vivo. In addition, mutation of these binding sites in the mouse did not result in any imprinting defects. A genome scan revealed that the binding site is found in LINE-1 retrotransposons, suggesting a possible role for Ku70/80 in transposition.
Molecular and Cellular Biology 06/2005; 25(10):3855-63. · 5.53 Impact Factor
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ABSTRACT: The DNA methylation state of the H19/Igf2 imprinting control region (ICR) is differentially set during gametogenesis. To identify factors responsible for the paternally specific DNA methylation of the ICR, germ line and somatic extracts were screened for proteins that bind to the ICR in a germ line-specific manner. A specific DNA binding activity that was restricted to the male germ line and enriched in neonatal testis was identified. Its three binding sites within the ICR are very similar to the consensus sequence for nuclear receptor extended half sites. To determine if these binding sites are required for establishment of the paternal epigenetic state, a mouse strain in which the three sites were mutated was generated. The mutated ICR was able to establish a male-specific epigenetic state in sperm that was indistinguishable from that established by the wild-type ICR, indicating that these sequences are either redundant or have no function. An analysis of the methylated state of the mutant ICR in the soma revealed no differences from the wild-type ICR but did uncover in both mutant and wild-type chromosomes a significant relaxation in the stringency of the methylated state of the paternal allele and the unmethylated state of the maternal allele in neonatal and adult tissues.
Molecular and Cellular Biology 12/2003; 23(22):8345-51. · 5.53 Impact Factor
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ABSTRACT: The Acrg minimal region is a 1.5-1.7 Mb domain defined by genetic complementation among deletions generated around Ednrb on chromosome 14 in mice. Mice homozygous for one of the deletions, Ednrb(s-1Acrg), exhibit embryonic lethality with defects associated with mesoderm development. We predicted that the region contains a single cluster of four genes that encode a TBC domain-containing protein (KIAA0603), a novel protein AK000009, the ubiquitin C-terminal hydrolase L3 (UCHL3) and an F-box/PDZ/LIM domain protein LMO7. A targeted internal deletion of Uchl3 (Uchl3(Delta3-7)) produced viable mice, eliminating this gene as a candidate for the embryonic lethality. To dissect the Acrg minimal region further, we utilized Cre-loxP-mediated chromosome engineering to generate a targeted 800 kb deletion (Lmo7(Delta800)) that removes the distal portion of the region. The deletion includes Uchl3, Lmo7 and an additional 500 kb downstream of the 3' end of Lmo7 where no genes are thought to reside. We found that approximately 40% of mice homozygous for this deletion die between birth and weaning, and are severely runted. The remaining homozygotes are viable, thus ruling out Lmo7 as a single gene candidate for the Ednrb(s-1Acrg) embryonic lethality. Both Uchl3(Delta3-7) and Lmo7(Delta800) mutants displayed retinal degeneration, muscular degeneration and growth retardation, but the severity of the muscular degeneration and growth retardation were enhanced in Lmo7(Delta800) homozygotes. We suggest that the increase in severity may reflect an interaction between Uchl3 and Lmo7 in the ubiquitin-mediated protein degradation pathway.
Human Molecular Genetics 07/2003; 12(11):1301-12. · 7.64 Impact Factor
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ABSTRACT: To increase our understanding of imprinting and epigenetic gene regulation, we undertook a search for new imprinted genes. We identified Gatm, a gene that encodes l-arginine:glycine amidinotransferase, which catalyzes the rate-limiting step in the synthesis of creatine. In mouse, Gatm is expressed during development and is imprinted in the placenta and yolk sac, but not in embryonic tissues. The Gatm gene maps to mouse chromosome 2 in a region not previously shown to contain imprinted genes. To determine whether Gatm is located in a cluster of imprinted genes, we investigated the expression pattern of genes located near Gatm: Duox1-2, Slc28a2, Slc30a4 and a transcript corresponding to LOC214616. We found no evidence that any of these genes is imprinted in placenta. We show that a CpG island associated with Gatm is unmethylated, as is a large CpG island associated with a neighboring gene. This genomic screen for novel imprinted genes has elucidated a new connection between imprinting and creatine metabolism during embryonic development in mammals.
