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Query: UNIPROT:P00492 (
hypoxanthine-guanine phosphoribosyltransferase
)
2,385
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Xq26-q27 region of the X chromosome is interesting, as an unusually large number of genes and
anonymous
RFLP probes have been mapped in this area. A number of studies have used classical linkage analysis in families to map this region. Here, we use mutant human T-lymphocyte clones known to be deleted for all or part of the
hypoxanthine-guanine phosphoribosyltransferase
(
hprt
) gene, to order
anonymous
probes known to map to Xq26. Fifty-seven T-cell clones were studied, including 44 derived from in vivo mutation and 13 from in vitro irradiated T-lymphocyte cultures. Twenty
anonymous
probes (DXS10, DXS11, DXS19, DXS37, DXS42, DXS51, DXS53, DXS59, DXS79, DXS86, DXS92, DXS99, DXS100d, DXS102, DXS107, DXS144, DXS172, DXS174, DXS177, and DNF1) were tested for codeletion with the
hprt
gene by Southern blotting methods. Five of these probes (DXS10, DXS53, DXS79, DXS86 and DXS177) showed codeletion with
hprt
in some mutants. The mutants established the following unambiguous ordering of the probes relative to the
hprt
gene: DXS53-DXS79-5'hprt3'-DXS86-DXS10-DXS177 . The centromere appears to map proximal to DXS53. These mappings order several closely linked but previously unordered probes. In addition, these studies indicate that rather large deletions of the functionally haploid X chromosome can occur while still retaining T-cell viability.
...
PMID:Fine structure mapping of the hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene region of the human X chromosome (Xq26). 167 46
Because the human
hprt
gene is used in numerous mutation studies, it is important to fully characterize this gene. Therefore, our laboratory has undertaken to map the region around the
hprt
gene at band q26 of the human X chromosome. Utilizing
hprt
mutant T-cell clones isolated using the
hprt
clonal assay, which have deletions of all or part of the
hprt
gene, we have ordered 5
anonymous
probes previously known to map in Xq26. Results suggest that this region includes between 460 kb and 18 Mb of DNA, which is at least 10 times the size of the
hprt
gene itself (43 kb). Pulsed field gel analysis of the region is underway to determine the exact distances between each of the
anonymous
probes and
hprt
and to determine deletion sizes in the mutant T-cell clones.
...
PMID:Analysis of human HPRT deletion mutations with X-linked probes and pulsed field gel electrophoresis. 174 89
Southern blotting techniques were employed to examine the spectrum of molecular alterations in DNA induced by internally emitting iodine isotopes and X-rays at and around the
hprt
locus in a human lymphoblastoid cell line. We analyzed 165 mutant clones using a cDNA probe for the human
hprt
locus, and 3
anonymous
sequence probes for regions of the X chromosome which are linked to
hprt
. The results were compared with those for 35 spontaneously arising mutant clones. The majority of ionizing radiation-induced mutants showed changes in the normal restriction patterns at the
hprt
locus, whereas very few alterations were seen at linked markers along the X chromosome. Total
hprt
coding sequence deletions comprised 30-48% of the changes observed at this locus, while partial deletions and rearrangements comprised 14-54% of the observed changes. In the case of mutants induced by [125I]dUrd, a densely ionizing radiation, the spectrum of alterations was dose-dependent; at low doses it was not significantly different from that seen after sparsely ionizing X-ray exposure, whereas a higher proportion of gene deletions and rearrangements occurred after high doses of this incorporated isotope. Changes were rarely observed in the 3 linked markers examined. Overall, these results indicate that the distribution of mutational events at the
hprt
locus in irradiated human cells may not only be LET-dependent but dose-dependent, and that deletions involving large regions of the X chromosome surrounding the
hprt
locus are rare events.
...
PMID:Molecular characterization of hprt mutants induced by low- and high-LET radiations in human cells. 230 83
The reciprocal t(11;22)(q23;q11) is the most common non-Robertsonian constitutional translocation in humans. The tumor-associated 11;22 rearrangement of Ewing sarcoma (ES) and peripheral neuroepithelioma (NE) is cytologically very similar to the 11;22 constitutional rearrangement. Using immunoglobulin light-chain constant region, ETS1 probes, and the technique of in situ hybridization, we previously were able to show that the constitutional and ES/NE breakpoints are different. As a first step toward isolating these translocation junctions and to further distinguish between them, we have made somatic cell hybrids. Cells from a constitutional 46,XX,inv(9),t(11;22) carrier and from an ES cell line with a t(11;22) were separately fused to a
hypoxanthine-guanine phosphoribosyltransferase
-deficient Chinese hamster cell line (RJK88). Resulting clones were screened with G-banding and Southern hybridization. Hybrid clones derived from the constitutional t(11;22) were established which contained the der(22) and both the der(22) and the der(11). Hybrid clones derived from the ES cell line containing the der(11) were isolated. Using the technique of Southern hybridization we have sublocalized the loci; ApoA1/C3, CD3D, ETS1, PBGD, THY1, D11S29, D11S34, and D11S147 to the region between the two breakpoints on chromosome 11 and V lambda I, V lambda VI, V lambda VII, and D22S10 to the region between the breakpoints on chromosome 22. Using
anonymous
DNA probes, we found that D22S9 and D22S24 map proximal to the constitutional breakpoint and that D22S15 and D22S32 map distal to the ES breakpoint on chromosome 22.
