Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0043346 (xeroderma pigmentosum)
2,924 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The frequency of BrdU-induced sister chromatid exchanges (SCE) in cultured lymphocytes from patients with ataxia telangiectasia, Werner syndrome, and xeroderma pigmentosum was normal. The rate was increased in xeroderma pigmentosum following exposure to ultraviolet light and spontaneously raised in the Bloom syndrome. Quadriradial exchanges between homologous chromosomes in Bloom syndrome not only involve sister chromatids but also homologous (non-sister) chromatids. This could result in the formation of recombinant chromosomes and is viewed as a genetically determined form of increased somatic recombination in man. Endoreduplicated metaphases showed 'twin' and 'single' exchanges in a 1:2 ratio. This suggests a comparable frequency of exchanges at both divisions and provides evidence for the polarity of the chromatid subunits and the presence of a single chain of DNA.
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PMID:Chromatid exchanges in ataxia telangiectasia, Bloom syndrome, Werner syndrome, and xeroderma pigmentosum. 96 24

A systematic review of the more than 2,000 genetic loci of man cataloged by McKusick indicated that approximately 7% may play a role in modulating the rates of development of various aspects of the senescent phenotype. Assuming an upper limit of about 100,000 loci in man, numerous alleles at approximately 7,000 loci could be contributing to characteristic patterns of aging in individual human beings. Point mutations or chromosomal aberrations involving such loci may result in various progeroid syndromes. These have been classified into two categories: segmental progeroid syndromes, which involve multiple aspects of the senescent phenotype, and unimodal progeroid syndromes, in which predominantly one aspect of the phenotype is involved. Two different examples of segmental progeroid syndromes were discussed: the Werner syndrome (an autosomal recessive) and the Down syndrome (trisomy 21). Examples of unimodal progeroid syndromes included familial hypercholesterolemia (accelerated atherogenesis), xeroderma pigmentosum (acceleration of skin aging, including age-related neoplasms), and certain forms of intestinal polyposis (acceleration of adenocarcinoma of the colon). It is remarkable and encouraging that the biochemical genetic basis of many progeroid syndromes, including all of those mentioned above, may be amenable to investigation with cultured mesenchymal somatic cells from individual subjects. For example, cells from patients with the Werner's syndrome have a striking limitation of their in vitro replicative life-spans and undergo extensive chromosomal rearrangements. These abnormalities are presumably related to an enzyme deficiency which, in principle, could be identified by biochemical studies of cultured cells.
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PMID:Syndromes of accelerated aging. 621 19

Werner syndrome is a rare autosomal recessive disorder that mimics some of the characteristics of aging. The gene for this disorder has recently been identified as a helicase of the recQ subclass. Other phenotypically distinctive disorders caused by different helicase mutations include Bloom syndrome, Cockayne syndrome, xeroderma pigmentosum and trichothiodystrophy. Possible mechanisms by which helicases might produce the variable phenotypes are discussed. These include altered nucleotide excision repair and RNA polymerase II-mediated transcription. The discovery of the helicase defect in Werner syndrome provides a road map for future study of its unique pathogenesis and conceivable, but unproved, relationship to the aging process.
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PMID:Werner syndrome: entering the helicase era. 897 61

Most of the genes involved in the pathogenesis of the DNA replication and repair syndromes have now been cloned, and our understanding of the basis for the pleiotropic phenotype associated with many of these syndromes has rapidly and dramatically expanded. The elucidation of the specific interactions between proteins that comprise the transcription factor complex TFIIH raises the possibility that nucleotide excision repair, RNA polymerase II transcription, and cell cycle control are connected. Defects in the XPB, XPD, and XPG genes can result in three different syndromes, xeroderma pigmentosum, Cockayne syndrome, or trichothiodystrophy, depending on the specific mutation involved. The recent cloning of the genes involved in Bloom syndrome (BLM) and Werner syndrome (WRN) show that both are DNA and RNA helicases with homology to each other and to other DExH box helicases, yet the mechanism by which defects in these genes cause such different phenotypes is not yet understood. The ataxia-telangiectasia gene (ATM) is involved in a variety of signal transduction pathways that regulate the cellular response to normal proliferative stimuli as well as the response to DNA damage, and the disruption of these signal transduction pathways provides an explanation for ataxia-telangiectasia characteristics such as ionizing radiation sensitivity, immunodeficiency, and infertility. Although the first Fanconi anemia gene (FAC) was cloned over 5 years ago, and a second Fanconi anemia gene (FAA) was cloned in 1996, the biochemical function of Fanconi anemia proteins largely remains a mystery. The recent construction of mutant mouse strains for several of these diseases should help unlock the difficult puzzle of the pathogenesis of these syndromes.
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PMID:Disorders of DNA replication and repair. 942 94