Proceedings of the National Academy of Sciences 05/2003; 100(8):4622-7. · 9.68 Impact Factor
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ABSTRACT: The imprinted gene cluster on mouse distal chromosome 7 contains a differentially methylated CpG island that maps within the Kcnq1 gene that has been shown to be required for the imprinting of multiple genes. To evaluate models for how this imprinting control region (ICR) regulates imprinting, we have characterized it structurally and functionally. We show that the region contains a promoter for a paternally expressed anti-sense transcript, Kcnq1ot1, and we define the extent of the minimal promoter. We describe three paternal-specific nuclease hypersensitive sites immediately upstream from the start site and show that they are required for full promoter activity. The expression of Kcnq1ot1 during pre- and postnatal development is compared to that of other imprinted genes in its vicinity, Cdnkn1c and Kcnq1. The lack of coordination in their expression tends to rule out an enhancer competition model for the action of the ICR in imprinting control. Using a stable transfection assay we show that the region contains a position-independent and orientation-independent silencer. We propose, on the basis of these findings, that the Kcnq1 ICR functions as a silencer on the paternal chromosome to effect the repression of neighboring genes.
Human Molecular Genetics 03/2003; 12(3):283-94. · 7.64 Impact Factor
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ABSTRACT: Genomic imprinting relies on establishing and maintaining the parental-specific methylation of DNA elements that control the differential expression of maternal and paternal alleles. Although the essential DNA methyltransferases have been discovered, proteins that regulate the sequence-specific establishment and maintenance of allelic methylation have not been identified. One candidate regulator of methylation, the zinc-finger protein CTCF, binds to the imprinting control region (ICR) of the genes Igf2 (encoding insulin-like growth factor 2) and H19 (fetal liver mRNA; refs. 1,2). The unmethylated maternal ICR is a chromatin boundary that prevents distant enhancers from activating Igf2 (refs. 3-6). In vitro experiments have suggested that CTCF mediates boundary activity of the maternal ICR, and that methylation of the paternal ICR abolishes this activity by preventing CTCF binding. Using mice with point mutations in all four CTCF sites in the ICR, we show that maternally transmitted mutant ICRs in neonatal mice acquire a substantial but heterogeneous degree of methylation. Mutant ICRs in oocytes and blastocysts are not methylated, however, indicating that binding of CTCF is not required to establish the unmethylated ICR during oogenesis. We also show that the mutant ICR lacks enhancer-blocking activity, as the expression of Igf2 is activated on mutant maternal chromosomes. Conversely, maternal H19 expression is reduced, suggesting a positive role for CTCF in the transcription of that gene. This study constitutes the first in vivo demonstration of the multiple functions of CTCF in an ICR.
Nature Genetics 02/2003; 33(1):66-9. · 35.53 Impact Factor
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ABSTRACT: Somitogenesis requires a segmentation clock and Notch signaling. Lunatic fringe (Lfng) expression in the presomitic mesoderm (PSM) cycles in the posterior PSM, is refined in the segmenting somite to the rostral compartment, and is required for segmentation. We identify distinct cis-acting regulatory elements for each aspect of Lfng expression. Fringe clock element 1 (FCE1) represents a conserved 110 bp region that is necessary to direct cyclic Lfng RNA expression in the posterior PSM. Mutational analysis of E boxes within FCE1 indicates a potential interplay of positive and negative transcriptional regulation by cyclically expressed bHLH proteins. A separable Lfng regulatory region directs expression to the prospective rostral aspect of the condensing somite. These independent Lfng regulatory cassettes advance a molecular framework for deciphering somite segmentation.