...
PMID:Comparative mapping of the constitutional and tumor-associated 11;22 translocations. 274 43
Using human
hypoxanthine-guanine phosphoribosyltransferase
(
HPRT
) cDNA and an
anonymous
probe 36B-2, we examined the segregation of restriction fragment length polymorphism (RFLP) alleles with the Lesch-Nyhan phenotype in three affected families. Two families were informative. Five carriers of the mutation in one family and two potential carriers in the second were heterozygous for either one or both polymorphisms allowing for prenatal diagnosis. Southern blot patterns in patients from these three families indicated the absence of major structural alterations in the defective gene. Northern analysis using
HPRT
cDNA as a probe revealed no hybridizing RNA in one patient, whereas normal size mRNA was expressed at a very low level in the second and at a level comparable to normal in the third. These data are consistent with heterogeneity of Lesch-Nyhan genetic lesions resulting from point mutations or small DNA deletions or rearrangements, which may affect transcription, stability, or integrity of the
HPRT
message.
...
PMID:Lesch-Nyhan syndrome: molecular investigation of three French Canadian families using a hypoxanthine-guanine phosphoribosyltransferase cDNA probe. 290 4
Two
anonymous
X-specific sequences isolated from a genomic library of flowsorted X chromosomal DNA were selected for study because they revealed restriction fragment length polymorphisms in the region Xq26----qter. One sequence, DXS10, detected a two-allele TaqI polymorphic system with allele frequencies of 0.33 and 0.67. The other, 4D-8, defined an MspI polymorphism with allele frequencies of 0.18 and 0.82. DXS10 is tightly linked to the
hypoxanthine phosphoribosyltransferase
(
HPRT
) locus with recombination distance theta = O cM at LOD = 5.55 (95% probability limit theta less than 15 cM). DXS10 maps to Xq26 but is not contained within the
HPRT
locus itself. 4D-8 shows no detectable linkage to the
HPRT
locus, with maximum likelihood estimate for theta = 50 cM and a LOD score of -2.61 at theta = 5 cM. These two polymorphisms provide additional chromosomal loci for gene mapping by linkage at the distal end of the long arm of the human X chromosome.
...
PMID:Two anonymous X-specific human sequences detecting restriction fragment length polymorphisms in region Xq26----qter. 609 63
Characteristics of the allelic polymorphisms of the trimeric AGC repeat of the androgen receptor gene (Xq11-12), exon 1 (AR); the tetrameric ATCT repeat of the von Willebrand factor gene (12p12), intron 40 (vWF); the AGAT repeat of the
hypoxanthine phosphoribosyltransferase
gene (Xq26) (HPRT); and the AGAT repeat of
anonymous
DNA sequences of the short arm of chromosome X (STRX1) were studied in 160 DNA samples from unrelated inhabitants of northwestern Russia using the method of polymerase chain reaction. Seventeen, ten, eight, and nine alleles were revealed electrophoretically for short tandem repeats of AR, vWF, HPRT, and STRX1, respectively. The heterozygosity indices for these repeats were 0.80, 0.70, 0.54, and 0.58, respectively. The values for AR and vWF correlated with those expected, according to the Hardy-Weinberg equilibrium, whereas the values for HPRT and STRX1 differed significantly from those theoretically expected. The individualization potentials were 0.045, 0.135, 0.095, and 0.061 for the short tandem repeats of AR, vWF, HPRT, and STRX1, respectively. The distribution of genotypes for the set of these four loci in the population studied was determined. The possibilities of using the studied polymorphic marker systems in molecular diagnosis of the corresponding monogenic diseases--spinal and bulbar muscle atrophy (AR), Lesch-Nyhan disease (HPRT), and von Willebrand disease (vWF)--as well as in population human genetics, testing of personal identity, and molecular approaches to the estimation of mutagenic activity are discussed.
...
PMID:[Analysis of the allelic polymorphism of four short tandem repeats in a population from the northwestern region of Russia]. 763 21
