Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Somatic cell selective techniques and hybridization analyses with a cloned cDNA probe were used to isolate and identify Chinese hamster cell lines in which the X-linked gene for hypoxanthine-guanine phosphoribosyltransferase (HGPRT) has been altered. Two of 19 HGPRT-deficient mutants selected were found to have major DNA deletions affecting the HGPRT locus. Cytogenetic studies revealed that the X chromosome of each deletion mutant had undergone a translocation event, whereas those from the remaining 17 mutants were normal. Phenotypic revertants of the thermosensitive HGPRT mutant RJK526 were isolated, and amplification of the mutant allele was shown to be the predominant mechanism of reversion. Comparisons of restriction enzyme fragments of DNA from deletion versus amplification strains identified two regions of the Chinese hamster genome that contained homology to the cDNA probe. One was shown to be much larger than the 1,600-nucleotide mRNA for HGPRT and to be comprised of linked fragments that contained the functional HGPRT gene. The second was neither transcribed nor tightly linked to the functional gene. These initial studies of HGPRT alterations at the level of DNA thus identified molecular mechanisms of phenotypic variation.
Mol Cell Biol 1983 Jun
PMID:Deletion and amplification of the HGPRT locus in Chinese hamster cells. 687 39

Human skin may be considered as a target organ for androgens, as are male sex accessory organs, since all events involved in testosterone action have been observed in this tissue. As a corollary, the mechanism of androgen action can be studied in vitro in cultured skin fibroblasts. The advantages of this system are that studies can be performed with intact human cells under carefully controlled conditions, differentiated genetic and biochemical characteristics of the cells are faithfully preserved and the biological material is renewable from a single biopsy specimen. The metabolism of androgens, in particular the 5 alpha-reduction of testosterone to the active metabolite, dihydrotestosterone, the intracellular binding of androgen to its specific receptor protein and its subsequent translocation to the nucleus have been studied in skin fibroblasts. The intracellular androgen receptor content of genital skin fibroblasts is higher than that from nongenital skin sites. In addition, the androgen receptor has been characterized as a specific macromolecule with properties of high affinity and low capacity similar to that of other steroid hormone receptors. The pathophysiology of three genetic mutations which alter normal male sexual development and differentiation has been identified in the human skin fibroblast system. In 5 alpha-reductase deficiency, an autosomal recessive disorder in which dihydrotestosterone formation is impaired, virilization of the Wolffian ducts is normal but the external genitalia and urogenital sinus derivatives are female in character. At least two types of X-linked disorders of the androgen receptor exist such that the actions of both testosterone and dihydrotestosterone are impaired and developmental abnormalities may involve both Wolffian derivatives and the external genitalia as well. These two forms of androgen insensitivity result from either the absence of androgen receptor binding activity (receptor (-) form) or apparently normal androgen receptor binding with absence of an appropriate biological response (receptor (+) form). In addition, studies with human skin fibroblasts may also be of value in defining the cellular mechanisms underlying the broad spectrum of partial defects in virilization. In summary, we have correlated our studies of the molecular mechanism of androgen action in human genital skin fibroblasts with those of other investigators as these studies contribute to our understanding of male sexual development and differentiation.
Mol Cell Biochem 1981 Apr 13
PMID:Cultured human skin fibroblasts: a model for the study of androgen action. 701 79

Pelizaeus-Merzbacher disease (PMD) is an X-linked neurological disorder characterized by dysmyelination in the central nervous system (CNS). Recently mutations of the myelin proteolipid protein (PLP) gene which encodes both PLP and its isoform, DM-20 generated by alternative splicing, have been demonstrated in PMD patients. We analyzed the seven exons of the PLP gene of a Japanese boy affected with PMD by direct sequencing and identified an insertion event in exon VII of the PLP gene. This mutation was also present in his carrier mother, but was absent in ninety-five X chromosomes of normal Japanese. The frame-shift mutation leads to the production of truncated PLP with altered carboxyl terminal amino acid sequences, resulting in considerable change of the structure of PLP and DM-20 necessary for functional purposes. This is the first report of a mutation in exon VII of the PLP gene associated with PMD.
Hum Mol Genet 1993 Dec
PMID:A novel insertional mutation at exon VII of the myelin proteolipid protein gene in Pelizaeus-Merzbacher disease. 750 34