The hRAD54 protein belongs to a superfamily of DNA helicases, and mutations in genes with DNA helicase function have been found to be responsible for cancer-prone syndromes (xeroderma pigmentosum, Bloom syndrome, Werner syndrome). hRAD54 thus could be a candidate modifier gene in tumors characterized by allelic imbalance at 1p32, the chromosome region in which this gene is located. Using a panel of 38 1p and five 1q markers, we therefore performed deletion-mapping analysis on a series of 35 oligodendrogliomas, which were also studied for mutations in the hRAD54 gene. Deletions of the short arm of chromosome 1 were evidenced in 26 tumors, mostly involving 1p36-1p13; all thus displayed loss of the 1p32 region. We used PCR/SSCP to examine all 18 exons of the hRAD54 gene for mutations in 25 tumors, but the mobility shifts detected corresponded to previously identified polymorphic changes: T-to-C transition at nucleotide 2865 (with no amino acid change) and at nucleotide 3008, at the 3' untranslated region. We conclude that hRAD54 gene alterations are not required for malignant transformation of oligodendrogliomas.
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PMID:hRAD54 gene and 1p high-resolution deletion-mapping analyses in oligodendrogliomas. 1064 Jan 46

Studying monogenic hereditary disorders that manifest age-related phenotypes in cells, tissues, and the total organism would be helpful for clarifying the mechanisms of aging. In this context, seven human disorders that manifest age-related phenotypes have been found to be caused by aberrations of five proteins with seven helicase motifs conserved in most of the helicases. These disorders are xeroderma pigmentosum, Cockayne syndrome, trichothiodystrophy, Bloom syndrome, Werner syndrome, X-linked alpha-thalassemia/mental retardation syndrome, and Juberg-Marsidi syndrome. A decline of probably pleiotropic and fundamental function of helicases in these disorders is, therefore, implied to underlie not only the various age-related phenotypes of the disorders but also the pleiotropic and universal nature of ordinary aging. Consistent with this implication, studies of these seven disorders suggest that their various age-related phenotypes are caused by aberrations in multiple processes, especially transcription. Furthermore, a few studies imply some association between aberration of the helicases and phenotypes in ordinary aging.
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PMID:Helicases and aging. 1089 38

DNA helicases are a highly conserved group of enzymes that unwind DNA. They function in all processes in which access to single-stranded DNA is required, including DNA replication, DNA repair and recombination, and transcription of RNA. Defects in helicases functioning in one or more of these processes can result in characteristic human genetic disorders in which genomic instability and predisposition to cancer are common features. So far, different helicase genes have been found mutated in six such disorders. Mutations in XPB and XPD can result in xeroderma pigmentosum, Cockayne syndrome, or trichothiodystrophy. Mutations in the RecQ-like genes BLM, WRN, and RECQL4 can result in Bloom syndrome, Werner syndrome, and Rothmund-Thomson syndrome, respectively. Because XPB and XPD function in both nucleotide excision repair and transcription initiation, the cellular phenotypes associated with a deficiency of each one of them include failure to repair mutagenic DNA lesions and defects in the recovery of RNA transcription after UV irradiation. The functions of the RecQ-like genes are unknown; however, a growing body of evidence points to a function in restarting DNA replication after the replication fork has become stalled. The genomic instability associated with mutations in the RecQ-like genes includes spontaneous chromosome instability and elevated mutation rates. Mouse models for nearly all of these entities have been developed, and these should help explain the widely different clinical features that are associated with helicase mutations.
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PMID:DNA helicases, genomic instability, and human genetic disease. 1170 36

