UNIPROT:Q00604 - FACTA Search

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

Query: UNIPROT:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Of 107 consecutive patients with genetically-determined retinitis pigmentosa, 23 were provisionally diagnosed as having inherited the disease in an X-linked fashion. 42 affected males and 61 females were examined, and from the data obtained the following conclusions were drawn: (1) X-linked retinitis pigmentosa exists and is distinct from choroideremia. (2) In contrast to the results of previous surveys, X-linked retinitis pigmentosa is a common form of this disease and over 20 per cent. of retinitis pigmentosa is probably transmitted in an X-linked manner. (3) (a) In contradistinction to the findings of previous investigators, most if not all adult heterozygous females have detectable degenerative changes in the ocular fundus. (b) The ocular changes in heterozygous females are most easily detected by fundus examination, visual field testing, dark adaptation measurements, and estimation of retinal rhodopsin concentration. The single most frequent abnormality is peripheral retinal pigment epithelial atrophy, which is found in all adult heterozygous females. (c) The pattern of retinal dysfunction in heterozygous females, and in particular preservation of the ocular electrical responses, suggests that the disease in women is qualitatively different from that in men and in other genetic forms of retinitis pigmentosa. There is some evidience that the disease in heterozygous women is patchy. (d) Degeneration in heterozygous females is usually symmetrical, but great variation was found in the severity of degeneration amongst heterozygotes of similar ages. No non-genetic influences were found to account for this. No evidence came to light by which the importance of X-chromosome inactivation could be assessed in determining the phenotype of heterozygous women. (4) No evidience is available to determine the number of X-linked genes transmitting the disease.
...
PMID:X-linked retinitis pigmentosa. 113 42

Rab geranylgeranyl transferase (GG transferase) from rat brain contains two components, A and B. Component B comprises polypeptides of 60 and 38 kd. Here we report the purification of component A, a single 95 kd polypeptide. The holoenzyme attaches 3H-geranylgeranyl to cysteines in two GTP-binding proteins, Rab3A and Rab1A. The reaction is abolished when both cysteines in the COOH-terminal CysCys sequence of Rab1A are mutated to serines. The mutant protein inhibits transfer of 3H-geranylgeranyl to wild-type Rab1A and Rab3A, suggesting that the enzyme recognizes conserved sequences distinct from the COOH-terminus. Six peptides from rat component A show striking similarity to the product of the defective gene in choroideremia, an X-linked retinal degeneration disease. The choroideremia protein resembles Rab3A GDI, which binds Rab3A. We hypothesize that component A binds conserved sequences in Rab and that component B transfers geranylgeranyl. A defect in this reaction may cause choroideremia.
...
PMID:Purification of component A of Rab geranylgeranyl transferase: possible identity with the choroideremia gene product. 152 21

Choroideremia is a bilateral and progressive chorioretinal degenerative disease of X-linked inheritance. In Taiwan, the disease has rarely been reported. We recently found 8 male patients and 5 female carriers in two Chinese families with choroideremia and studied the clinical, psychophysical and electrophysiological properties of the disease. All patients revealed characteristic fundus and fluorescein angiographic changes in retinal pigment epithelium, and choroidal atrophy of variable extent. The severity of the functional impairments paralleled the fundus changes and the patients' age. However dark adaptation and the visual field were affected earlier than visual acuity and color sensation. In addition, rod cell impairment was found to be more severe than cone cell impairment in the electroretinographic studies. On the other hand, all carriers revealed similar diffuse punctate pigmentary changes and only mild abnormalities in dark adaptation. These findings may suggest that in choroideremia patients the photoreceptor cells are very sensitive to the influence of the choroidal atrophy, and that rod cells may be even more vulnerable than cone cells.
...
PMID:Choroideremia: a study of two families. 168 59

