Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P51532 (transcriptional activator)
 6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ligand screening was utilized to isolate a human cDNA that encodes a novel CpG binding protein, human CpG binding protein (hCGBP). This factor contains three cysteine-rich domains, two of which exhibit homology to the plant homeodomain finger domain. A third cysteine-rich domain conforms to the CXXC motif identified in DNA methyltransferase, human trithorax, and methyl-CpG binding domain protein 1. A fragment of hCGBP that contains the CXXC domain binds to an oligonucleotide probe containing a single CpG site, and this complex is disrupted by distinct oligonucleotide competitors that also contain a CpG motif(s). However, hCGBP fails to bind oligonucleotides in which the CpG motif is either mutated or methylated, and it does not bind to single-stranded DNA or RNA probes. Furthermore, the introduction of a CpG dinucleotide into an unrelated oligonucleotide sequence is sufficient to produce a binding site for hCGBP. Native hCGBP is detected as an 88-kDa protein by Western analysis and is ubiquitously expressed. The DNA-binding activity of native hCGBP is apparent in electrophoretic mobility shift assays, and hCGBP trans-activates promoters that contain CpG motifs but not promoters in which the CpG is ablated. These data indicate that hCGBP is a transcriptional activator that recognizes unmethylated CpG dinucleotides, suggesting a role in modulating the expression of genes located within CpG islands.
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PMID:Cloning of a mammalian transcriptional activator that binds unmethylated CpG motifs and shares a CXXC domain with DNA methyltransferase, human trithorax, and methyl-CpG binding domain protein 1. 1068 57

CpG-binding protein is a transcriptional activator that exhibits a unique DNA binding specificity for unmethylated CpG motifs. CpG-binding protein contains a cysteine-rich CXXC domain that is conserved in DNA methyltransferase 1, methyl binding domain protein 1, and human trithorax. In vitro DNA binding assays reveal that CpG-binding protein contains a single DNA binding domain comprised of the CXXC domain and a short carboxyl extension. Specific mutation to alanine of individual conserved cysteine residues within the CXXC domain abolishes DNA binding activity. Denaturation/renaturation experiments in the presence of various metal cations demonstrate that the CXXC domain requires zinc for efficient DNA binding activity. Ligand selection of high affinity binding sites from a pool of degenerate oligonucleotides reveals that CpG-binding protein interacts with a variety of sequences that contains the CpG dinucleotide with a consensus binding site of (A/C)CpG(A/C). Mutation of the CpG motif(s) present within ligand-selected oligonucleotides ablates the interaction with CpG-binding protein, and mutation to thymine of the nucleotides flanking the CpG motifs reduces the affinity of CpG-binding protein. Hence, a CpG motif is necessary and sufficient to comprise a binding site for CpG-binding protein, although the immediate flanking sequence affects binding affinity.
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PMID:Identification and characterization of the DNA binding domain of CpG-binding protein. 1157 67

Epigenetic modification of DNA via CpG methylation is essential for the proper regulation of gene expression during embryonic development. Methylation of CpG motifs results in gene repression, while CpG island-containing genes are maintained in an unmethylated state and are transcriptionally active. The molecular mechanisms involved in maintaining the hypomethylation of CpG islands remain unclear. The transcriptional activator CpG binding protein (CGBP) exhibits a unique binding specificity for DNA elements that contain unmethylated CpG motifs, which makes it a potential candidate for the regulation of CpG island-containing genes. In order to assess the global function of this protein, mice lacking CGBP were generated via homologous recombination. No viable mutant mice were identified, indicating that CGBP is required for murine development. Mutant embryos were also absent between 6.5 and 12.5 days postcoitum (dpc). Approximately, one-fourth of all implantation sites at 6.5 dpc appeared empty with no intact embryos present. However, histological examination of 6.5-dpc implantation sites revealed the presence of embryo remnants, indicating that CGBP mutant embryos die very early in development. In vitro blastocyst outgrowth assays revealed that CGBP-null blastocysts are viable and capable of hatching and forming both an inner cell mass and a trophectoderm. Therefore, CGBP plays a crucial role in embryo viability and peri-implantation development.
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PMID:CpG binding protein is crucial for early embryonic development. 1160 96

Human CpG binding protein (CGBP) is a ubiquitously-expressed transcriptional activator that binds specifically to unmethylated CpG motifs. Several protein domains have been identified within CGBP including two plant homeodomains (PHD), acidic and basic regions, a coiled-coil domain, as well as a CXXC DNA-binding domain. The global function of CGBP remains unclear, although failure to express CGBP results in embryonic lethality in mice. This study reports the identification and characterization of the murine CGBP gene locus. A 2509 bp murine CGBP cDNA was cloned and nucleotide sequence determined. Comparison of the mouse and human CGBP sequences revealed 86% identity at the nucleotide level and 96% identity at the amino acid level. Examination of the deduced translation product revealed that the PHD, CXXC, coiled-coil, and basic domains are identical between mouse and human, while the acidic region exhibits approximately 90% identity with its human counterpart. A single murine CGBP transcript of approximately 2.6 kb was detected in a wide variety of adult tissues as well as embryonic stem cells. Analysis of the mouse gene locus revealed a relatively small gene spanning approximately 5 kb and comprised of 15 exons. Examination of the human CGBP gene showed a similar size and structure with identical intronic splice sites. In contrast to the human CGBP gene, which is located 800 bp upstream of the MBD1 gene, analysis of the murine CGBP gene locus failed to detect the murine MBD1 gene within several kilobases of the CGBP coding region.
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PMID:Cloning and characterization of the gene encoding the mouse homologue of CpG binding protein. 1224 13