Deoxyribonucleic acid (DNA) repair is a fundamental process designed to keep the integrity of genomic DNA that is continuously challenged by intrinsic or environmental induced alterations. Numerous genes involved in DNA repair have been cloned and are involved in different DNA repair pathways: base excision repair, nucleotide excision repair, mismatch repair, DNA recombination. Inherited conditions due to mutations in DNA repair genes include mainly: xeroderma pigmentosum, Cockayne syndrome, Trichothiodystrophy, Bloom syndrome, Rothmund-Thomson syndrome, and Werner syndrome. Minor to major ocular manifestations occur in these syndromes. For example, eyelid skin cancers in xeroderma pigmentosum and retinal dystrophy in Cockayne syndrome are major features of these syndromes. This review focuses on the DNA repair pathways, the general and ocular features of the related syndromes, the laboratory tests useful for diagnosis, and the general processes implied with DNA repair (ultraviolet sensitivity, carcinogenesis, apoptosis, oxydative stress, and premature aging).
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PMID:Ocular manifestations in the inherited DNA repair disorders. 1255 31

Proteins having DNA helicase activity play very important roles in many processes involving DNA workings such as replication, repair, and recombination. In this decade, many DNA helicase genes have been cloned as the causative genes of human recessive heredity diseases. These are the causative genes for Xeroderma pigmentosum (XPB and XPD), Cockayne syndrome (CSB), diffuse collagen disease (Ku80), alpha-thalassmia (ATR-X), Bloom syndrome (BLM), Werner syndrome (WRN) and Rothmund-Thomson syndrome (RTS). The yeast homologue genes of these human DNA helicase genes exist. S. cerevisiae RAD25/SSL2, RAD3, RAD26, YKU80/HDF2 and RAD54 are the homologue for XPB/ERCC3, XPD/ERCC2, CSB/ERCC6, Ku80/XRCC5 and ATR-X/HX2, respectively. E coli. recQ gene and S. cerevisiae SGS1 are the homologue for all BLM, WRN and RTS. A search of whole genome of S. cerevisiae revealed that SGS1 is the sole homologue of recQ in S. cerevisiae. Thus it seems likely that SGS1 is a functional homologue of one or several human RecQ family genes. Many basic or essential functions are well conserved in the cells from lower eukaryotic to higher mammalian. The functional analysis in yeast could make an useful insight for the human homologue. To clarify the functions of S. cerevisiae Sgs1 and to get an insight into the functions of Blm, Wrn and Rts, in this study, we analyzed the phenotype of sgs1 disruptant and in detail the cause of the poor sporulation phenotype of sgs1 disruptants in relation to meiotic processes including meiotic recombination. The poor sporulation of sgs1 disruptants was complemented with a mutated SGS1 gene encoding a protein lacking DNA helicase activity; however, the mutated gene could suppress neither the sensitivity of sgs1 disruptants to methyl methanesulfonate (MMS) and hydroxyurea nor the mitotic hyperrecombination phenotype of sgs1 disruptants. The N-terminal 1-45 amino acid region and 698-1195 amino acid region of Sgs1, which including helicase domain and C-terminal RecQ conserved region with helicase activity, were required for complementation of MMS sensitivity and suppression of hyperrecombination of sgs1 disruptants in mitotic growth. The 126-400 and 596-1195 amino acid regions of Sgs1 were required for complementation of poor sporulation and of reduced meiotic functions. These regions required for the mitotic or meiotic functions of Sgs1 were well overlapped with the interaction regions of Top3 and Top2. Some of these results might explain the mechanism of the symptom of RecQ-related syndromes.
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PMID:[Functional analysis of yeast homologue gene associated with human DNA helicase causative syndromes]. 1263 84

Defects of DNA repair underlie genetic syndromes. Chromosomal aberrations and mutations might cause specific inborn defects. There are several syndromes with characteristic clinical features, which appear to be caused by chromosome instability which is a consequence of DNA repair defects. This article describe syndromes where hereditary mutations are the reason of chromosomal instability and cause serious clinical results: ataxia-telangiectasia, Nijmegen breakage syndrome, Bloom syndrome, Fanconi's anemia, ICF syndrome, Roberts syndrome, dominantly inherited--PCD, Werner syndrome, xeroderma pigmentosum, Cockayne syndrome, trichothiodystrophy (TTD) and Rothmund-Thomson syndrome (RTS).
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PMID:[Chromosome instability syndromes]. 1687 67


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