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
Query: EC:2.4.2.8 (
hypoxanthine-guanine phosphoribosyltransferase
)
2,527
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
X; autosomal translocations are excellent tools for genetic analysis because of the easy selection of clones isolating the derivative bearing the
HPRT
gene in somatic cell hybrids. We have developed a strategy to select clones isolating the other derivative avoiding fastidious and time consuming technics, mainly based on immunofluorescent screening using MIC 2 and MIC 5 antigenic markers and we have succeeded in isolating in a rodent context the two X;5 translocated derivative chromosomes of a female patient with Hunter syndrome. The location of MIC 5 gene was specified between the
IDS
and G6PD DXS369 (RN1), DXS296 (VK21c), and DXS304 (U62), DXS52 and F8c (F814) are proximal and distal from the breakpoint disrupting the
IDS
gene respectively.
...
PMID:Strategy for constructing somatic hybrids isolating the two derivative chromosomes in X;autosome translocations. Application to a female patient t(X;5) with Hunter syndrome. 212 8
Cytosine methylation at promoter regions and late replication timing have both been implicated in the regulation of genes subject to X chromosome inactivation. Reported here are studies of X-linked gene replication in normal male and female cells as well as in cell hybrids that contain either a normal active X, a normal inactive X, or an inactive X chromosome that has been treated with the demethylating agent, 5-azacytidine (5aC). The relationship between replication timing and transcriptional activity was examined for XIST, XPCT, PGK1,
HPRT
, F9, FMR1,
IDS
, and G6PD, and earlier replication was generally found to be associated with increased transcriptional activity. The
HPRT
and G6PD genes in an untreated inactive X hybrid were among the few exceptions to this correlation in that they remain inactive, yet replicate earlier than their inactive X alleles present in normal human diploid cells. This condition of earlier replication timing may contribute to the high rates of 5aC-induced reactivation for
HPRT
and G6PD in this hybrid relative to other inactive X hybrids. Other anomalous cases include 5aC-induced advances in replication time for genes such as XIST and F9 whose transcription was unaltered by treatment. These and other data support a model for regulation of X-inactivated genes that involves at least two levels of control: (i) large chromosomal domains are placed into a transcriptionally nonpermissive state by late replication and (ii) transcription is blocked at the local level by promoter methylation. In addition, our observations of continued XIST expression in 5aC-treated hybrids with reactivated genes indicates that such expression is not sufficient for the maintenance of X inactivation.
...
PMID:Role of late replication timing in the silencing of X-linked genes. 887 76
