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Pivot Concepts:
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Target Concepts:
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Query: EC:2.7.7.7 (
DNA polymerase
)
17,007
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The N syndrome is characterized by
mental retardation
, malformations, chromosome breakage, and development of T-cell leukemia (Opitz et al.: Proceedings of the II International Congress IASSMD pp 115-119, 1971; Hess et al.: Clinical Genetics 6:237-246, 1974b, American Journal of Medical Genetics [supplement] 3:383-388, 1987). N syndrome fibroblasts were studied to see if the high chromosome breakage rate associated with this apparently X-linked syndrome could be related to a deficiency of
DNA polymerase alpha
, a product of a gene localized to the X chromosome. Bleomycin, which is known to break double-stranded DNA, produced increased chromosome breakage in normal control, Fanconi anemia, and N syndrome fibroblasts. When aphidicolin was used to inhibit repair mediated by
DNA polymerase alpha
, both normal control and Fanconi anemia fibroblasts showed significantly more chromosome breakage than was produced by bleomycin alone, but there was no increase in the amount of breakage seen in the N syndrome fibroblasts over that seen with bleomycin alone. This suggests that the N syndrome is due to a mutation affecting the region of the X chromosome on which the gene for
DNA polymerase alpha
is located, and that the high risk of T-cell leukemia observed in the hemizygote is due to this DNA repair defect.
...
PMID:DNA polymerase alpha defect in the N syndrome. 168 58
In fragile X syndrome, the most common cause of inherited
mental retardation
, phenotypic expression has been linked to a region containing a repetitive sequence, (CGG)n, that appears to lengthen dramatically in fragile X patients and to show length variation in normal individuals. In order to investigate possible mechanisms responsible for further expansion of CGG in the normal population, we selected 31 normal unrelated X chromosomes carrying either the high-risk DX204-AC155 or DX196-AC151 haplotypes, as defined by the flanking microsatellites, DXS548 and FRAXAC2. Nearly 100% of CGGs with more than 35 repeats were found on DX204-AC155 haplotypes, with a mean length significantly higher and much more variable than in normal individuals carrying other haplotypes including the high-risk haplotype DX196-AC151. These findings suggest that the transition from the normal to the abnormal range occurs by a multistep process, a primary event, such as unequal crossing-over, leading to increased size and moderate instability of the repeat, and from which
DNA polymerase
slippage could lead to recurrent premutations. Our results also suggest that the upper limit of the normal range is roughly 35 repeats in the fragile X gene. The 36-54 repeats range would define an intermediate allele only observed, up to now, in DX204-AC155 fragile X chromosomes.
...
PMID:Transition from normal to premutated alleles in fragile X syndrome results from a multistep process. 804 57
The triplet repeat sequences (CGG)n, (GCT)n, and (CAG)n, which naturally occur in the human genome, can be autonomously expanded in human DNA by an as yet unknown mechanism. These in part excessive expansions have been causally related to human genetic diseases, the fragile X (Martin-Bell) syndrome, to myotonic dystrophy (Curschmann-Steinert), to spinal and bulbar muscular atrophy (Kennedy disease), and recently to Huntington disease. A GCC trinucleotide repeat was found to be expanded and methylated in the fragile site FRAXE on the human X chromosome. These findings were associated with
mental retardation
(Knight et al., 1993). In spinocerebellar ataxia type 1 (SCA1), a polymorphic CAG repeat was found to be unstable and expanded in individuals with that disease (Orr et al., 1993). We have demonstrated in in vitro experiments that the synthetic oligodeoxyribonucleotides (CGG)17, (CGG)12, (GCC)17, (CG)25, (CTG)17, or (CAG)17 plus (GTC)17, in the absence of added natural DNA, can be expanded with Taq polymerase in the polymerase chain reaction (PCR). Some expansion can already be detected after 4 PCR cycles. The E. coli Klenow
DNA polymerase
also functions in a similar amplification and expansion reaction performed at 37 degrees C without cycling. Other oligodeoxyribonucleotides, like, (CGG)7, (CGGT)13, or (TAA)17, are devoid of this property or have very low activity. The cytidine-methylated polymers (GCC)17 or (CG)25 yield expansion products of considerably reduced chain lengths. The expansion of the polymer (CGG)17 is affected by cytidine methylation to a lesser degree. A specific sequence and/or secondary structure and high CG content appear to be requirements for this expansion reaction by a possible slippage mechanism.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Enzymatic amplification of synthetic oligodeoxyribonucleotides: implications for triplet repeat expansions in the human genome. 811 62
The human fragile-X syndrome, a major cause of inherited
mental retardation
, is associated with expansion of the trinucleotide repeat GGC:GCC. Repetitive sequences in DNA are subject to slippage during catalysis by DNA polymerases. We characterized the extent of slippage of synthetic GGC:GCC repeats by various DNA polymerases:
Taq DNA polymerase
,
Klenow fragment
of
DNA polymerase I
, DNA Sequence, DNA polymerase-alpha and polymerase-beta, as well as HIV reverse transcriptase. All of these enzymes were found to expand GGC:GCC repeats, with the most extensive expansion exhibited by
Taq DNA polymerase
. Starting with a template and primer, each 15 nucleotides (nt) in length, the product of one round of synthesis by Taq polymerase is as long as 250 nt. Sequence analysis of cloned DNA fragments expanded by Taq polymerase indicates that expansion involves multiple triplet additions and that it is asymmetric. The asymmetric distribution of terminal nucleotides in the expanded product is consistent with active expansion of the GCC strand and passive additions onto the GGC strand. The preferential elongation and expansion of the GCC strand was confirmed in studies utilizing longer repeats within a single-stranded M-13 template.