Quantification of the Hoechst and chromomycin A3 fluorescence intensities of mitotic human chromosomes isolated from karyotypically normal and abnormal cells was performed with a dual beam flow cytometer. The resultant flow karyotypes contain information about the relative DNA content and base composition of chromosomes and their relative frequencies in the mitotic cell sample. The relative copy number of X and Y chromosomes was determined for 38 normal males and females and 6 cell lines with X or Y chromosome aneuploidy. Flow karyotype diagnoses corresponded with conventional cytogenetic results in all cases. We show that chromosome DNA content can be derived from peak position in Hoechst vs. chromomycin flow karyotypes. These values are linearly related to propidium iodide staining intensity as measured with flow cytometry and to the binding of gallocyanin chrome alum to phosphate groups as measured with slide-based scanning photometry. Cell lines with deleted or dicentric X chromosomes ranging in length from 0.53 to 1.95 times normal were analyzed by using flow cytometry. The measured difference in DNA content between a normal X and each of the structurally abnormal chromosomes was linearly correlated to the difference predicted from cytogenetics and/or probe analyses. Deletions of 3-5 Mb, which were at and below the detection limits of conventional cytogenetics, could be quantified by flow karyotyping in individuals with X-linked diseases such as Duchenne muscular dystrophy, choroideremia, and ocular albinism/ichthyosis. The results show that the use of flow karyotyping to quantify the size of restricted regions of the genome can complement conventional cytogenetics and other physical mapping techniques in the study of genetic disorders.
...
PMID:Quantification of the DNA content of structurally abnormal X chromosomes and X chromosome aneuploidy using high resolution bivariate flow karyotyping. 210 19

The availability of more and more reliable obstetrical echographies makes now possible to screen fetuses for microphtalmies and anophtalmies. More over, by mean of linkage studies with DNA markers within a family, we can identify the women who will transmit X-linked diseases, and realize a prenatal diagnosis. This technology can be applied to the following ophthalmological diseases: the X-linked retinoschisis, the choroideremia, the ocular albinism, the Noorie disease, and recently the retinoblastoma. From now on, the use of such a technology which makes it possible to detect ophthalmological diseases in the fetuses, is posing ethical problems especially in case of diseases without any survival prognosis involvement.
...
PMID:[Prenatal diagnosis of various hereditary blinding diseases]. 225 Sep 55

We have examined eyes from a heterozygote (carrier) of choroideremia, an X-linked disease. Gross examination revealed irregular pigmentation at the level of the retinal pigment epithelium (RPE) except at the posterior pole, and islands of well defined depigmentation of 1-4 mm in diameter in the midperiphery. The optic nerve and retinal blood vessels appeared normal, and there was minimal pigment migration into the retina. Histopathologic examination showed normal photoreceptors in the posterior and anterior fundus, but the outer segments were short or absent in much of the equatorial region. Little gliosis was noted in areas of retinal atrophy. The RPE was abnormal, with irregular thickness and pigmentation associated with variable lipofuscin content from one RPE cell to another, as shown by fluorescence microscopy. There were areas of profound atrophy in the equatorial region, with abrupt transitions between relatively normal RPE and photoreceptors, and retina devoid of RPE and photoreceptors. Bruch's membrane was thickened to a greater extent than is common in age-related change. The choriocapillaris was normal in areas with normal photoreceptors, except for widening of the intercapillary pillars. In those regions with abnormal photoreceptors, choroidal capillaries were fewer in number, had reduced luminal diameter, and fenestrae were sparse. In some areas of intense atrophy, there were no choroidal capillaries. The findings are compatible with the primary defect residing in the RPE. The Lyon hypothesis of X-chromosome inactivation and mosaicism could explain the irregularity of change and areas of intense atrophy, but abrupt demarcation between grossly abnormal, and relatively well preserved retina also occurs in hemizygotes (affected males).
...
PMID:A histopathologic study of a choroideremia carrier. 230 26

