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Query: UNIPROT:Q00604 (
X-linked
)
16,883
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Retinitis Pigmentosa (RP) is a group of inherited retinopathies which affect approximately 1 in 4,000 individuals. The disorder can be classified on the basis of inheritance; dominant, recessive and
X-linked
forms have been well documented. The existence of genetic heterogeneity within autosomal dominant RP (adRP) had been previously demonstrated. As a result of extensive linkage studies in 2 large Irish families and 1 American pedigree three adRP genes have been mapped. adRP genes have been localised to chromosome 3q close to the rod photoreceptor gene, rhodopsin; to chromosome 6p close to another transmembrane photoreceptor gene, peripherin/
RDS
and to the pericentric region of chromosome 8, although the causative gene in this region has not yet been identified. Here we report the results of a linkage study in a Spanish family, who exhibit an early-onset form of adRP. The adRP gene segregating in this family has been excluded from the three known adRP loci on chromosomes 3q, 6p and 8 using a series of both intragenic microsatellite markers from the rhodopsin and peripherin/
RDS
genes and markers flanking the three known loci. These results provide definitive evidence for the existence of a fourth adRP locus, further emphasising the genetic heterogeneity that exists within adRP.
...
PMID:Autosomal dominant retinitis pigmentosa (adRP): exclusion of a gene from three mapped loci provides evidence for the existence of a fourth locus. 130 15
Retinitis pigmentosa comprises a group of clinically variable and genetically heterogeneous inherited disorders of the retina. It is estimated that approximately 1.5 million people throughout the world are affected by this disease. It is a slowly progressive disorder and causes loss of night vision and peripheral visual field in adolescence. It can be inherited through an autosomal dominant, recessive, or
X-linked
mode; the autosomal dominant form is considered to be the mildest form. Molecular genetic studies on the autosomal dominant disorder have shown that, in some families, genes encoding the rhodopsin and peripherin/
RDS
map very close to the disease loci identified previously by the systematic linkage analyses. These results, together with the observation that a recessive nonsense mutation in the Drosophila opsin gene causes photoreceptor degeneration, prompted an extensive search for the alterations in the human rhodopsin and peripherin/
RDS
genes in families with autosomal dominant retinitis pigmentosa. As a result, several distinct rhodopsin and peripherin/
RDS
mutations have been found in approximately 30% of all autosomal dominant cases. A wide variety of clinical expression of the disorder even within a family with the same mutation, its late onset, slow progression, and cone degeneration clearly suggest that some other factors or genes in addition to rhodopsin are responsible for the phenotypic expression of the disorder. In this article, an attempt is made to highlight some of these recent developments and to correlate the various mutations and the phenotypes.
...
PMID:Retinitis pigmentosa and related disorders: phenotypes of rhodopsin and peripherin/RDS mutations. 774 60
Retinitis pigmentosa is a genetically heterogeneous disease that has autosomal dominant, autosomal recessive and
X-linked
forms. Autosomal dominant retinitis pigmentosa (adRP) has thus far been associated with eight distinct loci, including the rhodopsin and peripherin/
RDS
genes as well as unidentified genes on chromosomes 7p, 7q, 8q, 17p, 17q, and 19q. The RP10 locus for adRP on chromosome 7q was first mapped in a Spanish family; later, an unrelated American family was identified that also showed linkage to 7q. By combining the linkage results from both families, we are able to assign the disease gene to a 5-cM interval on 7q. Based on extensive physical mapping of this region, the genetic interval is now fully contained within a approximately 5-Mb segment on a well-defined YAC contig. These studies significantly reduce the size of the RP10 critical region, exclude a number of possible candidate genes, and provide the necessary cloned DNA for the positional cloning of the RP10 gene.
...
PMID:Mapping the RP10 locus for autosomal dominant retinitis pigmentosa on 7q: refined genetic positioning and localization within a well-defined YAC contig. 872 19
Photoreceptor dysplasia (pd) is one of a group of at least six distinct autosomal and one
X-linked
retinal disorders identified in dogs which are collectively known as progressive retinal atrophy (PRA). It is an early onset retinal disease identified in miniature schnauzer dogs, and pedigree analysis and breeding studies have established autosomal recessive inheritance of the disease. Using a gene-based approach, a number of retina-expressed genes, including some members of the phototransduction pathway, have been causally implicated in retinal diseases of humans and other animals. Here we examined seven such potential candidate genes (opsin,
RDS
/peripherin, ROM1, rod cGMP-gated cation channel alpha-subunit, and three subunits of transducin) for their causal association with the pd locus by testing segregation of intragenic markers with the disease locus, or, in the absence of informative polymorphisms, sequencing of the coding regions of the genes. Based on these results, we have conclusively excluded four photoreceptor-specific genes as candidates for pd by linkage analysis. For three other photoreceptor-specific genes, we did not find any mutation in the coding sequences of the genes and have excluded them provisionally. Formal exclusion would require investigation of the levels of expression of the candidate genes in pd-affected dogs relative to age-matched controls. At present we are building suitable informative pedigrees for the disease locus with a sufficient number of meiosis to be useful for genomewide screening. This should identify markers linked to the disease locus and eventually permit progress toward the identification of the photoreceptor dysplasia gene and the disease-causing mutation.