We have used genomic sequencing aided by ligation-mediated PCR (LMPCR) to assay for 5-methylcytosine in the CpG-rich promoter region of the mouse X-linked phosphoglycerate kinase gene (Pgk-1). Earlier studies showed that there was very heavy methylation of CpG dinucleotides in the CpG-rich promoter of the human PGK1 gene on the inactive X chromosome (the Xi), but that these same sites were completely unmethylated on the active X chromosome (the Xa). For mouse Pgk-1, previous restriction enzyme analysis had shown apparently complete methylation of only one cytosine in the promoter region on the Xi, at HpaII site H7, which is located in the untranslated region, 28 nucleotides upstream of the translation start site. We analyzed this potentially critical region by combining the use of HpaII with LMPCR, and find that the CpG dinucleotides near H7 are either unmethylated or only partially methylated on the Xi. LMPCR analysis of male and female DNA over a 490-bp sequence including the promoter and enhancer extend the finding of relative hypomethylation on the mouse Xi to include all CpG dinucleotides in this region. These results are relevant to the role of DNA methylation in stabilizing the inactive state of chromatin. In addition, we find that caution must be exercised in using LMPCR for methylation analysis of some sequences. A DNA concentration-dependent band-suppression artifact can incorrectly suggest methylation of both CpG and nonCpG dinucleotides.
Somat Cell Mol Genet 1993 Nov
PMID:Methylation analysis by genomic sequencing of 5' region of mouse Pgk-1 gene and a cautionary note concerning the method. 751 Apr 22

Tyrosine phosphorylation of several cellular proteins is one of the earliest signaling events induced by cross-linking of the high-affinity receptor for immunoglobulin E (Fc epsilon RI) on mast cells or basophils. Tyrosine kinases activated during this process include the Src family kinases, Lyn, c-Yes, and c-Src, and members of another subfamily, Syk and PTK72 (identical or highly related to Syk). Recently, some of us described two novel tyrosine kinases, Emb and Emt, whose expression was limited to subsets of hematopoietic cells, including mast cells. Emb turned out to be identical to Btk, a gene product defective in human X-linked agammaglobulinemia and in X-linked immunodeficient (xid) mice. Here we report that Fc epsilon RI cross-linking induced rapid phosphorylation on tyrosine, serine, and threonine residues and activation of Btk in mouse bone marrow-derived mast cells. A small fraction of Btk translocated from the cytosol to the membrane compartment following receptor cross-linking. Tyrosine phosphorylation of Btk was not induced by either a Ca2+ ionophore (A23187), phorbol 12-myristate 13-acetate, or a combination of the two reagents. Co-immunoprecipitation between Btk and receptor subunit beta or gamma was not detected. The data collectively suggest that Btk is not associated with Fc epsilon but that its activation takes place prior to protein kinase C activation and plays a novel role in the Fc epsilon RI signaling pathway.
Mol Cell Biol 1994 Aug
PMID:Tyrosine phosphorylation and activation of Bruton tyrosine kinase upon Fc epsilon RI cross-linking. 751 58

Fetal haemoglobin (Hb F) levels shows significant variations in health and disease states. In this study we investigated Hb F level in 75 cord bloods, 1266 healthy individuals, 1582 Hb S heterozygotes, 464 sickle cell anaemia, 93 Hb S/beta(0) -thalassaemia and 65 beta-thalassemia major patients. The age range of the study groups varied from newborn to over 60 years of age. Hb F level was measured by an alkali denaturation procedure and by radial immunodiffusion. The ratio of the level of G gamma-globin chains to the level of A gamma-globin chains (G gamma/A gamma) was determined in the patients group by high performance liquid chromatography. The Hb F level was significantly higher in the sickle cell anaemia and beta-thalassemia major patients compared to the Hb S heterozygotes and the normal individuals. Within each group Hb F level was higher in the female population compared to the age-matched male groups. This difference was statistically significant (P < 0.05) in the sickle cell disease patients and beta-thalassemia major patients but not in the normal individuals. After the age of 30 years, the difference in the value of Hb F in the male and female population become more apparent (P < 0.05) in the sickle cell disease and beta-thalassaemia major patients. No statistically significant sex differences were found in the G gamma/A gamma ratio in the patient groups, and the range of G gamma/A gamma ratio in the patients groups were similar to those in the control group. The results showed that age, sex and genetic disorders of haemoglobin are factors that affect Hb F level and indicate the possible involvement of an X-linked factor in control of Hb F production.
Mol Cell Biochem 1994 Jun 29
PMID:Fetal haemoglobin level--effect of gender, age and haemoglobin disorders. 753 Aug 9

