Heterogeneity and the genetics of autism.
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The objective of this review is to summarize recent data on the genetics of autism, highlight the evidence for genetic heterogeneity and extend the implications of these findings for the identification of susceptibility genes in this disorder. Family studies have shown that autism runs in families and twin studies indicate that the basis of that familial aggregation is genetic. As a result the prospects for the identification of susceptibility genes using either linkage or association studies are quite good. However, recent evidence is accumulating suggesting that the disorder is genetically heterogeneous; higher functioning individuals with autism may arise from separate genetic mechanisms that lower functioning ones. If true, this will make the detection of linkage and association much more difficult. (+info)
Pgk1 and Hprt gene activity in the peri-implantation mouse embryo is influenced by the parental origin of the X-chromosome.
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The activity of two X-linked genes, Pgk1 and Hprt, that are localized on X-chromosomes of different parental origins in the XX mouse embryo was analyzed by the quantification of allele-specific transcripts. For the Pgk1 gene, the maternal allele-specific transcripts were consistently more abundant than the paternal transcripts in the blastocyst and the late gastrula. For the Hprt gene, the Hprt(b) allele was preferentially expressed in the blastocysts when it is present on the maternal X-chromosome. However, this skewed expression of the maternal allele was not observed in the reciprocal situation when the Hprt(a) allele was on the maternal X-chromosome. Like the Pgk1 locus, significantly more maternal Hprt transcripts were found in the gastrula-stage embryos irrespective of their genotypes. One possible interpretation of these results is that, in the XX mouse embryos, the genetic loci on maternal X-chromosome may be transcriptionally more active than their paternal counterparts during peri-implantation development. (+info)
Male homosexuality: absence of linkage to microsatellite markers at Xq28.
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Several lines of evidence have implicated genetic factors in homosexuality. The most compelling observation has been the report of genetic linkage of male homosexuality to microsatellite markers on the X chromosome. This observation warranted further study and confirmation. Sharing of alleles at position Xq28 was studied in 52 gay male sibling pairs from Canadian families. Four markers at Xq28 were analyzed (DXS1113, BGN, Factor 8, and DXS1108). Allele and haplotype sharing for these markers was not increased over expectation. These results do not support an X-linked gene underlying male homosexuality. (+info)
Accelerated filament formation from tau protein with specific FTDP-17 missense mutations.
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Tau is the major component of the neurofibrillar tangles that are a pathological hallmark of Alzheimers' disease. The identification of missense and splicing mutations in tau associated with the inherited frontotemporal dementia and Parkinsonism linked to chromosome 17 demonstrated that tau dysfunction can cause neurodegeneration. However, the mechanism by which tau dysfunction leads to neurodegeneration remains uncertain. Here, we present evidence that frontotemporal dementia and Parkinsonism linked to chromosome 17 missense mutations, P301L, V337M and R406W, cause an accelerated aggregation of tau into filaments. These results suggest one mechanism by which these mutations can cause neurodegeneration and frontotemporal dementia and Parkinsonism linked to chromosome 17. (+info)
Familial pseudohyperkalemia maps to the same locus as dehydrated hereditary stomatocytosis (hereditary xerocytosis).
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Familial pseudohyperkalemia is a "leaky red blood cell" condition in which the cells show a temperature-dependent loss of potassium (K) from red blood cells when stored at room temperature, manifesting as apparent hyperkalemia. The red blood cells show a reduced lifespan in vivo but there is no frank hemolysis. Studies of cation content and transport show a marginal increase in permeability at 37 degrees C and a degree of cellular dehydration, qualitatively similar to the changes seen in dehydrated hereditary stomatocytosis (hereditary xerocytosis). Physiological studies have shown that the passive leak to K has an abnormal temperature dependence, such that the leak is less sensitive to temperature than that in normal cells. We performed genetic mapping on the original family and found that the condition in this kindred maps to the same locus (16q23-ter) that we have previously identified for an Irish family with dehydrated hereditary stomatocytosis, which does not show the same temperature effects. (+info)
The MobA-linked primase is the only replication protein of R1162 required for conjugal mobilization.
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Cells newly transformed with plasmid R1162 DNA were used as donors in conjugal matings to determine if the plasmid replication genes are necessary for transfer. An intact system for vegetative replication is not required for transfer at normal frequency, but the plasmid primase, in the form linked to the nickase, must be present in donor cells. (+info)
Early activated replication origins within the cell cycle-regulated histone H4 genes in Physarum.
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It was previously shown that the two members of the cell cycle-regulated histone H4 gene family, H4-1 and H4-2, are replicated at the onset of S phase in the naturally synchronous plasmodium of Physarum polycephalum, suggesting that they are flanked by replication origins. It was further shown that a DNA fragment upstream of the H4-1 gene is able to confer autonomous replication of a plasmid in the budding yeast. In this paper, we re-investigated replication of the unlinked Physarum histone H4 genes by mapping the replication origin of these two loci using alkaline agarose gel and neutral/neutral 2-dimensional agarose gel electrophoreses. We showed that the two replicons containing the H4 genes are simultaneously activated at the onset of S phase and we mapped an efficient, bidirectional replication origin in the vicinity of each gene. Our data demonstrated that the Physarum sequence that functions as an ARS in yeast is not the site of replication initiation at the H4-1 locus. We also observed a stalling of the rightward moving replication fork downstream of the H4-1 gene, in a region where transient topoisomerase II sites were previously mapped. Our results further extend the concept of replication/transcription coupling in Physarum to cell cycle-regulated genes. (+info)
Isolation of CpG islands from large genomic clones.
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Positional cloning is a powerful method for the identification of genes. Using genetic and physical mapping methods the genomic region within which a particular gene is located can relatively easily be narrowed down to a comparatively small area contained within cosmid, PAC or BAC clones. It is then a matter of identifying genes within these clones. Here we describe the appli-cation of a technique, which has been successfully used for the bulk purification of CpG islands from whole genomes, to the isolation of CpG island sequences from such clones. As CpG islands overlap transcription units they can be used to isolate full-length cDNAs for associated genes, either by probing cDNA libraries or by searching databases. CpG islands are linked with approximately 60% of human genes and because their isolation is independent of the expression profile of these genes this approach would complement other expression-based methods of gene identification. By applying this technique to a cosmid clone known to contain the PAX6 gene we successfully isolated the CpG island for this gene along with other CpG island-like sequences. Closer examination revealed that an extensive genomic region around the 5'-end of PAX6 is unusual with regard to methylation and GC content. CpG island sequences were also successfully isolated from a PAC clone carrying the MBD1 gene. These included the complete CpG island containing the first exon and regulatory sequences from MBD1. (+info)