...
PMID:Photoreceptor dysplasia (pd) in miniature schnauzer dogs: evaluation of candidate genes by molecular genetic analysis. 998 5
Retinitis pigmentosa (RP) is the most frequent form of inherited retinopathy. RP is genetically heterogeneous with autosomal dominant, autosomal recessive and
X-linked
forms. Autosomal dominant retinitis pigmentosa (adRP) accounts for about 20-25% of all RP cases. At least ten adRP loci have so far been mapped. However, mutations causing adRP have been identified only in four retina-specific genes: RHO (encoding rhodopsin) in approximately 20% of adRP families, peripherin/
RDS
(3-5% of adRP) and recently RP1 (Pierce et al., 1999, Sulivan et al., 1999) and NRL gene. Only one mutation in the NRL gene causing adRP has so far been reported (Bessant et al., 1999). Here we report a novel mutation Pro51Leu in an adRP Spanish family supporting that mutation in NRL is the cause of adRP. A second missense mutation Gly122Glu has been observed in a simplex RP patient that may represent a sporadic case of retinitis pigmentosa. Hum Mutat 17:520, 2001.
...
PMID:Mutations P51U and G122E in retinal transcription factor NRL associated with autosomal dominant and sporadic retinitis pigmentosa. 1138 10
Macular degeneration is a leading cause of blindness that affects the aged population. The complexity of the molecular basis of macular disease is now beginning to be elucidated with the identification of disease-causing genes. For example, mutations in the ABCR gene, (recently identified in cones as well) which codes for retinal rod-specific ABCR protein is responsible for Stargardt macular dystrophy/fundus flavimaculatus, an autosomal recessive macular dystrophy with juvenile onset, which accounts for 7% of human retinal degenerative diseases. The gene mutant in
X-linked
juvenile retinoschisis, XLRS1, is the first macular dystrophy gene to be isolated by positional cloning. Mutations in the peripherin/
RDS
gene have been shown to be associated with a variety of distinct forms of macular degenerations. The tissue inhibitor of metalloproteinase 3 (TIMP3) is implicated in autosomal dominant Sorsby fundus dystrophy. Best vitelliform macular dystrophy was mapped to 11q12-q13. The cloned gene product is the protein bestrophin, which is a retinal specific gene expressed in the RPE and possibly involved in the metabolism and transport of polyunsaturated fatty acids. The cloning of genes for rare heritable forms of macular degeneration will increase our understanding of the basic pathogenesis of the disease process. In the future this should also allow us to test the hypothesis that the coincidence of subclinical mutations in a number of genes involved in the formation and function of the macula can be responsible for cases of age-related macula-degeneration which is by far the most common form of these macular disorders.
...
PMID:Molecular genetics of macular degeneration. 1155 84
Retinitis pigmentosa (RP) is a heterogeneous group of retinal dystrophies characterized by photoreceptor cell degeneration. RP causes night blindness, a gradual loss of peripheral visual fields, and eventual loss of central vision. Advances in molecular genetics have provided new insights into the genes responsible and the pathogenic mechanisms of RP. The genetics of RP is complex, and the disease can be inherited in autosomal dominant, recessive,
X-linked
, or digenic modes. Twenty-six causative genes have been identified or cloned for RP, and an additional fourteen genes have been mapped, but not yet identified. Eight autosomal dominant forms are due to mutations in RHO on chromosome 3q21-24,
RDS
on 6p21.1-cen, RP1 on 8p11-21, RGR on 10q23, ROM1 on 11q13, NRL on 14q11.1-11.2, CRX on 19q13.3, and PRKCG on 19q13.4. Autosomal recessive genes include RPE65 on chromosome 1p31, ABCA4 on 1p21-13, CRB1 on 1q31-32.1, USH2A on 1q41, MERTK on 2q14.1, SAG on 2q37.1, RHO on 3q21-24, PDE6B on 4p16.3, CNGA1 on 4p14-q13, PDE6A on 5q31.2-34, TULP1 on 6p21.3, RGR on 10q, NR2E3 on 15q23, and RLBP1 on 15q26. For
X-linked
RP, two genes, RP2 and RP3 (RPGR), have been cloned. Moreover, heterozygous mutations in ROM1 on 11q13, in combination with heterozygous mutations in
RDS
on 6p21.1-cen, cause digenic RP (the two-locus mechanism). These exciting molecular discoveries have defined the genetic pathways underlying the pathogenesis of retinitis pigmentosa, and have raised the hope of genetic testing for RP and the development of new avenues for therapy.
...
PMID:Update on the molecular genetics of retinitis pigmentosa. 1155 56