...
PMID:In vitro expansion of GGC:GCC repeats: identification of the preferred strand of expansion. 875 19
Fragile X syndrome, the most common cause of hereditary
mental retardation
, results from amplification of a CGG trinucleotide repeat in the FMR1 gene. The transmission of the CGG repeat from premutated individuals to their premutated descendants is usually unstable, showing an increase in the size of the repeat. We report here a family which exhibits recurrent and unexpected transmission of the maternal premutation to three daughters. The first daughter exhibited mosaicism with two premutated alleles, one contracted and the other expanded. The second daughter showed a reversion from the maternal premutation to the normal range, and the third carried an expanded premutated allele associated with an expanded paternal allele within the normal range. These variations in the size of the CGG repeat may result from many different mechanisms such as
DNA polymerase
slippage on the leading or lagging strand during replication, large contractions of repeats on the parental strand during replication, or recombination through unequal crossover between sister chromatids. Our results suggest that the variation of the CGG premutated alleles in this family may be the result of intrinsic instability associated with a trans-acting factor such as a mismatch repair gene product.
...
PMID:Recurrent and unexpected segregation of the FMR1 CGG repeat in a family with fragile X syndrome. 883 53
Seckel syndrome (SCKL) is a rare, genetically heterogeneous disorder, with dysmorphic facial appearance, growth retardation, microcephaly,
mental retardation
, variable chromosomal instability, and hematological disorders. To date, three loci have been linked to this syndrome, and recently, the gene encoding ataxia-telangiectasia and Rad3-related protein (ATR) was identified as the gene mutated at the SCKL1 locus. The ATR mutation affects splicing efficiency, resulting in low levels of ATR in affected individuals. Elsewhere, we reported increased instability at common chromosomal fragile sites in cells lacking the replication checkpoint gene ATR. Here, we tested whether cells from patients carrying the SCKL1 mutation would show increased chromosome breakage following replication stress. We found that, compared with controls, there is greater chromosomal instability, particularly at fragile sites, in SCKL1-affected patient cells after treatment with aphidicolin, an inhibitor of
DNA polymerase alpha
and other polymerases. The difference in chromosomal instability between control and patient cells increases at higher levels of aphidicolin treatment, suggesting that the low level of ATR present in these patients is not sufficient to respond appropriately to replication stress. This is the first human genetic syndrome associated with increased chromosome instability at fragile sites following replication stress, and these findings may be related to the phenotypic findings in patients with SCKL1.
...
PMID:Chromosomal instability at common fragile sites in Seckel syndrome. 1530 89
Cytomegalovirus (CMV) is one of the major human health threats worldwide, especially for immunologically comprised patients. CMV may cause opportunistic infections, congenital infections, and brain diseases (e.g.,
mental retardation
and glioblastoma). The etiology of brain diseases associated with human CMV (HCMV) infections is usually complex and it is particularly difficult to treat because HCMV has a life-long infection in its hosts, high mutation rate, and latent infections. Moreover, it is almost impossible to eradicate latent viruses in humans. Although there has been progress in drug discovery recently, current drugs used for treating active CMV infections are still limited in efficacy due to side effects, toxicity, and viral resistance. Fortunately, letermovir which targets the HCMV terminase complex rather than
DNA polymerase
with fewer adverse reactions has been approved to treat CMV infections in humans. The researchers are focusing on developing approaches against both productive and latent infections of CMV. The gene or RNA targeting approaches including the external guide sequences (EGSs)-RNase, the clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9 (Cas9) system and transcription activator-like effector nucleases (TALENs) are being investigated to remove acute and/or latent CMV infections. For the treatment of glioblastoma, vaccine therapy through targeting specific CMV antigens has improved patients' survival outcomes significantly and immunotherapy has also emerged as an alternative modality. The advanced research for developing anti-CMV agents and approaches is promising to obtain significant outcomes and expecting to have a great impact on the therapy of brain diseases associated with CMV infections.
...
PMID:Potential Therapeutic Approaches Against Brain Diseases Associated with Cytomegalovirus Infections. 3208 71