The study of contiguous gene deletion syndromes by using reverse genetic techniques provides a powerful tool for precisely defining the map location of the genes involved. We have made use of individuals with overlapping deletions producing choroideremia as part of a complex phenotype, to define the boundaries on the X chromosome for this gene, as well as for X-linked mixed deafness with perilymphatic gusher (DFN3). Two patients with deletions and choroideremia are affected by an X-linked mixed conductive/sensorineural deafness; one patient, XL-62, was confirmed at surgery to have DFN3, while the other patient, XL-45, is suspected clinically to have the same disorder. A third choroideremia deletion patient, MBU, has normal hearing. Patient XL-62 has a cytogenetically detectable deletion that was measured to be 7.7% of the X chromosome by dual laser flow cytometry; the other patient, XL-45, has a cytogenetically undetectable deletion that measures only 3.3% of the X chromosome. We have produced a physical map of the X-chromosome region containing choroideremia and DFN3 by using routine Southern blotting, chromosome walking and jumping techniques, and long-range restriction mapping to generate and link anonymous DNA sequences in this region. DXS232 and DXS233 are located within 450 kb of each other on the same SfiI and MluI fragments and share partial SalI fragments of 750 and greater than 1,000 kb but are separated by at least one SalI site. In addition, DXS232, which lies outside the MBU deletion, detects the proximal breakpoint of this deletion. We have isolated two new anonymous DNA sequences by chromosome jumping from DXS233; one of these detects a new SfiI fragment distal to DXS233 in the direction of the choroideremia gene, while the other jump clone is proximal to DXS233 and detects a new polymorphism. These data refine the map around the loci for choroideremia and for mixed deafness with stapes fixation and will provide points from which to isolate candidate gene sequences for these disorders.
...
PMID:Choroideremia and deafness with stapes fixation: a contiguous gene deletion syndrome in Xq21. 249 Oct 12

Choroideremia is a rare X-linked, progressive, degenerative disease of the retina and choroid. We describe 2 patients, one a female, with choroideremia documented to have hypopituitarism and neurological abnormalities. We hypothesize that this previously undescribed association results from a degenerative process involving tissues of neural origin, or from contiguous submicroscopic gene deletions in the X chromosome region that define choroideremia and possibly hypopituitarism.
...
PMID:Choroideremia and hypopituitarism: an association. 262 60

Choroideremia is an X-linked hereditary retinal dystrophy leading to blindness in early adulthood. RFLP analyses in three Danish families were consistent with close linkage between choroideremia and the locus DXYS1, located at Xq13-Xq21. Measurable linkage was found between choroideremia and DXS17, at Xq22. Furthermore, choroideremia was diagnosed in a boy with an interstitial deletion at Xq13-Xq21, strongly suggesting the assignment of the locus for choroideremia to this region of the X chromosome. The deletion also covered DXYS1, but did not include DXS17.
...
PMID:Choroideremia: further evidence for assignment of the locus to Xq13-Xq21. 287 72

Choroideremia (McK30310), an X-linked retinal dystrophy, causes progressive night blindness, visual field constriction, and eventual central blindness in affected males by the third to fourth decade of life. The biochemical basis of the disease is unknown, and prenatal diagnosis is not available. Subregional localization of the choroideremia locus to Xq13-22 was accomplished initially by linkage to two restriction-fragment-length polymorphisms (RFLPs), DXYS1 (Xq13-q21.1) and DXS3 (Xq21.3-22). We have now extended our linkage analysis to 12 families using nine RFLP markers between Xp11.3 and Xq26. Recombination frequencies of 0%-4% were found between choroideremia and five markers (PGK, DXS3, DXYS12, DXS72, and DXYS1) located in Xq13-22. The families were also used to measure recombination frequencies between RFLP loci to provide parameters for the program LINKMAP. Multipoint analysis with LINKMAP provided overwhelming evidence for placing the choroideremia locus within the region bounded by DXS1 (Xq11-13) and DXS17 (Xq21.3-q22). At a finer level of resolution, multipoint analysis suggested that the choroideremia locus was proximal to DXS3 (384:1 odds) rather than distal to it. Data were insufficient, however, to distinguish between a gene order that puts choroideremia between DXS3 and DXYS1 and one that places choroideremia proximal to both RFLP loci. These results provide linkage mapping of choroideremia and RFLP loci in this region that will be of use for further genetic studies as well as for clinical applications in this and other human diseases.
...
PMID:Multipoint linkage analysis of loci in the proximal long arm of the human X chromosome: application to mapping the choroideremia locus. 288 87

1 2 3 4 5 6 7 Next >>