Fabry disease, an X-linked inborn error of glycosphingolipid catabolism, results from mutations in the alpha-galactosidase A gene at Xq22.1. To determine the nature and frequency of the molecular lesions causing the classical and milder variant Fabry phenotypes, and for precise carrier detection in Fabry families, the alpha-galactosidase A coding and flanking intronic sequences from 23 unrelated Fabry hemizygotes were analyzed. In patients with the classic phenotype, 16 new missense and nonsense mutations and four small exonic gene rearrangements were identified: C52S, C56F, E59K, L89R, R100K, R112H, L131P, A143P, G144V, C172Y, D244N, N272K, A288D, W81X, Q99X, Q157X, R301X, 25del1, 333del18, 358del6, and 1020del1. The R112H mutation at a CpG dinucleotide resulted in residual activity and a mild variant phenotype while the R112C lesion caused the classic disease manifestations, defining a genotype/phenotype correlation for sense and antisense mutations at the same CpG dinucleotide. In addition, two complex rearrangements, each involving two mutational events, occurred in classic hemizygotes. Both rearrangements resulted in missense mutations that did not change the reading frame. Notably, three of the deletions occurred within 11 codons in exon 2, thereby defining a 'hot-spot' for deletions. These studies revealed that most mutations in the alpha-galactosidase A gene causing Fabry disease were private, that codons 111-122 defined a deletion hot-spot, and that different substitutions of the same codon resulted in markedly different disease phenotypes.
Hum Mol Genet 1994 Oct
PMID:Fabry disease: twenty-three mutations including sense and antisense CpG alterations and identification of a deletional hot-spot in the alpha-galactosidase A gene. 753 40

Kallmann's syndrome (KS) is characterised by the association of anosmia and isolated hypogonadotrophic hypogonadism (IHH). Mutations of the KAL gene which is located at Xp22.3 cause X-linked KS (XKS). In this study we used the reverse transcriptase polymerase chain reaction and in situ hybridisation to examine the developmental expression of KAL in the first trimester of pregnancy, the earliest stage of human gestation examined thus far. At 45 days after fertilisation KAL mRNA was detected in the spinal cord, the mesonephros and metanephros but not in the brain. Later in gestation, at 11 weeks, the gene was expressed in the developing olfactory bulb, retina and kidney. This expression pattern correlates with the clinical findings in XKS since olfactory bulb dysgenesis with subsequent defective neural migration causes anosmia and IHH. Additionally, renal agenesis occurs in 40% of patients. Therefore this study provides strong evidence that KAL expression is required for the normal development of the olfactory bulb and kidney in the first trimester of human pregnancy.
Mol Cell Endocrinol 1995 Apr 28
PMID:KAL, a gene mutated in Kallmann's syndrome, is expressed in the first trimester of human development. 754 24

X-linked liver glycogenosis (XLG) due to liver phosphorylase kinase (PHK) deficiency is the most frequent liver glycogen storage disease. The affected patients present in early childhood with hepatomegaly and growth retardation. We isolated and determined the structure of human liver alpha subunit of PHK (PHKA2) cDNA. The 3705 base pair open reading frame encodes a polypeptide of 1235 amino acid residues, and the deduced amino acid sequence shows 93 and 68% homology to that of rabbit liver alpha subunit of PHK and human muscle alpha subunit of PHK, respectively. We identified a missense mutation, a valine substitution for glycine at amino acid 193, in the PHKA2 gene of a family with XLG.
Biochem Mol Biol Int 1995 Jul
PMID:Isolation of cDNA encoding the human liver phosphorylase kinase alpha subunit (PHKA2) and identification of a missense mutation of the PHKA2 gene in a family with liver phosphorylase kinase deficiency. 754 48

This paper describes a knowledge-based system for molecular diagnostics, and its application to fully automated diagnosis of X-linked genetic disorders. Molecular diagnostic information is used in clinical practice for determining genetic risks, such as carrier determination and prenatal diagnosis. Initially, blood samples are obtained from related individuals, and PCR amplification is performed. Linkage-based molecular diagnosis then entails three data analysis steps. First, for every individual, the alleles (i.e., DNA composition) are determined at specified chromosomal locations. Second, the flow of genetic material among the individuals is established. Third, the probability that a given individual is either a carrier of the disease or affected by the disease is determined. The current practice is to perform each of these three steps manually, which is costly, time consuming, labor-intensive, and error-prone. As such, the knowledge-intensive data analysis and interpretation supersede the actual experimentation effort as the major bottleneck in molecular diagnostics. By examining the human problem solving for the task, we have designed and implemented a prototype knowledge-based system capable of fully automating linkage-based molecular diagnostics in X-linked genetic disorders, including Duchenne Muscular Dystrophy (DMD). Our system uses knowledge-based interpretation of gel electrophoresis images to determine individual DNA marker labels, a constraint satisfaction search for consistent genetic flow among individuals, and a blackboard-style problem solver for risk assessment. We describe the system's successful diagnosis of DMD carrier and affected individuals from raw clinical data.
Proc Int Conf Intell Syst Mol Biol 1994
PMID:Intelligent DNA-based molecular diagnostics using linked genetic markers. 758 9


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