In order to characterize a previously described submicroscopic deletion encompassing (part of) the choroideremia (tapetochoroidal dystrophy: TCD) gene, we have cloned a 10.5-kb EcoRI fragment from the patient's DNA; this fragment carries the junction between both deletion endpoints ("junction fragment").
Using various probes from the Xq21 region which is known to carry the choroideremia (tapetochoroideal dystrophy, TCD) locus, we have screened the DNAs from eight unrelated male choroidermia patients for microdeletions.
Using recombinant Rab geranylgeranyl transferase and REPs to label unprenylated cytosolic proteins, we identified one unprenylated protein in choroideremia lymphoblasts that was prenylated in vitro more efficiently by REP-1 than by REP-2.
Cloning of the 5' end of the CHM gene and the elucidation of its intron-exon structure enabled us to localize the X-chromosomal breakpoint in a CHM female with an X;7 translocation between exons 3 and 4.
We suggest that REP-2 substitutes for the absent function of REP-1 in nonretinal cells of patients with choroideremia, thus preventing cellular dysfunction throughout the body.
The variation of the clinical phenotype among family members carrying the same mutation indicates that the severity of choroideremia is not solely a function of the CHM gene.
To characterize the effect on mRNA splicing of a yet undescribed mutation located in intron 13 splice-donor sequence (IVS13 + 3A --> C) in the Rab-Escort-protein 1 gene of a patient with choroideremia.
The virtual absence of any missense mutation found to be responsible for choroideremia makes the RT-PCR-based protein truncation test the most relevant genotypic diagnostic procedure for identifying mutations in the CHM gene.
Other genetic diseases are caused by partial dysfunction of multiple Rab proteins resulting from mutations in general regulators of Rab activity; Rab escort protein-1 (choroideremia), Rab geranylgeranyl transferase (Hermansky-Pudlak syndrome) and Rab GDP dissociation inhibitor-alpha (X-linked mental retardation).