The biological process of differentiation - from a fertilized egg to a human being - is a consecutive mechanism that leads to the establishment of tissue-specific gene expression, but also to a coordinated shut-down of all those genes that are not necessary for a given cell type. This process is accompanied by posttranslational modifications of the chromatin (DNA methylation and covalent histone modifications), also termed the "epigenetic layer". All epigenetic processes are mediated by protein complexes that either mediate specific DNA methylation patterns, or modify nucleosomal proteins in a covalent fashion (acetylation, methylation, phosphorylation and ubiquitinylation). One important player involved in epigenetics is the MLL protein which represents a histone H3 methyltransferase. The MLL gene gained much attention because of its frequent genetic rearrangements, thereby creating oncogenic MLL fusion genes that cause acute leukemia in pediatric and adult patients. This article is summarizing certain functional aspects about MLL, but is mainly emphasizing on an alternative splice event within the PHD domain. This changes the biological properties of the MLL protein, thereby influencing its ability of being either a transcriptional activator or repressor.
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PMID:An alternative splice process renders the MLL protein either into a transcriptional activator or repressor. 2392 44

Methyl CpG binding protein 2 (MeCP2) is a multifunctional protein which binds to methylated CpG, mutation of which cause a neurodevelopmental disorder, Rett syndrome. MeCP2 can function as both transcriptional activator and repressor of target gene. MeCP2 regulate gene expression in both neuron and glial cells in central nervous system (CNS). Oligodendrocytes, the myelinating cells of CNS, are required for normal functioning of neurons and are regulated by several transcription factors during their differentiation. In current study, we focused on the role of MeCP2 as transcription regulator of myelin genes in cultured rat oligodendrocytes. We have observed expression of MeCP2 at all stages of oligodendrocyte development. MeCP2 knockdown in cultured oligodendrocytes by small interference RNA (siRNA) has shown increase in myelin genes (myelin basic protein (MBP), proteolipid protein (PLP), myelin oligodendrocyte glycoprotein (MOG), and myelin-associated oligodendrocyte basic protein (MOBP)), neurotrophin (brain-derived neurotrophic factor (BDNF)), and transcriptional regulator (YY1) transcripts level, which are involved in regulation of oligodendrocyte differentiation and myelination. Further, we also found that protein levels of MBP, PLP, DM-20, and BDNF also significantly upregulated in MeCP2 knockdown oligodendrocytes. Our study suggests that the MeCP2 acts as a negative regulator of myelin protein expression.
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PMID:Involvement of MeCP2 in Regulation of Myelin-Related Gene Expression in Cultured Rat Oligodendrocytes. 2614 Aug 54

Co-expression of physically linked genes occurs surprisingly frequently in eukaryotes. Such chromosomal clustering may confer a selective advantage as it enables coordinated gene regulation at the chromatin level. We studied the chromosomal organization of genes involved in male reproductive development in Arabidopsis thaliana. We developed an in-silico tool to identify physical clusters of co-regulated genes from gene expression data. We identified 17 clusters (96 genes) involved in stamen development and acting downstream of the transcriptional activator MS1 (MALE STERILITY 1), which contains a PHD domain associated with chromatin re-organization. The clusters exhibited little gene homology or promoter element similarity, and largely overlapped with reported repressive histone marks. Experiments on a subset of the clusters suggested a link between expression activation and chromatin conformation: qRT-PCR and mRNA in situ hybridization showed that the clustered genes were up-regulated within 48 h after MS1 induction; out of 14 chromatin-remodeling mutants studied, expression of clustered genes was consistently down-regulated only in hta9/hta11, previously associated with metabolic cluster activation; DNA fluorescence in situ hybridization confirmed that transcriptional activation of the clustered genes was correlated with open chromatin conformation. Stamen development thus appears to involve transcriptional activation of physically clustered genes through chromatin de-condensation.
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PMID:Genome-wide identification of physically clustered genes suggests chromatin-level co-regulation in male reproductive development in Arabidopsis thaliana. 2817 42

Rett Syndrome (RTT), which affects approximately 1:10.000 live births, is a X-linked pervasive neuro-developmental disorder which is caused, in the vast majority of cases, by a sporadic mutation in the Methyl-CpG-binding protein-2 (MeCP2) gene. This is a transcriptional activator/repressor with presumed pleiotropic activities. The broad tissue expression of MeCP2 suggests that it may be involved in several metabolic pathways, but the molecular mechanisms which provoke the onset and progression of the syndrome are largely unknown. In this paper, we report that primary fibroblasts that have been isolated from RTT patients display a defective formation of autophagosomes under conditions of nutrient starvation and that the mature Red Blood Cells of some RTT patients retain mitochondria. Moreover, we provide evidence regarding the accumulation of the p62/SQSTM1 protein and ubiquitin-aggregated structures in the cerebellum of Mecp2 knockout mouse model (Mecp2 -/y ) during transition from the non-symptomatic to the symptomatic stage of the disease. Hence, we propose that a defective autophagy could be involved in the RTT clinical phenotype, which introduces new molecular perspectives in the pathogenesis of the syndrome.
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PMID:Retention of Mitochondria in Mature Human Red Blood Cells as the Result of Autophagy Impairment in Rett Syndrome. 2895 55