Developmental Cell 08/2002; 3(1):75-84. · 14.03 Impact Factor
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ABSTRACT: this article has a relatively low G+C level (37.78%).Hu78%).fGE comparative analyses have been performed in regions of comparable G+C content, namely SNCA (-synuqfwRHJ at 36.33% [33], CFTR (cystic ibrosis transmembrane conduembran regu eg-fGJ at 37.35% [34], and FHIT ( ragile histidine triad) at 38.39% [35]. However, this is ouf irst opportuJqfw to observe patterns o sequHfwR conservation in what may be part o a gene desert. We souRLq to determine the ways in which sequ fqJ in gene deserts di ers rom intronic sequnic o low G+C content. We began by extracting the pu fqGEH intron sequn fq rom the ou hu fR genes, omitting 100 bp on either side o each exon in hopes o exclufwqM most elements that late splicing. This provided 462,536 bp o intronic The inal 462,536 bp o the hu fR sequRkGG was as ou sample o puGHqkfw desert data. Intraspecies properties that we determined inclumin GC level and the density o variouf classes o interspersed repeats. The intronic regions contain a two- to three old higher density o Alu elements and a two- to three old lower density o LINE1 and LTR elements (Table 2). An earlier stuie [36] observed that in a larger sample o AT-rich regions, Alu elements were 1.5 times more common in introns than in nontranscribed regions. To compare interspecies conservation, we analyzed alignments generated by PipMaker, in which interspersed repeats were excluMKJG A higher percentage o the intronic sequnic than o the desert sequt fq (54.7% versu - 45.1%) was aligned by PipMaker to mouqH contigs, suigs,fMGH that overall nuall fRkM divergence is slightly higher in deserts. On the other hand, or very strongly aligning segments, de ined somewhat arbitrarily as segments o at least 100 bp that aligned a gap and with at least 70% nufRJGkRfw identity, the density...
04/2002;
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ABSTRACT: Genomic imprinting, the differential expression of autosomal genes based on their parent of origin, is observed in all eutherian mammals that have been examined. In most instances the genes that are imprinted in one species are imprinted in others as well, suggesting that imprinting predated eutherian radiation. For example, the RNA-coding H19 gene is repressed upon paternal inheritance in all species examined to date. Thus, it is surprising that there is remarkably little sequence conservation among the cis-acting DNA regulatory elements that are required for imprinting of H19 and the tightly linked Igf2 gene. The most conserved characteristic in the imprinting control region (ICR) is the presence of multiple binding sites for the zinc finger protein CTCF, raising the possibility that CTCF binding might be sufficient for the reciprocal imprinting of H19 and Igf2. To investigate whether a human H19 transgene, harboring seven CTCF sites, is correctly recognized and imprinted in the mouse, a 100 kb transgene containing the human H19 gene was introduced into the mouse germline. The human transgene was specifically methylated after passage through the male germline in a copy number-dependent manner, but the methylation was unstable, undergoing progressive loss during development. Consequently, the transgene was highly expressed upon both maternal and paternal inheritance. These results argue that the signals for both the acquisition and maintenance of methylation imprinting are diverging rapidly.
Human Molecular Genetics 03/2002; 11(4):411-8. · 7.64 Impact Factor
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ABSTRACT: Mice homozygous for the Ednrb(s-1Acrg) deletion arrest at embryonic day 8.5 from defects associated with mesoderm development. To determine the molecular basis of this phenotype, we initiated a positional cloning of the Acrg minimal region. This region was predicted to be gene-poor by several criteria. From comparative analysis with the syntenic human locus at 13q22 and gene prediction program analysis, we found a single cluster of four genes within the 1.4-to 2-Mb contig over the Acrg minimal region that is flanked by a gene desert. We also found 130 highly conserved nonexonic sequences that were distributed over the gene cluster and desert. The four genes encode the TBC (Tre-2, BUB2, CDC16) domain-containing protein KIAA0603, the ubiquitin carboxy-terminal hydrolase L3 (UCHL3), the F-box/PDZ/LIM domain protein LMO7,and a novel gene. On the basis of their expression profile during development, all four genes are candidates for the Ednrb(s-1Acrg) embryonic lethality. Because we determined that a mutant of Uchl3 was viable, three candidate genes remain within the region.
Genomics 03/2002; 79(2):154-61. · 3.02 Impact Factor
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ABSTRACT: Several lines of evidence suggest a close functional relationship and a common evolutionary origin for -fetoprotein and albumin. In the mouse, breeding studies have previously allowed the assignment of the albumin gene to chromosome 5. To test the possible linkage of -fetoprotein and albumin, five somatic cell hybrids containing various combinations of mouse chromosomes, together with a constant set of hamster chromosomes, were tested for the presence of both genes using DNA restriction mapping techniques. Two of the five hybrids possessed both genes, and the other three lacked both. The only mouse chromosome present in the positive lines and absent from the negative ones was number 5, allowing the assignment of both genes to this chromosome.
Somatic Cell and Molecular Genetics 01/1981; 7(3):289-294.
